Abrégé

The present application relates to the technical field of air conditioners. Disclosed are a driving device for an air guide plate of an air conditioner, and an air conditioner. The driving device comprises a first link and a second link which are both adapted to be connected to a first air guide plate, wherein during opening of the first air guide plate, the motion trajectories of the first link and the second link both comprise linear motion trajectories in different directions.

Classes IPC  ?

• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes

Abrégé

The present application relates to the technical field of air conditioners. Disclosed are a driving device for an air guide plate of an air conditioner, and an air conditioner. The driving device comprises a first driving structure which is in driving connection with a first air guide plate; a second driving structure which is in driving connection with a second air guide plate; and a box which comprises a first side wall, wherein the first side wall is arranged between the first driving structure and the second driving structure.

Classes IPC  ?

• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes

Abrégé

The present application relates to the technical field of air conditioning, and discloses a rack in a gear-and-rack meshing structure. The rack moves sequentially along a first linear trajectory and a second linear trajectory, and is provided with a first linear tooth segment and a second linear tooth segment to correspond to the first linear trajectory and the second linear trajectory, respectively. The rack is further provided with a transition tooth segment, and a tooth profile of the transition tooth segment is determined by ∠AOC, where A is the point of tangency between the first linear trajectory and the pitch circle of the gear, C is the point of tangency between the second linear trajectory and the pitch circle of the gear, and O is the center of rotation of the gear.

Classes IPC  ?

• G06F 30/17 - Conception mécanique paramétrique ou variationnelle
• G06F 30/20 - Optimisation, vérification ou simulation de l’objet conçu

Abrégé

The present application relates to the technical field of motors, and discloses a magnetic steel structure, a rotor structure and a motor. The magnetic steel structure comprises a first magnetic steel section and a second magnetic steel section. The second magnetic steel section is connected to the end of the first magnetic steel section. The first magnetic steel section and the second magnetic steel section are each of a sinusoidal structure. In the present application, the first magnetic steel section and the second magnetic steel section are each of a sinusoidal structure, the magnetic field gathered at the edge of a magnetic steel is diluted, the harmonic magnetic field formed by flux density concentration is reduced, and the local flux density saturation degree is reduced, thereby reducing the vibration noise of the motor.

Classes IPC  ?

• H02K 1/276 - Aimants encastrés dans le noyau magnétique, p. ex. aimants permanents internes [IPM]

Abrégé

The present invention relates to the technical field of air conditioning systems, and particularly provides a control method for an air conditioning system, and the air conditioning system. The air conditioning system comprises an indoor unit, the indoor unit is provided with an air outlet port and an air return port, and the air return port comprises an indoor air return port and an outdoor air inlet port; the air conditioner system further comprises a first air duct and a second air duct, the air outlet port is communicated with the outdoor environment by means of the first air duct, the outdoor air inlet is communicated with the outdoor environment by means of the second air duct, a first air valve is arranged in the first air duct, and a second air valve is arranged in the second air duct. The control method comprises: in a defrosting mode, an air conditioning system performs a cooling operation, and an indoor fan rotates; and a first air valve and a second air valve open. Residual heat of indoor air is recovered during the defrosting process, heat of outdoor fresh air is fully utilized, a heat exchanger of the indoor unit absorbs heat of the indoor air and the outdoor fresh air, so as to improve the evaporation pressure of the system, reduce the energy consumption during the defrosting process, and discharge the cold air outdoors, thereby ensuring comfortable indoor temperature.

Classes IPC  ?

• F24F 11/41 - DégivragePrévention du gel
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement

Abrégé

The present application relates to the technical field of air conditioners. Provided are a refrigerant safety protection method and apparatus for an air conditioning unit, and an air conditioning unit. The refrigerant safety protection method for an air conditioning unit comprises: after an air conditioning unit is powered on to operate, acquiring an ambient temperature; acquiring a corresponding refrigerant pressure of the air conditioning unit at the ambient temperature; on the basis of the refrigerant pressure, determining whether the air conditioning unit has a refrigerant abnormality risk; and when the air conditioning unit has a refrigerant abnormality risk, controlling the air conditioning unit to execute a refrigerant safety protection strategy. By means of the present application, explosion risks caused by refrigerant abnormalities can be reduced, thereby improving the safety and reliability of an air conditioning unit.

Classes IPC  ?

• F24F 11/36 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques aux fuites de fluides échangeurs de chaleur
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 11/84 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant l’apport en fluides échangeurs de chaleur aux échangeurs de chaleur au moyen de valves
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 110/10 - Température
• F24F 140/10 - Pression

Abrégé

Provided are a refrigeration device having a refrigerant junction box (2) and a refrigeration system. The refrigeration device having a refrigerant junction box (2) comprises: a control box body (1), the control box body (1) being provided with a refrigerant region (11) and a wiring region, the refrigerant region (11) and the wiring region being independent of one another, and the refrigerant region (11) being used for storing refrigerant; and a junction box (2), the junction box (2) being arranged in the wiring region, and a terminal block (21) being provided in the junction box (2).

Classes IPC  ?

• F24F 13/20 - Enveloppes ou couvercles
• F25B 41/40 - Agencements de conduites de fluide

Abrégé

The present application relates to the technical field of compressors, and discloses a centrifugal compressor and a refrigeration device. The centrifugal compressor comprises: a housing, which is provided with a gas inlet and a gas outlet; a centrifugal compression mechanism, which is located in the housing and used for pressurizing a fluid flowing in from the gas inlet and then flowing out of the housing from the gas outlet; a main shaft, which extends in the vertical direction and is arranged in the housing, wherein the main shaft can rotate around the axis thereof; a bearing assembly, which is arranged on the outer side of the main shaft in a sleeving manner; and a centrifugal pump, which is arranged on the outer side of the main shaft in a sleeving manner and can rotate along with the main shaft. The housing defines lubricating channels and an oil cavity, the lubricating channels are communicated with the oil cavity and the bearing assembly, the centrifugal pump is communicated with the oil cavity, and the centrifugal pump can drive oil to circularly flow between the oil cavity and the bearing assembly through the lubricating channels. The coaxial centrifugal pump arranged on the vertical main shaft is used as an oil pump, omitting an oil pump driven by a motor, reducing the power consumption of the oil pump, and improving the efficiency of the compressor.

Classes IPC  ?

• F04D 29/056 - Paliers

Abrégé

The present application relates to the technical field of sealed enclosures, and provides a sealed enclosure temperature control system and a method. The sealed enclosure temperature control system comprises: a heat pump unit, a sealed enclosure, a first temperature sensor and a controller. The heat pump unit comprises, connected to form a cycle, a compressor, a condenser, an electronic expansion valve and an evaporator, the sealed enclosure being arranged on the evaporator side by side. The first temperature sensor is arranged in the sealed enclosure and is used for measuring the temperature in the sealed enclosure. The controller is separately electrically connected to the first temperature sensor, the compressor and the electronic expansion valve, and is used for controlling, during the cooling operation of the heat pump unit, the degree of opening of the electronic expansion valve according to the measured temperature in the sealed enclosure. The present application can use heat pump technology to accurately control internal temperatures of sealed enclosures, so as to quickly dissipate heat out of the sealed enclosures, thereby decreasing the internal temperatures of the sealed enclosures and ensuring the normal operation of electric devices in the sealed enclosures.

Classes IPC  ?

• G05D 23/20 - Commande de la température caractérisée par l'utilisation de moyens électriques avec un élément sensible présentant une variation de ses propriétés électriques ou magnétiques avec les changements de température

Abrégé

The present application relates to the technical field of semiconductors, and in particular to a semiconductor device with a heat dissipation structure and an electronic apparatus. The semiconductor device with a heat dissipation structure comprises: a semiconductor; a heat conduction assembly, wherein a first end of the heat conduction assembly is arranged close to a first end surface of the semiconductor and used for transferring heat of the semiconductor to the heat conduction assembly; and a heat dissipation assembly, wherein one end of the heat dissipation assembly is in heat conduction contact with a second end surface of the semiconductor, and a second end of the heat conduction assembly is in heat conduction contact with the heat dissipation assembly. In the present application, the heat of the semiconductor is transferred by means of the heat conduction assembly, heat dissipation is conducted by means of the heat dissipation assembly; thus, on the one hand, heat dissipation efficiency of the semiconductor is improved, and the requirement for heat dissipation during operation of the semiconductor is satisfied; on the other hand, there is no need to use air cooling for heat dissipation; moreover, the heat dissipation structure occupies a small space and is suitable for dissipating heat of the semiconductor in a closed environment or a compact-structured space.

Classes IPC  ?

• H01L 23/367 - Refroidissement facilité par la forme du dispositif
• H01L 23/34 - Dispositions pour le refroidissement, le chauffage, la ventilation ou la compensation de la température

Abrégé

A communication and power supply control system and method for an air conditioner. The communication and power supply control system for an air conditioner comprises: a communication device (100), a communication line (200) and an outdoor unit (300), wherein the communication device (100) is connected to a first power source (400); the communication line (200) is connected to the communication device (100); and the outdoor unit (300) comprises a control module (301), and the control module (301) is respectively connected to the communication line (200) and a second power source (500), and is used for controlling the outdoor unit (300) to communicate with the communication device (100) by using a scheduled inspection communication strategy and by means of the communication line (200), so as to detect the communication state of the communication device (100) and determine that the communication device (100) is in a communication power failure state, and for controlling the outdoor unit (300) to supply, by means of the communication line (200), power to the communication device (100) which is in a power failure. Therefore, when a communication device of an air conditioner has a power failure, communication devices in an air conditioning system can still realize the functions of power supply and communication to complete specified operations, thereby improving the operation stability and reliability of the whole machine.

Classes IPC  ?

• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

The present application relates to the technical field of air conditioning systems. Provided are a control method and control apparatus for an air conditioning system, and an air conditioning system. The control method for an air conditioning system comprises: acquiring an ambient temperature, and a refrigerant pressure in a refrigerant pipe; on the basis of the ambient temperature and a preset saturated pressure relationship, determining a saturated refrigerant pressure in the refrigerant pipe; on the basis of the refrigerant pressure and the saturated refrigerant pressure, determining a pipe state of the refrigerant pipe, wherein the pipe state comprises a sealed state and a leakage state; when the pipe state is the sealed state, controlling an air conditioning system to operate in a preset mode; and when the pipe state is the leakage state, determining an emergency mode of the air conditioning system on the basis of the refrigerant pressure, and controlling the air conditioning system to execute the emergency mode, wherein the emergency mode at least comprises a power-off mode and a refrigerant discharge mode. When a refrigerant pipe is in a leakage state, an air conditioning system is controlled to execute an emergency mode, such that an electric control component of the air conditioning system can be prevented from igniting leaked refrigerant, thereby improving the safety of the air conditioning system.

Classes IPC  ?

• F24F 11/36 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques aux fuites de fluides échangeurs de chaleur
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans

Abrégé

Provided in the present application are an air conditioning control system and method, and an air conditioner. The system comprises: a control unit, which is used for receiving an HBS communication signal from a superposed signal of the HBS communication signal and a direct-current power source signal, and sending a corresponding processing instruction; an action unit, which is used for receiving the processing instruction and driving a corresponding device on the basis of the processing instruction; and a power supply unit, which is used for receiving the direct-current power source signal, and when it is detected that there is no mains supply, providing the direct-current power source signal to the control unit and the action unit in order to supply power to the control unit and the action unit. According to the air conditioning control system and method, and the air conditioner provided in the present application, a power supply unit receives a direct-current power source signal in a superposed signal of an HBS communication signal and the direct-current power source signal, and the power supply unit can detect whether there is mains supply during actual application, and when detecting that there is no mains supply, the power supply unit can provide the direct-current power source signal to a control unit and an action unit of an air conditioner in order to supply power to the control unit and the action unit, thereby maintaining the normal and stable operation of the control unit and the action unit.

Classes IPC  ?

• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

A fault self-diagnosis method for an electric motor. The method comprises: acquiring an actual electric-motor temperature, wherein the actual electric-motor temperature comprises an actual bearing temperature and an actual winding temperature, the actual bearing temperature being obtained on the basis of a bearing temperature model, and the input power and operation efficiency of an electric motor, and the actual winding temperature being obtained on the basis of a winding resistance value; when the actual electric-motor temperature meets a temperature early-warning condition, determining an early-warning strategy for the electric motor; and adjusting the operation of the electric motor according to the early-warning strategy for the electric motor, so as to adjust the actual electric-motor temperature. By means of the method, real-time fault monitoring can be performed on an electric motor, thereby improving the reliability and safety of the operation of the electric motor.

Classes IPC  ?

• F24F 11/38 - Diagnostic des défaillances

Abrégé

The present application relates to the technical field of intelligent electric appliances, and provides a method and apparatus for controlling the rotating speed of a variable-frequency compressor of an air conditioner. The method comprises: acquiring a temperature control signal input by a temperature controller and used for representing the mode state of an air conditioner; determining a target mode state of the air conditioner on the basis of the temperature control signal and a preset signal combination mode conversion truth table, and determining a set temperature of the air conditioner in the target mode state, wherein the signal combination mode conversion truth table comprises multiple groups of correspondences between various signal combinations and various mode states of the air conditioner; and determining the rotating speed of a variable-frequency compressor on the basis of the target mode state and the set temperature, and on the basis of the rotating speed of the variable-frequency compressor, controlling the variable-frequency compressor to operate. The method for controlling the rotating speed of a variable-frequency compressor of an air conditioner provided by the present application can effectively improve the rotating speed control efficiency of the variable-frequency compressor, improving the operation flexibility and adjustment performance of the air conditioner, and improving user experience.

Classes IPC  ?

• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/00 - Aménagements de commande ou de sécurité

Abrégé

The present application relates to the technical field of air conditioners. Provided are a compressor winding iron loss heating method and system, and an air-conditioning device. The compressor winding iron loss heating method comprises: inputting a pulse signal into an inverter connected to a compressor, so as to control windings of any two phases among electric-motor windings of the compressor to be heated; collecting a direct-current bus voltage and an instantaneous current, and on the basis of the direct-current bus voltage and the instantaneous current, determining the actual heating power of the electric-motor windings; and performing pulse width modulation on the pulse signal on the basis of the difference between a given heating power and the actual heating power, such that the actual heating power tracks the given heating power. The compressor winding iron loss heating method abandons the way of obtaining heating data of a compressor by means of experiments, and realizes closed-loop control over the heating power of the compressor, thereby improving the stability of the heating power, without being affected by external factors such as the fluctuation of a direct-current bus voltage and differences in rotor positions.

Classes IPC  ?

• H02P 29/62 - Commande ou détermination de la température du moteur ou de l'entraînement pour augmenter la température du moteur
• H02P 1/02 - Dispositions de démarrage de moteurs électriques ou de convertisseurs dynamo-électriques Détails

Abrégé

The present application relates to the technical field of communications. Disclosed is a communication method for a multi-split system. The multi-split system comprises an outdoor unit, a relay device and a plurality of indoor units, wherein the relay device is in communication connection with one or more indoor units. The method comprises: an outdoor unit and a relay device determining a first indoor unit that has been configured with a fixed address, and assigning a temporary address to a second indoor unit that has not been configured with a fixed address; and the relay device assigning an official address to the second indoor unit on the basis of a communication level and the fixed address. In the present application, on the basis of a communication level, a relay device re-assigns a more suitable official address to a second indoor unit with which the relay device communicates, so as to ensure that a manually set fixed address can be avoided, thereby implementing address competition and automatic address assignment of the second indoor unit. The present application can avoid conflicts between manually set fixed addresses and automatically assigned official addresses, thereby helping to ensure the accurate execution of indoor unit control. Further disclosed in the present application are a communication apparatus for a multi-split system, and a multi-split system and a computer-readable storage medium.

Classes IPC  ?

• F24F 11/56 - Commande à distance
• H04L 61/5046 - Résolution des conflits d'allocation d'adressesTest des adresses

Abrégé

Provided is an air conditioner communication transmission system. The air conditioner communication transmission system comprises: a first device (100), a second device (200), and a metal waveguide tube assembly (300). The first device (100) comprises: a first heat exchange assembly (101), a first insulating tube assembly (102), a first control board (103), and a microwave transmitter (104). The second device (200) comprises: a second heat exchange assembly (201), a second insulating tube assembly (202), a second control board (203), and a microwave receiver (204). The first heat exchange assembly (101) is cyclically connected to the second heat exchange assembly (201) by means of the metal waveguide tube assembly (300), and the first insulating tube assembly (102) and the second insulating tube assembly (202) are communicated with the metal waveguide tube assembly (300). The first control board (103) is connected to the microwave transmitter (104), and the second control board (203) is connected to the microwave receiver (204). The first device (100) is an indoor unit, and the second device (200) is an outdoor unit; or the first device (100) is an outdoor unit, and the second device (200) is an indoor unit.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 1/32 - Conduites réfrigérantes pour relier les éléments extérieurs séparés aux éléments intérieurs

Abrégé

The present application relates to the technical field of air conditioners. Provided are a transmission pipe assembly for an air conditioning system, and an air conditioning system. The transmission pipe assembly for an air conditioning system comprises a transmission pipe, a first electrically conductive component and a second electrically conductive component, wherein the first electrically conductive component and the second electrically conductive component have opposite electrically-conductive polarities, and are used for transmitting power source signals and carrier communication signals; and the first electrically conductive component and the second electrically conductive component are arranged in the transmission pipe side by side and spaced apart from each other in the axial direction of the transmission pipe, so as to obtain a first cavity, a second cavity and an insulating cavity by means of division, the first cavity being configured to transmit a gaseous refrigerant, the second cavity being configured to transmit a liquid refrigerant, and the insulating cavity being located between the first cavity and the second cavity The present application can implement simultaneous transmission of the refrigerants, power source signals and communication signals, and has multiple transmission functions, thus effectively reducing the number of pipes of the air conditioning system, simplifying the system structure, reducing costs, and facilitating the implementation of mounting.

Classes IPC  ?

• F24F 11/32 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques
• F24F 1/32 - Conduites réfrigérantes pour relier les éléments extérieurs séparés aux éléments intérieurs
• H02G 3/04 - Tubes ou conduits de protection, p. ex. échelles à câbles ou goulottes de câblage

Abrégé

A sterilization device for an air conditioner and an air conditioner. The sterilization device comprises a housing 1, a sterilization light-emitting member 2, a trigger light-emitting member 3 and a catalyst member 4, wherein the sterilization light-emitting member 2 is arranged on an outer side of the housing 1, the trigger light-emitting member 3 and the catalyst member 4 are arranged inside the housing 1, and the trigger light-emitting member 3 emits light in the direction of the catalyst member 4. On the basis of such a structural arrangement, the sterilization device directly irradiates air by means of the sterilization light-emitting member 2 so as to directly achieve sterilization effects; and the sterilization device also irradiates the catalyst member 4 by means of the trigger light-emitting member 3 to excite the catalyst member 4, such that the catalyst member 4 generates a relatively strong redox function, and the air purification effect of the sterilization device is further enhanced.

Classes IPC  ?

• F24F 8/22 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par stérilisation utilisant de la lumière ultraviolette
• F24F 13/00 - Détails communs ou relatifs au conditionnement de l'air, à l'humidification de l'air, à la ventilation ou à l'utilisation de courants d'air comme écrans
• F24F 8/167 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par séparation, p. ex. par filtrage par des moyens chimiques utilisant des réactions catalytiques

Abrégé

The present application relates to the technical field of smart home appliances, and discloses an air conditioner. The air conditioner comprises: an outdoor heat exchanger, an indoor heat exchanger, a throttling apparatus, and a first refrigerant pipe section communicating the indoor heat exchanger and the throttling apparatus. The air conditioner further comprises: circulating piping, in which a flowable heat exchange medium is provided. The circulating piping comprises: a first heat exchange pipe section for heat exchange with the first refrigerant pipe section, and a second heat exchange pipe section for heat exchange with the outdoor heat exchanger; and a water pump, disposed in the circulating piping, the water pump driving the heat exchange medium to circulate in the circulating piping when the water pump operates, wherein when the air conditioner operates to produce heat, the heat exchange medium heats up after passing through the first heat exchange pipe section and heats the outdoor heat exchanger when passing through the second heat exchange pipe section. In a heat producing process of the air conditioner, the circulating piping exchanges heat with a high-temperature refrigerant indoors to collect heat, and exchanges heat with the outdoor heat exchanger outdoors, so that the temperature of the outdoor heat exchanger is increased and the possibility of air conditioning frosting is reduced.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/42 - DégivragePrévention du gel des éléments extérieurs
• F24F 13/30 - Agencement ou montage d'échangeurs de chaleur
• F25B 47/02 - Cycles de dégivrage
• F24F 11/41 - DégivragePrévention du gel

Abrégé

The present application relates to the technical field of air conditioners. Disclosed are a current-based air conditioner regulating method and apparatus, a device, a medium and an air conditioner. The method comprises: acquiring a current signal value input by means of a preset control platform; comparing the current signal value with a preset current signal threshold value to obtain a current value comparison result; on the basis of the current value comparison result, generating a regulation instruction for air conditioner components corresponding to the current value comparison result; and, on the basis of the regulation instruction, regulating component parameters of the air conditioner components. The embodiments provided in the present application achieve controlling air conditioner components on the basis of current demands input by users, so as to control the current of air conditioners below the demand currents, thus satisfying the demand of users for the current magnitude.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

The present application relates to the technical field of intelligent household appliances, and specifically to an intelligent noise reduction control method and apparatus, a device, and a computer storage medium. The method comprises: obtaining a first noise value and the current operating frequency of an outdoor unit of an intelligent household appliance; and determining the current operating band of the intelligent household appliance on the basis of the current operating frequency, and obtaining different noise upper limits; on the basis of the first noise value and the corresponding noise upper limit, determining whether the outdoor unit is in a noisy state; when the outdoor unit is in the noisy state, performing frequency reduction processing and frequency rising processing on the current operating frequency of the outdoor unit on the basis of a first preset rate; and determining a target operating frequency on the basis of the processing result, and controlling the outdoor unit to operate at the target operating frequency. By means of the method, intelligent noise reduction processing of the intelligent household appliance is achieved, the operating efficiency of the intelligent household appliance is improved, and noise reduction is implemented on the basis of the operating band for different operating environments, providing a sound environment for users, and improving user experience.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 13/24 - Moyens pour éviter ou supprimer le bruit
• F24F 130/40 - Bruit

Abrégé

A volute and a vehicle-mounted air conditioner. The volute comprises a bottom plate (10) and a drainage portion (20). The drainage portion is disposed at the bottom plate. The drainage portion is provided with a water inlet (20a) and a water outlet (20b), which are in communication with each other. The drainage portion comprises a first water storage bent main body (201) and a second water storage bent main body (202), the first water storage bent main body being located at the bottom of the drainage portion, and the second water storage bent main body being located at the top of the drainage portion. One end of the first water storage bent main body is connected to the bottom plate, and the first water storage bent main body is provided with a water storage space; one end of the second water storage bent main body is connected to the bottom plate, and the other end of the second water storage bent main body extends below the highest liquid level of the water storage space. Said configuration forms a water seal structure inside the drainage portion, which can prevent external hot air from entering the interior of the volute by means of the drainage portion, solving the technical problem of external air entering the interior of a volute by means of a water outlet when condensed water is discharged from the interior of the volute to the outside of the volute by means of the water outlet.

Classes IPC  ?

• F04D 29/42 - Carters d'enveloppeTubulures pour le fluide énergétique pour pompes radiales ou hélicocentrifuges

Abrégé

The present application relates to the technical field of compressors, and discloses a processing method for a motor stator. The method comprises: taking the center point of a stator as an origin to establish a coordinate system, and on the basis of the inner diameter of the stator when tooth shoes are of a symmetrical arc structure, determining the radius of a second auxiliary circle, wherein the center of the second auxiliary circle is the center point of the stator; determining the center of a first auxiliary circle on the basis of parameters of a motor and the second auxiliary circle; on the basis of a length range between each point on arc sections of the tooth shoes when the tooth shoes are of a symmetrical arc structure and the center of the first auxiliary circle, determining the radius of the first auxiliary circle; and determining, on the arc sections of the tooth shoes when the tooth shoes are of a symmetrical arc structure, a starting point of an arc structure which is not symmetrical about the center line of the stator, and taking arc sections of the first auxiliary circle from the starting point to intersections with stator teeth as arc sections of the tooth shoes which are not symmetrical about the center line of the stator. The method can improve the processing precision of tooth shoe structures, thereby reducing the operation noise of motors. The present application further discloses a processing apparatus for motor stator punching and a motor.

Classes IPC  ?

• H02K 1/12 - Parties fixes du circuit magnétique
• H02K 15/02 - Procédés ou appareils spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation des machines dynamo-électriques des corps statoriques ou rotoriques

Abrégé

An air return pipe (1) for an air conditioner, and an air conditioner, aiming to solve the problem in the prior art that because most recreational vehicle air conditioner pipes, especially air return pipes, are designed as copper pipes, there is a risk of pipe breakage due to long-time pipe vibration during the driving and parking of recreational vehicles. To achieve this objective, the air return pipe (1) is configured to comprise a first straight line section (101), a first bent section (102), and a communication section, the first straight line section (101) being connected to an air return interface of a liquid storage tank (3), and the included angle between the center line of the top-view projection of the first bent section (102) and the center line of an exhaust interface of a compressor (2) being less than 90°. The included angle between the center line of the top-view projection of the first bent section (102) and the center line of an exhaust interface pipe (4) of the compressor (2) is designed to be less than 90°, so that the transmission of mechanical vibration generated by the compressor (2) to the air return pipe (1) can be reduced, preventing the air return pipe (1) from resonating in the working frequency range of the compressor (2), thereby reducing the risk of breakage of the air return pipe (1) and a welding position.

Classes IPC  ?

• F25B 41/00 - Circulation du fluide
• F25B 43/00 - Dispositions pour la séparation ou la purification des gaz ou des liquidesDispositions pour la vaporisation des résidus de fluides frigorigènes, p. ex. par la chaleur
• F04B 39/12 - Carcasses d'enveloppeCylindresCulassesConnexions des tubulures pour fluide
• B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
• F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p. ex. caractéristiques de structure de l'admission ou de l'échappement

Abrégé

Provided in the present application are an air conditioner energy-saving mode automatic control method and apparatus, and an electronic device. The method comprises: on the basis of a reception condition of a transmitted signal received by a receiving module, determining whether a target power grid supplies power normally, wherein the receiving module has the capability of receiving the transmitted signal, and when the target power grid normally supplies power to a transmitting module, the transmitting module has the capability of transmitting the transmitted signal; and when the target power grid does not supply power normally, controlling an air conditioner to automatically enter an energy-saving mode. On the basis of the reception condition of the transmitted signal received by the receiving module, the present application achieves automatic control of energy-saving mode operation of the air conditioner at low cost, thereby improving user experience and satisfaction during use while ensuring normal operation of other electrical appliances.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

An air conditioner operation mode control method and apparatus, an electronic device, and a storage medium. The method comprises: when a signal receiving module receives a mains power brownout notification, controlling the signal receiving module to issue, on the basis of an existing signal transmission channel between an outdoor unit and an indoor unit of an air conditioner, an energy-saving instruction to the indoor unit, wherein the signal receiving module is powered by the outdoor unit, the mains power brownout notification is sent by a signal sending module, and the signal sending module is powered by the mains power; and when the indoor unit receives the energy-saving instruction, performing automatic adjustment to cause the air conditioner to operate according to an energy-saving mode. The signal receiving module multiplexes the signal transmission channel to issue the energy-saving instruction to the indoor unit of the air conditioner, and on the basis of the energy-saving instruction, the air conditioner is controlled to operate according to the energy-saving mode, such that operation of the air conditioner can be automatically controlled at low costs, thereby improving the experience and satisfaction of a user when using the air conditioner.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/56 - Commande à distance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement

Abrégé

The present application relates to the technical field of smart air conditioners. Provided are an operating-mode control method and apparatus for an air conditioner. The operating-mode control method for an air conditioner comprises: when it is detected that a power supply of an air conditioner is switched from a mains supply to a non-mains supply, collecting a power signal from the non-mains supply on the basis of a signal transmission module which is connected to a power supply line of the non-mains supply; and acquiring the collected power signal on the basis of a signal receiving module which is connected to a signal terminal of an outdoor unit of the air conditioner, and then controlling the air conditioner to enter a corresponding operating mode, wherein a signal transmission line of the signal transmission module is connected to the signal terminal of the outdoor unit of the air conditioner, and signal transmission is performed between the signal terminal of the outdoor unit and an indoor unit of the air conditioner by means of an original power line. In the method provided in the present application, by means of establishing a connection with an outdoor unit and transmitting signals by means of an original power line, the cost of lines can be effectively reduced, the deployment efficiency of a signal transmission module can be effectively improved, and the operation stability of an air conditioner is improved.

Classes IPC  ?

• H02J 9/04 - Circuits pour alimentation de puissance de secours ou de réserve, p. ex. pour éclairage de secours dans lesquels le système de distribution est déconnecté de la source normale et connecté à une source de réserve
• H02J 9/06 - Circuits pour alimentation de puissance de secours ou de réserve, p. ex. pour éclairage de secours dans lesquels le système de distribution est déconnecté de la source normale et connecté à une source de réserve avec commutation automatique
• H02J 9/00 - Circuits pour alimentation de puissance de secours ou de réserve, p. ex. pour éclairage de secours
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique

Abrégé

Provided in the present application are a method and apparatus for controlling an operation mode of an air conditioner on the basis of a load, and an electronic device. The method comprises: when a mains power grid does not supply power normally, controlling an air conditioner to operate according to the lowest operation power gear of an energy-saving mode; when the air conditioner operates according to the lowest operation power gear, monitoring in real time the total power supply current in a unit space and the total load current of additional power-consuming electric appliances in the unit space, wherein the additional power-consuming electric appliances are electric appliances in the unit space other than the air conditioner; and on the basis of the total power supply current and the total load current, determining a target operation power gear of the air conditioner in the energy-saving mode, and controlling the air conditioner to operate according to the target operation power gear. While it is ensured that an air conditioner does not shut down due to a current limitation, on the basis of an electric load in a unit space, a target operation power gear of an air conditioner in an energy-saving mode is adjusted on a personalized basis, thereby improving the experience and feelings and the satisfaction degree of a user during the using process.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 110/10 - Température
• F24F 110/20 - Humidité

Abrégé

The present application relates to the technical field of intelligent air conditioners, and provides an air conditioner operation mode control method and apparatus based on power supply switching. The air conditioner operation mode control method based on power supply switching comprises: collecting a power supply signal of a non-mains supply on the basis of a signal transmitting module, modulating the power supply signal to obtain a target modulated signal to be transmitted, and sending the target modulated signal to a signal receiving module, wherein the non-mains supply is used for providing electric energy for an air conditioner; acquiring the target modulated signal on the basis of the signal receiving module, and demodulating the target modulated signal to obtain an original power supply signal; and on the basis of the original power supply signal, triggering to enter an energy-saving working mode, wherein the signal receiving module is connected to an indoor unit of the air conditioner by means of a signal transmission line. The method provided by the present application can ensure the operation stability of the air conditioner during power supply switching, effectively reducing electric energy consumption, improving user experience.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

A control method and control apparatus for an air conditioner having a variable-capacity compressor, an air conditioner having a variable-capacity compressor and a storage medium. An exhaust port of a variable-capacity compressor (10) is connected to a variable-capacity chamber (16) of the variable-capacity compressor (10) by means of an exhaust pipe, and the exhaust pipe is provided with an electric heating apparatus (70). The control method comprises: when the air conditioner having a variable-capacity compressor executes a heating mode, acquiring an exhaust gas temperature, an exhaust gas pressure and a saturated-steam temperature corresponding to the exhaust gas pressure of the variable-capacity compressor (10); and when a difference value between the exhaust gas temperature and the saturated-steam temperature is smaller than a first temperature, controlling the electric heating apparatus (70) to start, thus avoiding liquid accumulation of the variable-capacity chamber (16), and eliminating the noise generated by impact caused by accumulated liquid.

Classes IPC  ?

• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression

Abrégé

The present invention relates to the technical field of air conditioner self-cleaning, and in particular to a control method for an air conditioning system and the air conditioning system, intended to solve the problem that it is difficult for an existing air conditioning system to classify a filth blockage of a heat exchanger so as to carry out self-cleaning. In order to achieve the objective, the control method for the air conditioning system of the present invention comprises: acquiring a pressure difference of air pressure on two sides of a heat exchanger; determining, on the basis of the pressure difference, a filth blockage degree of the heat exchanger; and determining, on the basis of the filth blockage degree of the heat exchanger, a self-cleaning mode. The self-cleaning mode is determined on the basis of the filth blockage degree of the heat exchanger, and self-cleaning is conducted in an energy-saving mode when the filth blockage degree of the heat exchanger is low, which is able to save cleaning time and reduce cleaning energy consumption, and is also able to prevent stains of the heat exchanger from being accumulated for a long time. When the filth blockage degree is serious, self-cleaning is conducted in a self-cleaning effect, enabling a good cleaning effect to be achieved.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/49 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance en assurant un fonctionnement correct, p. ex. par des essais ou par des contrôles de la configuration
• F24F 11/42 - DégivragePrévention du gel des éléments extérieurs
• F24F 11/43 - DégivragePrévention du gel des éléments intérieurs
• F28G 9/00 - Nettoyage par lessivage ou par lavage, p. ex. avec des solvants chimiques
• F28G 13/00 - Accessoires ou procédés non couverts par les groupes Combinaisons d'accessoires ou de procédés couverts par les groupes
• F24F 11/61 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant des minuteurs
• F24F 110/40 - Pression, p. ex. pression du vent

Abrégé

The present application relates to the technical field of intelligent air conditioners, and discloses a method and an apparatus for controlling a multi-split air conditioner, an air conditioner, and a storage medium. The method comprises: determining, on the basis of a current indoor temperature and humidity corresponding to each first indoor unit in a cooling operation state, a cooling load corresponding to each first indoor unit, and obtaining a total cooling load; determining, on the basis of a current indoor temperature corresponding to each second indoor unit in a heating operation state and an outdoor humidity correction value, a heating load corresponding to each second indoor unit, and obtaining a total heating load; and obtaining a cooling and heating load ratio on the basis of the total cooling load and the total heating load, and controlling an outdoor unit of the air conditioner to operate on the basis of the cooling and heating load ratio. In this way, the intelligence and adaptability of the multi-split air conditioner are improved, and the user experience is also improved.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/88 - Aspects électriques, p. ex. circuits

Abrégé

A method for calculating a transmission ratio of a driving mechanism, and an air conditioner and a driving mechanism. The driving mechanism comprises a driving gear and a driven member engaged with the driving gear, wherein the driving gear is a non-circular gear; and when a transmission ratio of the driving gear to the driven member is a non-constant value, there is a preset function relationship between the transmission ratio and a rotation angle of the driving gear. The function comprises a monotonically increasing interval and/or a monotonically decreasing interval, an absolute value of a derivative at the maximum value and/or the minimum value of the monotonically increasing interval is less than a preset value, and an absolute value of a derivative at the maximum value and/or the minimum value of the monotonically decreasing interval is less than the preset value.

Classes IPC  ?

• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes

Abrégé

The present application relates to the technical field of air conditioners. Disclosed are a driving mechanism for an air conditioner deflector, and an air conditioner. The driving mechanism comprises: a first connecting rod, which is provided with a first recess, first gear teeth being provided at the first recess; a second connecting rod, which is provided with a first protrusion, second gear teeth being provided at the first protrusion; a first gear, which meshes with the first gear teeth to drive the first connecting rod to move in a telescopic motion in a direction of length of an air duct; and a second gear, which meshes with the second gear teeth to drive the second connecting rod to move in a telescopic motion in the direction of length of the air duct, wherein when the deflector is in a closed position, the first recess corresponds to the first protrusion, such that when the first gear meshes with the first recess, and the second gear meshes with the first protrusion, the first connecting rod and the second connecting rod can move at different speeds, thereby enabling the movement of the deflector. By means of configuring the shapes of the first connecting rod and the second connecting rod, the deflector has multiple air deflection positions, thereby achieving a simple structure and high reliability.

Classes IPC  ?

• F24F 1/0011 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par les sorties d’air
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 13/20 - Enveloppes ou couvercles

Abrégé

Provided in the present application are a constant-air-volume operation method and apparatus for an indoor fan, and an air conditioner and a storage medium. The method comprises: acquiring an air-duct static pressure and a target air volume, wherein the air-duct static pressure is a static pressure acquired on the basis of an operation rotation speed and an operation power; acquiring a target rotation speed on the basis of the air-duct static pressure and the target air volume; and adjusting the operation rotation speed to the target rotation speed. In this way, a corresponding air-duct static pressure can be acquired on the basis of an operation rotation speed and an operation power without the need for manually setting the static pressure by a debugging personnel, that is, air-duct static pressures can be automatically matched according to different air duct lengths, thereby saving on manpower, saving on time and being able to avoid an error caused by manual adjustment. Furthermore, the problem of the air output effect of an indoor fan being poor due to an improper design or installation error of an air duct of the indoor fan can be avoided, and when a target air volume is unchanged, it can be ensured that the indoor fan operates in a constant air volume mode, thereby ensuring the air output effect of the indoor fan, and improving the usage experience of a user.

Classes IPC  ?

• F24F 11/74 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air
• F24F 7/06 - Ventilation avec réseau de gaines à circulation d'air forcée, p. ex. par un ventilateur

Abrégé

Provided in the present application are a hybrid control circuit and a control method. The circuit comprises: battery connection ends, grid connection ends, load connection ends, an inductor, a change-over switch and power switches, the inductor and the change-over switch being arranged between the battery connection ends and the load connection ends, and between the grid connection ends and the load connection ends, and the power switches being respectively arranged between the battery connection ends and the inductor, between the battery connection ends and the grid connection ends, and between the change-over switch and the load connection ends. In cases where information to be processed indicates that the circuit involves alternating current, each power switch is controlled to be turned on and off on the basis of the timing of the alternating current, so as to implement mains power supply, mains power charging or grid connection.

Classes IPC  ?

• H02J 3/38 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs

Abrégé

A method for controlling an air conditioner. An air conditioner comprises: a main refrigerant circulation loop, which comprises a compressor (1), an outdoor heat exchanger (2), a three-way valve (3), a throttling device (4), a liquid separation device (5) and a first indoor heat exchanger (6) which are connected in sequence by means of a pipe; a temperature compensation branch, which comprises a second indoor heat exchanger (7), wherein an inlet of the second indoor heat exchanger (7) is connected to the three-way valve (3), and an outlet thereof is connected to the liquid separation device (5); and an indoor fan (8), wherein the first indoor heat exchanger (6) and the second indoor heat exchanger (7) are both arranged on one side of the indoor fan (8). The three-way valve (3) can be controlled to make both the second indoor heat exchanger (7) and the throttling device (4) be in communication with the outdoor heat exchanger (2) or make the throttling device (4) be in communication with the outdoor heat exchanger (2). The method comprises: according to an indoor ambient temperature and indoor ambient humidity, controlling a three-way valve (3) to make an outdoor heat exchanger (2) be in communication with a first indoor heat exchanger (6) and a second indoor heat exchanger (7); and according to the indoor ambient temperature and the indoor ambient humidity, controlling the correction frequency of a compressor (1). Constant-temperature dehumidification is realized more stably, thus improving the comfort of a user.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 110/10 - Température
• F25B 41/30 - Moyens de détenteLeurs dispositions
• F25B 41/20 - Disposition des soupapes, p. ex. de soupapes marche-arrêt ou de soupapes de régulation de débit

Abrégé

An air conditioner, comprising: a refrigerant circulation main loop, comprising a compressor (1), an outdoor heat exchanger (2), a three-way valve (3), a throttling device (4), a liquid separation device (5) and a first indoor heat exchanger (6) which are successively connected by means of pipelines; a temperature compensation branch, comprising a second indoor heat exchanger (7), wherein an inlet of the second indoor heat exchanger (7) is connected to the three-way valve (3), and an outlet is connected to the liquid separation device (5); and an indoor fan (8), wherein the first indoor heat exchanger (6) and the second indoor heat exchanger (7) are both provided on one side of the indoor fan (8); and the three-way valve (3) being able to be controlled to enable the second indoor heat exchanger (7) and the throttling device (4) to be respectively communicated with the outdoor heat exchanger (2) so as to heat indoor air, or to enable the throttling device (4) to be communicated with the outdoor heat exchanger (2) so as to realize a normal refrigeration or heating function. Further disclosed is a method for controlling an air conditioner, comprising: in a dehumidification mode, determining whether a comfortable dehumidification condition is met; and when the comfortable dehumidification condition is met, controlling a three-way valve (3) to enable an outdoor heat exchanger (2) to be communicated with a first indoor heat exchanger (6) and a second indoor heat exchanger (7) so as to heat indoor air.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F25B 41/40 - Agencements de conduites de fluide
• F25B 41/20 - Disposition des soupapes, p. ex. de soupapes marche-arrêt ou de soupapes de régulation de débit

Abrégé

The present application relates to the technical field of air conditioning. Disclosed are a control method and control apparatus for an air conditioner, and an air conditioner and a storage medium. The control method comprises: acquiring the difference between an indoor ambient temperature and a set temperature; determining a target position of an air-uniformizing arm according to the difference between the indoor ambient temperature and the set temperature, wherein the target position may be an air uniformizing position or a non-air uniformizing position, and at the air uniformizing position, an air inducing channel is formed between the air-uniformizing arm and a heat exchange main body, and indoor air flows to a heat exchange air outlet of the heat exchange main body through the air inducing channel, so as to be mixed with heat exchange air flowing out of the heat exchange air outlet; and controlling a driving apparatus to drive the air-uniformizing arm to move to the target position. When there is a difference between the indoor ambient temperature and the set temperature, the air-uniformizing arm has different target positions, that is, the air-uniformizing arm is either located at the air uniformizing position or the non-air uniformizing position, such that the air-uniformizing arm can function differently and thus has different effects on the heat exchange air flowing out of the heat exchange air outlet of the heat exchange main body, and therefore the air supply comfort of the air conditioner can be improved.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 1/0007 - Éléments intérieurs, p. ex. ventilo-convecteurs
• F24F 1/0018 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des ventilateurs
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes

Abrégé

An air conditioner and a self-cleaning structure for an air conditioner filter screen (104). A filter screen mounting frame (10) is configured to have a first reel mounting space (11) and a second reel mounting space (12), wherein a first reel (20) of a rotary reel group is rotatably arranged in the first reel mounting space (11), and a second reel (30) of the rotary reel group is rotatably arranged in the second reel mounting space (12); a filter screen (104) is arranged on the surfaces of a keel frame (13) and a support plate (14) of the filter screen mounting frame (10), a first side edge of the filter screen being detachably connected to the first reel (20), and a second side edge of the filter screen being detachably connected to the second reel (30); and a dust collection device (40) is arranged on one side of the support plate (14), and is provided with a brush assembly (42) abutting against the filter screen (104) on a first support surface (141) of the support plate (14). In this way, when the filter screen (104) is cleaned, the filter screen (104) can be effectively prevented from deforming; and the filter screen (104) can move more smoothly, and can also be cleaned more thoroughly.

Classes IPC  ?

• F24F 8/90 - Nettoyage des appareils de purification

Abrégé

A control method and apparatus for an air conditioner, and an air conditioner and a storage medium, which relate to the technical field of air conditioners. The control method comprises: acquiring a rotation speed of an electric motor and a change trend in the rotation speed of the electric motor; determining a fluctuation range of a carrier frequency according to the rotation speed of the electric motor and the change trend in the rotation speed of the electric motor; and controlling a frequency converter to randomly take a value within the fluctuation range, and periodically adjusting the carrier frequency. A carrier frequency of a frequency converter can be prevented from running in a fixed manner, and the carrier frequency is caused to randomly fluctuate within a rational range, such that both the suppression of the noise of an air conditioner and the suppression of the loss of the frequency converter can be taken into consideration, and the phenomenon of the resonance of an electric motor and the frequency converter can be avoided.

Classes IPC  ?

• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression

Abrégé

A leakage control method and control apparatus for a combustible refrigerant, and an air conditioner. The leakage control method for a combustible refrigerant comprises: receiving a startup instruction for controlling an air conditioner to start up, and acquiring an indoor ambient temperature and an outdoor ambient temperature, and an actual saturation temperature corresponding to at least one of a low pressure and a high pressure of a compressor (1); determining a standard saturation temperature according to the indoor ambient temperature and the outdoor ambient temperature; and generating execution logic according to the actual saturation temperature and the standard saturation temperature, and controlling the operation of the compressor (1) according to the execution logic.

Classes IPC  ?

• F24F 11/36 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques aux fuites de fluides échangeurs de chaleur
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/49 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance en assurant un fonctionnement correct, p. ex. par des essais ou par des contrôles de la configuration

Abrégé

The present application relates to the technical field of smart home appliances, and discloses a photovoltaic air conditioner control method. The photovoltaic air conditioner comprises a main control circuit and a drive circuit. The main control circuit comprises a four-way valve coil, the main control circuit being connected to the drive circuit by means of the four-way valve coil, so as to control the drive circuit to output a PWM signal. The control method comprises: when a photovoltaic air conditioner is run offline, determining a heating requirement of the photovoltaic air conditioner; when the photovoltaic air conditioner has a heating requirement, controlling a main control circuit, so as to cause the four-way valve coil to be powered; collecting a current value of the four-way valve coil; adjusting a duty cycle of the PWM signal outputted by the drive circuit according to the current value of the four-way valve coil. The present control method can improve the stability of a four-way valve operating under an alternating current specification, when the photovoltaic air conditioner operates independently offline. The present application also discloses a control apparatus for use in a photovoltaic air conditioner, and a photovoltaic air conditioner.

Classes IPC  ?

• F24F 11/88 - Aspects électriques, p. ex. circuits
• F25B 49/00 - Disposition ou montage des dispositifs de commande ou de sécurité
• F25B 13/00 - Machines, installations ou systèmes à compression, à cycle réversible

Abrégé

A power saving control method and control device for an air conditioner. In the method, after the air conditioner enters a power saving mode, an environmental temperature of an environment where the air conditioner is located is acquired first, and a temperature difference between the environmental temperature and a target temperature is calculated; then a working duration of the air conditioner is acquired, and finally the decrease percentage of the frequency of a compressor is determined according to a heat exchange mode, the working duration and the temperature difference of the air conditioner, and the frequency of the compressor is decreased according to the decrease percentage, so that frequent starting and shutdown of the compressor are avoided, consumption of the air conditioner is reduced, and power saving operation of the air conditioner is achieved.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/00 - Aménagements de commande ou de sécurité

Abrégé

A water-based multi-split system, an end device (130), a computing device (120) and a control device (110). The water-based multi-split system comprises: a plurality of end devices (130), which are used for distributing cold which is generated by a water system, and generating actual cold according to a collected cold parameter; a plurality of computing devices (120), each of the computing devices (120) being connected to one or more end devices (130), and being used for computing predicted cold according to the actual cold, which is generated by the one or more end devices (130), and generating an adjustment instruction for controlling the operation of the end devices (130); and a control device (110), which is respectively connected to the plurality of computing devices (120), and is used for generating, according to the predicted cold which is computed by the plurality of computing devices (120), a control instruction for adjusting the cooling capacity of the water system. In this way, a large quantity of pieces of cold data are dispersed to a plurality of computing devices (120) for computing, thereby shortening the data computing time; and control permissions are also dispersed to the computing devices (120), thereby realizing a quick response.

Classes IPC  ?

• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs

Abrégé

The present application relates to the technical field of air conditioners. Disclosed are a method for controlling a multi-split air conditioner, an apparatus, and a multi-split air conditioner. The method comprises: determining a single-unit load of each indoor unit according to a temperature difference between an actual temperature and a set temperature; then further determining a total unit load of all the indoor units; and controlling the operation of an outdoor unit on the basis of the total unit load. The temperature difference of each indoor unit can accurately reflect the current state of the indoor unit, so that the single-unit load calculated on the basis of the temperature difference is more accurate. Compared with the mode of controlling an outdoor unit simply depending on a preset target pressure, the method provided by the embodiments of the present application can effectively improve the control accuracy for outdoor units.

Classes IPC  ?

• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/84 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant l’apport en fluides échangeurs de chaleur aux échangeurs de chaleur au moyen de valves
• F24F 11/80 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni
• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité

Abrégé

The present application relates to the technical field of network configurations. Disclosed is a method for network configuration, which method is applied to smart household appliances. The method comprises: transmitting a first wireless signal; receiving a second wireless signal corresponding to the first wireless signal; determining a personnel situation in a preset region according to the second wireless signal, wherein the personnel situation represents that there is a person or no person in the preset region; when the personnel situation is that there is a person in the preset region, sending network configuration information to a terminal device, so as to trigger the terminal device to perform network configuration with a smart household appliance by using the network configuration information. This method, compared with a network configuration method using a local area network address of a smart household appliance, can implement network configuration only with the need for a user to enter a preset region of a smart household appliance, without needing to learn about a local area network address of the smart household appliance, such that the network can be configured more conveniently. Further disclosed in the present application are a system and apparatus for network configuration.

Classes IPC  ?

• H04L 67/12 - Protocoles spécialement adaptés aux environnements propriétaires ou de mise en réseau pour un usage spécial, p. ex. les réseaux médicaux, les réseaux de capteurs, les réseaux dans les véhicules ou les réseaux de mesure à distance

Abrégé

Provided are a photovoltaic air conditioner, and a control method and control device therefor. The control method comprises: acquiring the current real-time output power of a photovoltaic module in a photovoltaic air conditioner and the current real-time operating power of the photovoltaic air conditioner (S11); when the current real-time output power is less than the current real-time operating power, executing a first control mode (S12); acquiring the current number of frequency reductions for operating, and when the current number of frequency reductions for operating is less than a preset threshold, acquiring the current real-time frequency of a compressor, reducing the current real-time frequency, and acquiring the current actual operating frequency (S13); according to the correspondence between the actual operating frequency and an intermittent operating mode, determining a current intermittent operating mode corresponding to the current actual operating frequency (S14); and controlling the operation of the photovoltaic air conditioner according to the current actual operating frequency and the current intermittent operating mode (S15). The technical problems in the prior art of the poor reliability of a compressor and the large system noise which are easily caused by long-term low-frequency operation of the compressor are solved.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/32 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques

Abrégé

The present invention relates to the technical field of air fragrance conditioning, and specifically provides a control method for an air fragrance conditioner, and an air fragrance conditioner, aiming at solving the problem of physical discomfort caused by pungent fragrance smelt by a user when returning indoors because existing air fragrance conditioners can only release fragrance but cannot adsorb the fragrance. The control method of the present invention comprises: after a fragrance releasing agent adjustment member and a fan are started, acquiring an actual indoor fragrance concentration; determining whether there is a person indoors; and when a determination result indicates that there is no person indoors and the duration of an empty state reaches a preset time, selectively controlling the operation of the fragrance releasing agent adjustment member and/or the fan, so as to reduce the actual indoor fragrance concentration to a preset fragrance concentration. In this way, when a person enters the room again, the person will not feel that the fragrance is pungent due to the fragrance concentration difference between indoors and outdoors, thereby avoiding the physical discomfort.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 8/50 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par odorisation
• F24F 120/10 - Occupation

Abrégé

Disclosed in the present invention are a photovoltaic air conditioner, an oil return control method therefor and a control apparatus, for achieving the technical objective of improving the oil return control reliability of photovoltaic air conditioners. The control method comprises: acquiring a current real-time output power of a photovoltaic module in a photovoltaic air conditioner and a current real-time operation power of the photovoltaic air conditioner; when the current real-time output power is smaller than the current real-time operation power, executing the following first control mode: acquiring a current real-time frequency of a compressor of the photovoltaic air conditioner, reducing the current real-time frequency, and acquiring a current actual operation frequency; determining a current intermittent operation mode corresponding to the current actual operation frequency; and when the current actual operation frequency is smaller than an oil return frequency threshold, and an interval time from a previous oil return reaches an interval time threshold, executing an oil return operation process, and controlling the compressor to operate at a set oil return frequency, the interval time threshold being determined according to a continuous operation time in m consecutive intermittent operation modes.

Classes IPC  ?

• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/61 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant des minuteurs
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans
• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F25B 31/00 - Aménagements des compresseurs
• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression

Abrégé

A method for controlling an air conditioner (70), comprising: acquiring a first detection parameter of a first sensor; determining a damage state of the first sensor according to the first detection parameter; when the damage state is that the first sensor is damaged, determining an alternative operation parameter as the first detection parameter corresponding to the first sensor, to control the air conditioner (70) to operate, and acquiring a second detection parameter corresponding to a second sensor; and according to the second detection parameter, triggering the air conditioner (70) to stop operation. In this way, the alternative operation parameter is determined as the first detection parameter, such that the air conditioner (70) continues to operate normally, and the use time of the air conditioner (70) when a user waits for the maintenance of the air conditioner (70) can be prolonged. Additionally, according to the second detection parameter, the air conditioner (70) is triggered to stop operation, such that operation of the air conditioner (70) can be stopped in time, thereby protecting other components of the air conditioner (70) from being damaged. Therefore, economic loss of a user is reduced while prolonging the operation duration of the air conditioner (70). Further disclosed are a device (1) for controlling an air conditioner (70), and the air conditioner (70) and a storage medium.

Classes IPC  ?

• F24F 11/38 - Diagnostic des défaillances
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 110/10 - Température

Abrégé

Provided in the present application are an air duct type air conditioner control method and apparatus, and an air duct type air conditioner. The method comprises: receiving an area temperature and an area humidity transmitted by an air box in each area to be conditioned; and on the basis of the area temperatures and the area humidities, controlling a compressor operating frequency and/or air valves corresponding to the plurality of areas to be conditioned. The present method collects, by means of using air boxes arranged in a plurality of areas to be conditioned, accurate temperatures and humidities of said areas; and on the basis of the collected area temperatures and area humidities, controls the compressor operating frequency and air valves, so as to accurately regulate the temperatures and humidities of said areas, overcoming the defects that existing air duct type air conditioners cannot accurately control the temperatures of a plurality of areas and do not perform humidity control, and achieving accurate control over the temperature and humidity of a plurality of areas, thus effectively improving user experience.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/58 - Commande à distance par internet
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable

Abrégé

An air conditioner (2) and a control method therefor, which aim to solve, to a certain extent, the problem of when an existing air conditioner (2) starts a compressor (24) after recycling a refrigerant into an outdoor heat exchanger (25), the compressor (24) being unable to make the air conditioner (2) operate normally. The air conditioner (2) comprises a first branch and a first on-off valve (28) provided thereon, wherein two ends of the first branch are respectively in communication with an outdoor heat exchanger (25) and an inlet of a gas-liquid separator (23). The control method comprises: when a refrigerant has been recycled into an outdoor heat exchanger (25), selectively causing a first on-off valve (28) to be in a turned-on state intermittently. In this way, the refrigerant in the outdoor heat exchanger (25) can be discharged, such that the outdoor heat exchanger (25) has some space to receive a gaseous refrigerant which is discharged from an outlet of a compressor (24) after the compressor (24) is started, and converts most of the gaseous refrigerant into a normal-temperature high-pressure liquid refrigerant, thereby avoiding the situation in which the air conditioner (2) cannot operate normally due to the fact that the outdoor heat exchanger (25) cannot play a role normally, and solving, to a certain extent, the problem of the compressor (24) being unable to make the air conditioner (2) operate normally.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F25B 1/00 - Machines, installations ou systèmes à compression à cycle irréversible
• F25B 41/20 - Disposition des soupapes, p. ex. de soupapes marche-arrêt ou de soupapes de régulation de débit
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable

Abrégé

An air conditioner (2) and a control method therefor, aiming at solving, to a certain extent, the problem in the existing air conditioner (2) that a compressor (204) cannot allow normal operation of the air conditioner (2) when the compressor (204) is started after a refrigerant is recovered to an outdoor heat exchanger (205). The air conditioner (2) comprises a first branch communicated with a refrigerant container and an inlet of a gas-liquid separator (203), and a first on-off valve (209) arranged on the first branch. The control method comprises: when the refrigerant is recovered into the outdoor heat exchanger (205) and the refrigerant container, selectively enabling the first on-off valve (209) to intermittently be in an open state; and enabling an outdoor side expansion valve (206) to be in a state allowing the refrigerant to flow through. Therefore, the refrigerant in the outdoor heat exchanger (205) can be discharged, so that the outdoor heat exchanger (205) has some space to receive a gaseous refrigerant which is discharged from an outlet of the compressor (204) after the compressor (204) is started and converts most of the gaseous refrigerant into a normal-temperature high-pressure liquid refrigerant, thereby avoiding a failure in normal operation of the air conditioner (2) caused when the outdoor heat exchanger (205) cannot function normally.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 11/36 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques aux fuites de fluides échangeurs de chaleur
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/84 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant l’apport en fluides échangeurs de chaleur aux échangeurs de chaleur au moyen de valves

Abrégé

The present application relates to the technical field of space size measurement, and discloses a method for measuring a space size, comprising: controlling a voice module to send an ultrasonic measurement signal within a first duration according to a preset parameter; controlling the voice module to acquire a reflected signal of the ultrasonic measurement signal within a second duration; and, according to the reflected signal, determining the space size of a room where an air conditioner is located. According to the solution, the space size of the room where the air conditioner is located can be accurately determined according to the reflected signal of the ultrasonic measurement signal, the situation in which the space size cannot be accurately measured due to poor anti-interference performance of existing measurement methods is avoided, a hardware measurement apparatus does not need to be additionally provided, thereby effectively reducing costs, and a precise data basis is provided for air conditioner control. The present application also discloses an apparatus for measuring a space size, and a storage medium.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/00 - Aménagements de commande ou de sécurité
• G01S 15/10 - Systèmes pour mesurer la distance uniquement utilisant la transmission de trains discontinus d'ondes modulées par impulsions
• G01S 15/08 - Systèmes pour mesurer la distance uniquement

Abrégé

A heat exchanger (53), an air conditioning system, and a control method for an air conditioning system, aiming to solve the problem that existing air conditioning systems cannot avoid poor oil return while taking full advantage of heat exchangers (53) during cooling and heating. For this purpose, a first gas collecting main tube (11) of a heat exchanger (53) communicated with a heat exchange tube group (2) is located under a second gas collecting main tube (12), a first control valve (44) being provided between the first gas collecting main tube (11) and the second gas collecting main tube (12); the first gas collecting main tube (11) is used for receiving a gaseous refrigerant in the cool mode; a liquid collecting main tube (301) is in communication with the heat exchange tube group (2) by means of a first branch tube (302) and a second branch tube (303) which are connected in parallel, a second control valve (32) being provided on the second branch tube (303). The control method comprises: in cool and defrost modes, controlling the first control valve (44) and the second control valve (32) to be closed; in the heat mode, controlling the first control valve (44) and the second control valve (32) to be opened; during oil return in the cool mode, controlling the first control valve (44) and the second control valve (32) to be opened; and during oil return in the heat mode, controlling the first control valve (44) and the second control valve (32) to be closed.

Classes IPC  ?

• F24F 1/16 - Leur agencement ou leur montage

Abrégé

The present invention relates to the technical field of intelligent air conditioners, and specifically provides an air conditioning system, a communication method, a device, and a medium, aiming to solve the problem of how to unify communication interfaces and communication wires of an air conditioning system. For this purpose, the air conditioning system of the present invention comprises a plurality of terminal devices, a PLC bus, and a plurality of converters. The plurality of terminal devices comprise at least two of a centralized controller, a wire controller, an outdoor unit, and an indoor unit. Each terminal device is connected to the PLC bus by means of a converter, and full-duplex communication is realized between each terminal device and the converter. The converters are configured to realize mutual conversion between communication signals corresponding to communication interfaces of the terminal devices and PLC carrier signals corresponding to the PLC bus, so that the terminal devices communicate with each other by means of the converters and the PLC bus. By means of the embodiment, the plurality of terminal devices in the air conditioning system communicate with each other by means of unified PLC carrier signals and a unified PLC bus, thereby improving the efficiency of field wiring.

Classes IPC  ?

• F24F 11/88 - Aspects électriques, p. ex. circuits
• H04L 12/40 - Réseaux à ligne bus

Abrégé

The present application relates to the technical field of air outlet devices, and in particular to a control method and control apparatus of an air conditioner, and an air conditioner. The control method for the air conditioner comprises: acquiring a suspected biological feature in a collection area, and extracting a suspected head area of the suspected biological feature; dividing the suspected head area into a plurality of suspected head sub-areas, and performing determination according to the suspected head sub-areas; and determining that the suspected head sub-areas meet a preset condition, and then controlling the air conditioner to supply air by means of an air outlet channel, the air outlet channel comprising a plurality of sub-air channels which correspond to different positions of the suspected head sub-areas and supply air to the suspected head sub-areas, thereby implementing partitioned temperature control of the suspected head sub-areas. The control apparatus and the air conditioner can implement the control method for the air conditioner.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 120/12 - Position des occupants
• F24F 110/20 - Humidité
• F24F 110/10 - Température

Abrégé

A home system and a control method thereof. The home system comprises an air conditioner indoor unit (100) and an acquisition apparatus (200) used for acquiring the sleep state of a user using the air conditioner indoor unit (100). The control method comprises: detecting whether the air conditioner indoor unit (100) has received temperature adjustment instruction information of cooling or heating; if so, controlling the air conditioner indoor unit (100) to run in a rapid temperature-reaching mode; determining whether the running duration of said rapid temperature-reaching mode is greater than or equal to a preset duration; if so, acquiring a measured temperature of the indoor space; determining whether the measured temperature satisfies a preset condition; if the measured temperature satisfies the preset condition, acquiring the sleep state; and, according to the sleep state, adjusting the running mode of the air conditioner indoor unit (100). The control method of a home system can effectively satisfy the changing requirements of users, thus facilitating users in use of the air conditioner indoor unit (100), effectively improving user experience, and ensuring the physical and psychological health of users.

Classes IPC  ?

• F24F 1/0011 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par les sorties d’air
• F24F 13/16 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à plaques à déplacement parallèle
• F24F 11/66 - Mode de repos
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 110/10 - Température
• F24F 120/12 - Position des occupants

Abrégé

The present application provides a control method and apparatus for an air conditioner, and an air conditioner. The method comprises: acquiring a suspected biological feature within a collection area range, and performing determination according to the suspected biological feature; and when it is determined that the suspected biological feature matches a pre-stored biological feature, playing media information corresponding to the pre-stored biological feature, wherein the media information is information transmitted to an air conditioner by an associated terminal. In the present application, by means of acquiring a suspected biological feature within a collection area range, a user can send, by means of operating an associated terminal, media information needing to be played to a friend or a family member to an air conditioner, and when it is determined that a collected suspected biological feature matches a pre-stored biological feature, media information corresponding to the pre-stored biological feature is played. Thus, the user can share a photograph with and leave a message for relatives and friends by means of the air conditioner, and record same into a video or voice and upload the video or the voice to the air conditioner; and when a subject for which the message is left appears in front of the air conditioner, the air conditioner may play a picture, audio or a video, thereby bring surprises and warmth to the user.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/58 - Commande à distance par internet
• F24F 11/526 - Aménagements pour l’indication, p. ex. écrans émettant des signaux audibles
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans

Abrégé

A method for controlling an air conditioner, comprising: obtaining a liquid medicine temperature of an injectable solution, the injectable solution being a liquid medicine in an infusion bottle for a patient; determining a target temperature according to a preset human body temperature; and controlling the compressor frequency of an air conditioner (2) according to the target temperature and the liquid medicine temperature to adjust the indoor temperature. In this way, the compressor frequency of the air conditioner (2) is controlled on the basis of the target temperature determined according to the preset human body temperature and the liquid medicine temperature, so as to increase the indoor temperature, thereby increasing the liquid medicine temperature. The difference value between the liquid medicine temperature and the indoor temperature is decreased while the difference value between the liquid medicine temperature and the human body temperature is decreased. The discomfort of patients caused by a high indoor temperature and a low liquid medicine temperature is reduced, thereby improving the intravenous injection experience of the patients. Also disclosed is a device (7) for controlling an air conditioner (2), an air conditioner (2), and a storage medium.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité

Abrégé

Provided are a control method for an intelligent air conditioner and an intelligent air conditioner. The control method comprises: acquiring a target temperature reaching time and a target reached temperature of an intelligent air conditioner; acquiring an initial environment temperature of an indoor environment where the intelligent air conditioner is located; obtaining a target cooling amplitude according to the initial environment temperature and the target reached temperature; obtaining a refrigerating capacity of the intelligent air conditioner according to the target cooling amplitude and the target temperature reaching time; determining operating parameters of the intelligent air conditioner according to the refrigerating capacity; within the target temperature reaching time, if there is a heat production device in the indoor environment, acquiring operating power of the heat production device; and correcting the refrigerating capacity according to the operating power to obtain a target refrigerating capacity, and correcting the operating parameters according to the target refrigerating capacity to obtain target operating parameters. Therefore, the interference of the heat production device is avoided within the target temperature reaching time, and the target reached temperature is reached within the target temperature reaching time.

Classes IPC  ?

• F24F 11/89 - Aménagements ou montage des dispositifs de commande ou de sécurité
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression
• F24F 110/10 - Température

Abrégé

A control method for an air conditioner, the air conditioner comprising an air conditioner indoor unit, and the air conditioner indoor unit comprising a housing. The housing is provided with a heat exchange air outlet (11), a first air outlet (21), a first indoor air inlet (12) and a second indoor air inlet (23), the first air outlet (21) being located at a side of the heat exchange air outlet (11). The control method for the air conditioner comprises: when fresh air is introduced, causing the first air outlet (21) and the heat exchange air outlet (11) to operate at the same time. According to the control method for the air conditioner, when fresh air is introduced, especially when the difference between the outdoor fresh air temperature and the indoor ambient temperature is relatively large, fresh air being directly blown on the body of a user would make the user uncomfortable. Causing the first air outlet (21) and the heat exchange air outlet (11) to operate at the same time enables indoor air blown out by the first air outlet (21) and heat exchange air blown out by the heat exchange air outlet (11) to be mixed with the fresh air, so that the fresh air temperature is closer to the indoor ambient temperature. In particular, when the fresh air temperature is relatively low, this makes the fresh air less cold, thereby improving the comfort of the air conditioner.

Classes IPC  ?

• F24F 11/74 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/80 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni
• F24F 13/30 - Agencement ou montage d'échangeurs de chaleur
• F24F 1/0022 - Ventilateurs centrifuges ou radiaux
• F24F 1/0025 - Ventilateurs tangentiels ou à flux transversal
• F24F 110/10 - Température
• F24F 110/12 - Température de l'air extérieur
• F24F 110/70 - Dioxyde de carbone

Abrégé

The present application relates to the technical field of intelligent household appliances, and discloses an air conditioner energy-saving method, comprising: in response to an intelligent starting control instruction, determining a first temperature threshold according to user's habits; calculating the absolute value of a temperature difference value between an indoor ambient temperature and a user set temperature; and when the absolute value is less than the first temperature threshold, starting a power saving mode. In addition to an air conditioner automatically entering energy-saving operation on the basis of a power supply environment, an intelligent starting mode of the power saving mode is set, the first temperature threshold is determined on the basis of the user's habits, and the power saving mode is controlled to be started on the basis of the first temperature threshold and the indoor temperature difference, thereby fully taking the requirements of a user for the indoor temperature into account. Compared with automatically entering the energy-saving operation on the basis of the power supply environment, starting and stopping of the power saving mode can better take the requirements of the user for the temperature into account, achieve balance between the requirements of the user and energy saving, and improve the user experience. The present application further discloses an air conditioner energy-saving device, an air conditioner, and a storage medium.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 140/50 - Charge
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement

Abrégé

The present application relates to the technical field of intelligent household appliances. Disclosed is a method for saving the energy of an air conditioner, comprising: according to the current power supply mode of an air conditioner, determining a sending cycle; when the power supply voltage is stable, controlling a sending module to send a first signal to a receiving module on the basis of the sending cycle; and, when the number of times of the receiving module not receiving the first signal is greater than a set number of times, starting a power-saving mode. On the basis of different power supply modes, using a communication response mechanism corresponding to the current power supply mode to start the power-saving mode matches the starting opportunity of the power-saving mode with the current power supply mode. When energy-saving control is performed by means of the power-saving mode corresponding to the different power supply modes, the power-saving mode can be started in a timely manner in the different power supply modes, thus improving the energy-saving effect of energy-saving control of the air conditioner. Further disclosed in the present application are an apparatus for saving the energy of an air conditioner, an air conditioner and a storage medium.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/33 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques au feu, aux températures excessives ou à la fumée
• F24F 11/526 - Aménagements pour l’indication, p. ex. écrans émettant des signaux audibles
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 140/50 - Charge

Abrégé

An air conditioner control method based on an intelligent remote control (300), and an intelligent remote control (300). The intelligent remote control (300) is provided with at least one identity button used for representing an age group of a user. The control method comprises: acquiring a specified operation performed on an identity button; in response to the specified operation, determining an age group of a user that is represented by the identity button; acquiring air conditioner control logic corresponding to the age group of the user; and sending the air conditioner control logic to an air conditioner bound to the intelligent remote control (300), such that operations of the user are reduced, and controlling the air conditioner according to the age group of the user, such that the comfort of the user is improved, and a high intelligence level is achieved.

Classes IPC  ?

• F24F 11/56 - Commande à distance
• F24F 11/67 - Basculement entre les modes de chauffage et de refroidissement
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 13/10 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres
• F24F 11/74 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air

Abrégé

The present application relates to the technical field of smart household appliances. Disclosed is an energy-saving method for an air conditioner. The method comprises: when a sending module is powered on, improving the frequency of sending a first signal by the sending module within a set duration; controlling a receiving module to determine that a serial number of the received first signal having the highest frequency is a target serial number; and controlling the receiving module to receive the first signal including the target serial number. The frequency of sending a signal by a sending module of the current air conditioner is improved, such that the signal sent by the sending module of the current air conditioner can be selected. Therefore, a receiving module is controlled to receive a signal having a target serial number, such that the receiving module can only receive the signal sent by the sending module of the current air conditioner. The situation of the receiving module of the air conditioner being interfered with by signals of sending modules of other air conditioners, resulting in the erroneous determination of a power supply mode and the erroneous start of a power-saving mode is avoided, thereby improving the user experience. Further disclosed in the present application are an energy-saving apparatus for an air conditioner, and an air conditioner and a storage medium.

Classes IPC  ?

• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/49 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance en assurant un fonctionnement correct, p. ex. par des essais ou par des contrôles de la configuration
• F24F 11/61 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant des minuteurs
• F24F 11/526 - Aménagements pour l’indication, p. ex. écrans émettant des signaux audibles
• F24F 140/50 - Charge

Abrégé

The present application relates to the technical field of intelligent household appliances, and discloses an air conditioner energy saving method, comprising: in response to a power saving control instruction, detecting a current power supply mode of an air conditioner; determining a target power saving mode according to the current power supply mode of the air conditioner; and according to the target power saving mode, controlling the air conditioner to operate. By executing a power saving mode corresponding to the current power supply mode, energy saving control of the air conditioner can be matched with the current power supply mode, so that the energy saving control of the air conditioner meets the energy saving requirements in different power supply modes, improving the energy saving effect of the energy saving control of the air conditioner. The present application further discloses an air conditioner energy saving device, an air conditioner, and a storage medium.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/62 - Aménagements de commande ou de sécurité caractérisés par le type de commande ou par le traitement interne, p. ex. utilisant la logique floue, la commande adaptative ou l'estimation de valeurs
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans
• F24F 110/10 - Température
• F24F 140/50 - Charge

Abrégé

The present application relates to the technical field of smart household appliances. Disclosed is a fire prevention method for an air conditioner. The method comprises: when a sending module is powered on, determining that a first serial number sent by the sending module is a target serial number, and controlling a receiving module to only receive a first signal including the target serial number; when a fire occurs, controlling the sending module to send to a target receiving module an early-warning signal including a fire serial number; and controlling the receiving module to receive a second signal including the fire serial number, and starting a buzzer. When a fire occurs, a special serial number for the occurrence of the fire is additionally set, and all receiving modules are made to respond to an early-warning signal including a fire serial number, thereby breaking through the limitation that a receiving module can only receive a signal of a corresponding sending module in the current air conditioner. The situation, in which a receiving module can only receive a signal sent by a matching sending module during the occurrence of the fire, is avoided. Further disclosed in the present application are a fire prevention apparatus for an air conditioner, and an air conditioner and a storage medium.

Classes IPC  ?

• F24F 11/33 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques au feu, aux températures excessives ou à la fumée
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/526 - Aménagements pour l’indication, p. ex. écrans émettant des signaux audibles
• F24F 11/54 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant une unité de commande centrale connectée à des sous-unités de commande
• F24F 11/47 - Réaction aux coûts énergétiques
• F24F 140/50 - Charge
• F24F 110/10 - Température

Abrégé

The present application relates to the technical field of smart household appliances. Disclosed is an energy-saving method for an air conditioner. The method comprises: calculating a temperature difference value between an indoor environment temperature and a temperature set by a user; when the temperature difference value is less than a first temperature threshold value, switching to a first power supply mode having the lowest cost; and when the temperature difference value is greater than a second temperature threshold value, switching to a second power supply mode having the highest stability. A power supply mode is switched on the basis of an indoor temperature difference, and a power consumption cost and the stability of each power supply mode, and the requirements of a user for a temperature, the stability of a power supply environment, and the power consumption cost are taken into full consideration, such that the problem of the operation of an air conditioner being unstable can be solved from the source, and the situation of the air conditioner being always in an energy-saving operation state, but the effect of adjusting the environment by the air conditioner being reduced is prevented, thereby improving the user experience. Further disclosed in the present application are an energy-saving apparatus for an air conditioner, and an air conditioner and a storage medium.

Classes IPC  ?

• F24F 11/46 - Amélioration de l’efficacité électrique ou économie d’énergie électrique
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• H02J 9/04 - Circuits pour alimentation de puissance de secours ou de réserve, p. ex. pour éclairage de secours dans lesquels le système de distribution est déconnecté de la source normale et connecté à une source de réserve

Abrégé

A control method for an air conditioner. An indoor unit of the air conditioner comprises a shell. A heat exchange air duct and a non-heat exchange air duct, which are independent of each other, are provided inside the shell. A heat exchange fan (14) is provided in the heat exchange air duct, and a non-heat exchange fan (24) is provided in the non-heat exchange air duct. The shell is provided with a heat exchange air outlet (11) communicating with the heat exchange air duct and a non-heat exchange air outlet (21) communicating with the non-heat exchange air duct. The heat exchange air outlet (11) and the non-heat exchange air outlet (21) are both long and strip-shaped, and the non-heat exchange air outlet (21) is positioned at one side of the heat exchange air outlet (11). The control method for the air conditioner comprises: acquiring an indoor ambient temperature and the distance between a user and the air conditioner; and determining an air volume or air speed of the heat exchange air outlet (11) or a rotation speed of the heat exchange fan (14), an air volume or air speed of the non-heat exchange air outlet (21) or a rotation speed of the non-heat exchange fan (24), the air output direction of the heat exchange air outlet (11) and the air output direction of the non-heat exchange air outlet (21) according to the indoor ambient temperature and the distance between the user and the air conditioner.

Classes IPC  ?

• F24F 1/0014 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par les sorties d’air comportant plusieurs orifices de sortie
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 11/77 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande du débit d'air ou de la vitesse de l’air en commandant la vitesse de rotation des ventilateurs
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable

Abrégé

An air fragrance regulator and a control method therefor, and an air conditioner. The air fragrance regulator comprises a fragrance release amount regulating device (6) and a fan (4). The control method for the air fragrance regulator comprises: after the fragrance release amount regulating device (6) and the fan (4) are started, acquiring an actual fragrance concentration C; and selectively controlling the operation of the fragrance release amount regulating device (6) and/or the fan (4) on the basis of the actual fragrance concentration C, so that the actual fragrance concentration C continuously fluctuates. Therefore, the olfactory nerve of a user can be stimulated, thereby avoiding olfactory fatigue of the user in a room for a long time; moreover, the user can feel the change of the fragrance concentration when the actual fragrance concentration in the whole room is low, thus improving user experience, and avoiding discomfort due to too high fragrance concentration.

Classes IPC  ?

• F24F 8/50 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par odorisation
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 1/008 - Éléments intérieurs, p. ex. ventilo-convecteurs comportant des moyens pour parfumer ou désodoriser
• F24F 110/60 - Odeur

Abrégé

000, controlling running of the fragrance release amount adjusting device, so that indoor actual fragrance concentration C is increased in a logarithmic curve. Users can be ensured to quickly smell fragrance in an initial starting stage of the air fragrance regulator, and the increase speed of the indoor fragrance concentration can be reduced along with the increase of the running time, such that the time during which users can smell fragrance is prolonged, and the users can always continuously smell fragrance, thereby shortening the olfactory fatigue time, and improving the user experience.

Classes IPC  ?

• F24F 8/50 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par odorisation
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 1/008 - Éléments intérieurs, p. ex. ventilo-convecteurs comportant des moyens pour parfumer ou désodoriser
• F24F 110/60 - Odeur

Abrégé

The present application relates to the technical field of water chillers, and discloses a method for controlling a water chiller. The method comprises: acquiring an air inlet temperature of a condenser; when the air inlet temperature is higher than a first preset temperature, acquiring a water inlet temperature of a water chiller and a device temperature of an energy storage device; determining a target water intake temperature according to the device temperature; and determining a compressor frequency according to the water inlet temperature and the target water intake temperature, and triggering a compressor to operate according to the compressor frequency. In this way, since the frequency of the compressor will affect the water inlet temperature of the water chiller, a water outlet temperature of the water chiller is thereby affected. The water outlet temperature of the water chiller will affect the cooling degree of the energy storage device. The compressor frequency is adjusted according to the device temperature and the water inlet temperature, enabling the water outlet temperature of the water chiller to adapt to the temperature of the energy storage device, facilitating maintaining the temperature stability of the energy storage device. The present application further discloses an apparatus for controlling a water chiller, a water chiller, and a storage medium.

Classes IPC  ?

• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression
• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 11/00 - Aménagements de commande ou de sécurité

Abrégé

An air conditioner indoor unit, comprising air outlet parts, air guide devices and air guide bodies. The front sides of the air outlet parts are provided with air outlets extending in the length directions of the air outlet parts. The two edges of each air outlet extending in the length direction are respectively a first edge and a second edge. The surfaces of the air outlet parts comprise air guide areas. The edge of each air guide area arranged opposite to the corresponding first edge is a third edge. The air guide devices have an air discharge state in which the air outlets are guided, and an air guide state in which first air guide surfaces which are connected to the second edges and which define communication spaces with the first edges are formed. The edges of the first air guide surfaces away from the second edges are fourth edges. The space between each third edge and the corresponding fourth edge is an air discharge space. The air guide bodies are movably arranged on the front sides of the air guide areas, and the air guide bodies have a closed state in which the air discharge spaces are closed and an opening state in which the air discharge spaces are opened. The air conditioner indoor unit can provide a larger air supply angle, and bring more comfortable air supply experience to users.

Classes IPC  ?

• F24F 1/0011 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par les sorties d’air
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 13/30 - Agencement ou montage d'échangeurs de chaleur
• F24F 1/0063 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des échangeurs de chaleur par le montage ou la disposition des échangeurs de chaleur
• F24F 1/0025 - Ventilateurs tangentiels ou à flux transversal

Abrégé

The present application relates to the technical field of chillers, and discloses a method for controlling a chiller, comprising: acquiring an ambient temperature and a water inlet temperature of a chiller; comparing the ambient temperature with a first preset temperature to obtain a first comparison result; comparing the water inlet temperature with a second preset temperature to obtain a second comparison result; and according to the first comparison result and the second comparison result, triggering a solenoid valve to be opened, the solenoid valve being used for controlling a water inlet pipeline connected to a heater core to be opened. In this way, the chiller mainly carries out heat exchange on a liquid by means of the heater core, so as to change the temperature of a liquid flowing out of a water outlet of the chiller. By controlling the solenoid valve to adjust the amount of water entering the heater core, the heat exchange degree of the liquid entering the heater core can be adjusted, so that the temperature stability of the water outlet of the chiller is maintained, thereby improving the cooling effect of the chiller on energy storage devices. The present application further discloses an apparatus for controlling a chiller, a chiller, and a storage medium.

Classes IPC  ?

• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression

Abrégé

The present application relates to the technical field of liquid cooling units, and discloses a method for controlling a liquid cooling unit. The liquid cooling unit comprises a variable-frequency compressor and a water pump. The method comprises: acquiring a water outlet temperature of the liquid cooling unit and a preset target temperature; and controlling the frequency of the variable-frequency compressor and the rotating speed of the water pump according to the water outlet temperature and the target temperature so as to adjust the water outlet temperature. By acquiring the water outlet temperature of the liquid cooling unit and the preset target temperature, and then controlling the frequency of the variable-frequency compressor and the rotating speed of the water pump according to the water outlet temperature of the liquid cooling unit and the target temperature, the water outlet temperature is adjusted. Therefore, compared with only controlling the frequency of a compressor, the efficiency of adjusting the water outlet temperature is improved by controlling the frequency of the variable-frequency compressor and the rotating speed of the water pump at the same time according to the water outlet temperature and the target temperature. The present application further discloses a device for controlling a liquid cooling unit, a liquid cooling unit, and a storage medium.

Classes IPC  ?

• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression

Abrégé

An air conditioning and dish washing device (1) and a control method therefor, and a readable storage medium. The air conditioning and dish washing device (1) comprises: a refrigerant circulation system (20); a cleaning system (30) comprising a first water inlet part (302), a first heat exchange part (304), a dish washing part (306) and a drainage part (308) which are sequentially connected to form a cleaning water path, wherein the first heat exchange part (304) exchanges heat with the refrigerant circulation system (20); and a drying system (40) comprising a second heat exchange part (402), an energy storage tank (404), a water pump (406) and a third heat exchange part (408) which are sequentially connected to form a circulating water path, wherein the second heat exchange part (402) exchanges heat with the drainage part (308), the third heat exchange part (308) is located on one side of the dish washing part (306), and the third heat exchange part (308) is used for transferring heat to the dish washing part. By means of air conditioning and dish washing functions, and by using a refrigerant circulation system (20), the heating of dish washing water and the drying of the dish washing part are realized, both the air conditioning function and the dish washing function are achieved, the refrigerant utilization rate is improved, the energy consumption is reduced, and the usage requirements of users are improved.

Classes IPC  ?

• A47L 15/00 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table

Abrégé

Provided are an air conditioner control method and an air conditioner. The air conditioner control method comprises: receiving a trigger signal for an air conditioner to activate a health function; when the air conditioner is in a shutdown state, outputting query information of whether to enter a season change mode; receiving reply information of a user; and when the reply information is entering the season change mode, controlling an indoor fan of the air conditioner to operate a first duration at a first rotating speed. According to the solution of the present invention, the interior of an air conditioner can be cleaned when the air conditioner is stored during season change, thereby improving the internal cleanliness of the air conditioner; additionally, the opinions of users are fully respected, and the usage requirements of the users are satisfied; and the interior of the air conditioner is kept clean and dry by adjusting the operating state of an indoor fan, so that air sent out by the air conditioner in the next usage season is clean and healthy, improving user experience.

Classes IPC  ?

• F24F 11/00 - Aménagements de commande ou de sécurité

Abrégé

000 and the water temperature T, controlling the flow of a refrigerant in the second flow path. The control method provided in the present disclosure achieves heat exchange between dish washing water and a refrigerant circulation assembly of an air conditioner, thereby improving the refrigerant utilization rate, reducing energy consumption, and improving the use experience of users.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 11/67 - Basculement entre les modes de chauffage et de refroidissement
• F24F 11/84 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant l’apport en fluides échangeurs de chaleur aux échangeurs de chaleur au moyen de valves
• A47L 15/00 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table
• F24F 110/10 - Température

Abrégé

The present application relates to the technical field of intelligent household appliances, and discloses a heat exchange system, and an air conditioning and refrigeration integrated machine and a control method and apparatus therefor. The heat exchange system comprises: a compressor; a four-way reversing valve, a first connector and a second connector thereof being respectively communicated with an exhaust port and an air return port; an outdoor heat exchanger, one end of the outdoor heat exchanger being connected to a third connector; and an indoor heat exchange flow path, one end of the indoor heat exchange flow path being communicated with the other end of the outdoor heat exchanger, and the other end of the indoor heat exchange flow path being communicated with a fourth connector, wherein the indoor heat exchange flow path comprises a first flow path and a second flow path which are connected in parallel to each other, the first flow path comprises an indoor heat exchanger, and the second flow path comprises a refrigeration heat exchanger; and the indoor heat exchange flow path further comprises a third flow path, and two ends of the third flow path are respectively communicated with the indoor heat exchanger and the refrigeration heat exchanger. The heat exchange system provided by the present disclosure integrates a refrigeration function and an air conditioning function into one heat exchange system by adjusting a refrigerant flow path of the heat exchange system, and does not requires a thermoelectric cooler, thereby lowering production costs, and reducing energy consumption.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 1/0003 - Climatiseurs individuels pour le conditionnement de l'air, p. ex. éléments séparés ou monoblocs ou éléments recevant l'air primaire d'une station centrale caractérisés par un agencement modulaire, c.-à-d. dans lesquels des parties du système de conditionnement d’air, p. ex. l'évaporateur et le condenseur, sont disposées dans des éléments séparés
• F25B 41/00 - Circulation du fluide
• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression
• F25D 13/00 - Dispositifs fixes associés à des machines frigorifiques, p. ex. chambres froides

Abrégé

The present application relates to the technical field of smart devices, and discloses a method for controlling a smart device. The method comprises: in response to a user control instruction, controlling a smart device to start a personnel position detection mode so as to obtain detection data from a radar module of the smart device; sending the detection data to a display module of the smart device; when the display module receives the detection data, processing the detection data to obtain a personnel motion trajectory; and controlling the display module to display the personnel motion trajectory. In this way, controlling the smart device to start a personnel position detection mode allows for detection data collected by the radar module to be obtained, so as to combine the detection data to determine a personnel motion trajectory, and further controlling the display module to display the personnel motion trajectory allows a user to experience improved smart service, thus satisfying user control requirements for the smart device, and enhancing user satisfaction. The present application further discloses an apparatus for controlling a smart device, and a smart device.

Classes IPC  ?

• G05B 19/04 - Commande à programme autre que la commande numérique, c.-à-d. dans des automatismes à séquence ou dans des automates à logique
• G01S 13/58 - Systèmes de détermination de la vitesse ou de la trajectoireSystèmes de détermination du sens d'un mouvement

Abrégé

A method for controlling an air conditioner (70), comprising: when an air conditioner (70) receives a sleep-aiding instruction, controlling an ultrasonic sleep detection module to perform user sleep detection, so as to obtain state information of a user; according to the state information, determining a sleep-aiding policy of the air conditioner (70); and controlling the air conditioner (70) to execute the sleep-aiding policy. In this way, the state information of a user can be determined by means of the ultrasonic sleep detection module, and then the sleep-aiding policy of the air conditioner (70) is determined on the basis of the state information of the user, such that the sleep-aiding policy determined in this way better fits the change rule of the user state, thereby providing a better sleep-aiding environment for the user when the air conditioner (70) is controlled to execute the sleep-aiding policy, meeting the control requirements of users on the air conditioner (70), and further improving the control accuracy of the air conditioner (70). Also disclosed are an apparatus (50) for controlling an air conditioner (70) and an air conditioner (70).

Classes IPC  ?

• F24F 11/66 - Mode de repos
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 8/50 - Traitement, p. ex. purification, de l'air fourni aux locaux de résidence ou de travail des êtres humains autrement que par chauffage, refroidissement, humidification ou séchage par odorisation
• A61M 21/02 - Autres dispositifs ou méthodes pour amener un changement dans l'état de conscienceDispositifs pour provoquer ou arrêter le sommeil par des moyens mécaniques, optiques ou acoustiques, p. ex. pour mettre en état d'hypnose pour provoquer le sommeil ou la relaxation, p. ex. par stimulation directe des nerfs, par hypnose ou par analgésie

Abrégé

Provided are an air conditioner control method, a control apparatus, an electronic device (500), and a storage medium. The control method comprises: during an air conditioner refrigeration process, obtaining the ambient temperature of an air conditioner indoor unit and the temperature of a refrigerant coil. According to the ambient temperature, obtaining the dew point temperature of the environment where the air conditioner indoor unit is located. And according to the temperature of the refrigerant coil and the dew point temperature, determining whether there is condensation in an indoor unit heat exchanger. The control method provides to an air conditioner a basis for determining whether to perform a condensation removal operation, thereby improving a condensation removal effect.

Classes IPC  ?

• F24F 11/32 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance réagissant aux dysfonctionnements ou aux situations critiques
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans
• F24F 110/10 - Température
• F24F 110/20 - Humidité
• F24F 140/20 - Température du fluide échangeur de chaleur

Abrégé

A vertical air conditioner indoor unit, comprising a housing and two air guide columns, wherein the housing is provided with two first air outlets on a front side, and is provided with two second air outlets on two sides; two air output ducts are provided in the housing, and each air output duct is in communication with one first air outlet and is in communication with the corresponding second air outlet; each first air outlet and each second air outlet are arranged vertically; each air guide column extends in a vertical direction, and the outer contour of the cross-section of each air guide column includes two opposite curves for defining the boundary of the air guide column in the thickness direction, each curve arching away from the other curve; and each air guide column is rotatably arranged in one air output duct to guide the airflow flowing towards the first air outlet. The vertical air conditioner indoor unit allows for various air output modes, and achieves a long air supply distance and a large air supply angle, providing better user experience.

Classes IPC  ?

• F24F 1/0014 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par les sorties d’air comportant plusieurs orifices de sortie
• F24F 1/0033 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des ventilateurs comportant plusieurs ventilateurs
• F24F 1/0063 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des échangeurs de chaleur par le montage ou la disposition des échangeurs de chaleur
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 1/005 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des dispositions de montage fixés sur le solÉléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des dispositions de montage posés sur le sol

Abrégé

The present application provides an air conditioner sterilization control method and device, and a floor standing air conditioner. The method comprises: when it is determined that a sterilization mode of a floor standing air conditioner is in an enabled state, determining the relative displacement of a flow guide column in the current motion; on the basis of the relative displacement, determining the relative speed of the flow guide column in the next motion, and a target operation state of a sterilization device borne by the flow guide column; and adjusting the sterilization device to be in the target operation state while controlling the flow guide column to perform the next motion at the relative speed. According to the air conditioner sterilization control method and device, and the floor standing air conditioner provided by the present application, under the driving of the stretching/retraction motion of the flow guide column, ion airflow output by the sterilization device and wind of an air conditioner form twist flow to rapidly and uniformly mix the ion airflow in the wind of the air conditioner, such that the sterilization range of an indoor space can be completely covered, and the sterilization effect and efficiency are enhanced.

Classes IPC  ?

• F24F 11/00 - Aménagements de commande ou de sécurité
• F24F 3/16 - Systèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par purification, p. ex. par filtrageSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par stérilisationSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par ozonisation
• A61L 2/14 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contactAccessoires à cet effet utilisant des phénomènes physiques du plasma, c.-à-d. des gaz ionisés

Abrégé

An air conditioner and a control method therefor, which aim to solve the problems of fluctuations in the temperature in a room due to the frequent starting and stopping of an existing compressor, and the service life of the compressor being shortened. The control method for the air conditioner comprises the following steps: in a heating mode, according to the temperature of an indoor heat exchanger coil of the air conditioner, controlling whether to run a compressor and a rotational speed of an outdoor fan, so that the temperature of the coil is not higher than a first preset temperature, which may protect the air conditioner from burning out. Specifically, when the temperature is too high, the temperature of the coil is lowered by reducing the rotational speed of the outdoor fan, and the compressor is kept in a running state; and when the temperature of the coil is ultrahigh, the compressor and the outdoor fan are turned off. In such a control manner, the frequent starting and stopping of the compressor can be prevented, thus preventing fluctuations in the temperature in the room, so that even if fluctuations occur, the fluctuation amplitude is small, the service life of the compressor can still be guaranteed, and also preventing an electric control system of the air conditioner from being affected.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/80 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni
• F24F 11/86 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant des compresseurs dans les circuits de pompes à chaleur ou de réfrigération
• F24F 11/871 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de la température de l’air fourni en commandant l’absorption ou la restitution de chaleur dans des éléments extérieurs en commandant des ventilateurs extérieurs
• F24F 11/61 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant des minuteurs

Abrégé

The present application provides an air conditioning system control method and apparatus, a device, and a product. The method comprises: in response to a first starting signal, obtaining a heat demand parameter of an indoor first heat exchanger and a heat production parameter of a compressor, wherein the first starting signal identifies a heating signal of an indoor heating device; performing determination according to the heat demand parameter and the heat production parameter; and when it is determined that produced heat corresponding to the heat production parameter satisfies the heat demand parameter, a refrigerant entering the indoor first heat exchanger from the compressor to release heat, and after the heat release, the refrigerant entering an outdoor heat exchanger to obtain heat and then flowing back to the compressor. According to the present application, an outdoor unit, a compressor, and an indoor heating device of an air conditioner are connected to realize indoor heat supply using the air conditioner, so that the indoor environment is improved, and the experience of users in the cold season is improved.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 13/30 - Agencement ou montage d'échangeurs de chaleur
• F24F 11/63 - Traitement électronique

Abrégé

An air conditioning system, a control method and a control device, the air conditioning system comprising: a compressor (40), an outdoor heat exchanger (10), a first indoor heat exchanger (20) and a second indoor heat exchanger (30), which are connected to form a circulation loop of a refrigerant. The outdoor heat exchanger (10) and the compressor (40) are arranged outdoors, and the first indoor heat exchanger (20) and the second indoor heat exchanger (30) are arranged indoors. A four-way valve (50) is separately connected to the outdoor heat exchanger (10), the first indoor heat exchanger (20), the second indoor heat exchanger (30) and the compressor (40). The first indoor heat exchanger (20) is connected to a water heater and used for providing heat to the water heater. The second indoor heat exchanger (30) is provided in an air conditioner indoor unit and used for providing heat or coolness to the air conditioner indoor unit. The first indoor heat exchanger (20) connected to the water heater is directly connected to the compressor (40), so that the refrigerant flowing out of the compressor (40) first enters the first indoor heat exchanger (20) corresponding to the water heater so as to release heat, thereby ensuring hot water preparation by the water heater.

Classes IPC  ?

• F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
• F24F 11/63 - Traitement électronique
• F25B 49/02 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à compression
• F25B 13/00 - Machines, installations ou systèmes à compression, à cycle réversible

Abrégé

An air conditioner and a control method therefor. The control method comprises: receiving an intelligent somatosensory mode entry instruction; acquiring indoor human body state parameters, comprising a sleep index S, a blood oxygen index B, a human age A and a gender coefficient G; calculating a vitality value M of a human body according to the human body state parameters and a relationship between a preset vitality value and the human body state parameters; and controlling operating parameters of an air conditioner according to the vitality value. The intelligent somatosensory mode of the air conditioner can match different cooling and heating requirements of a user in different states.

Classes IPC  ?

• F24F 1/0007 - Éléments intérieurs, p. ex. ventilo-convecteurs
• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/56 - Commande à distance
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 11/79 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes pour la commande de l’apport en air traité, p. ex. commande de la pression pour la commande de la direction de l’air fourni
• F24F 11/88 - Aspects électriques, p. ex. circuits
• F24F 120/20 - Commentaires des utilisateurs

Abrégé

An air conditioner and a control method therefor. The control method comprises: receiving a dehumidification heat control mode starting instruction; controlling an air conditioner to run a dehumidification stage; after the dehumidification stage meets a preset first switching condition, controlling the air conditioner to switch to a first refrigeration stage; and after the first refrigeration stage meets a preset second switching condition, controlling the air conditioner to switch to a second refrigeration stage, so as to reduce the wind power or improve the air supply divergence. The air conditioner has a dehumidification heat control mode suitable for high-humidity and high-temperature weather, thereby making the user experience better.

Classes IPC  ?

• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 110/20 - Humidité
• F24F 110/10 - Température

Abrégé

The present invention relates to an air outlet grille and an air conditioner outdoor unit, belonging to the technical field of air conditioning equipment. The grille comprises a central part, an annular outer frame, at least one circumferential air guide rib and at least two radial air guide apparatuses. The circumferential air guide rib is annular in shape and located between the central part and the annular outer frame, so as to form at least two annular air outlet areas. Each radial air guide apparatus is disposed in an annular air outlet area, and each radial air guide device comprises multiple radial guide vanes arranged at intervals along a circumferential direction. The width of a windward face of a radial guide vane is smaller than the width of an air outlet face of the radial guide vane. The radial guide vanes are obliquely arranged. The outlet grille and the air conditioner outdoor unit have low resistance when air flow enters and high wind pressure and wind speed when air flow exits, and can guide a circumferential velocity of the air volume entering the annular air outlet area into an axial velocity, increase wind pressure and wind speed of output air, increase a distance of blown air flow, and reduce air flow backflow, so as to achieve the effects of improving heat exchange efficiency of the air conditioner outdoor unit and reducing energy consumption of an air conditioner.

Classes IPC  ?

• F24F 13/08 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices
• F24F 1/38 - Parties constitutives des ventilateurs des éléments extérieurs, p. ex. orifices d'admission évasés ou supports des ventilateurs

Abrégé

Provided in the present application are a sterilization control method and apparatus for an air conditioner, and a cabinet air conditioner. The method comprises: when it is determined that a sterilization mode of a cabinet air conditioner has been successfully activated, determining a target area where a horizontal swing blade assembly is currently located; and controlling a sterilization apparatus to output the most negative ions in a first output channel, and at the same time, respectively outputting gradually weakened ion airflows to second output channels, which are sequentially arranged, with the first output channel as a center, in the extension directions of upper and lower ends of the sterilization apparatus. In the sterilization control method and apparatus for an air conditioner, and the cabinet air conditioner provided in the present application, it is ensured that no matter which area vertically swinging swing blades move to, the strongest negative ions are always output into a corresponding area, and the intensities of negative ions which are output into other adjacent areas are sequentially decreased, such that the mixing efficiency of ion airflows and air-conditioning wind can be improved in the area, and the energy consumption of negative-ion output corresponding to angles away from the swing blades is reduced.

Classes IPC  ?

• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 3/16 - Systèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par purification, p. ex. par filtrageSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par stérilisationSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par ozonisation
• A61L 2/14 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contactAccessoires à cet effet utilisant des phénomènes physiques du plasma, c.-à-d. des gaz ionisés

Abrégé

Provided in the present application are an air conditioner sterilization control method and apparatus, and a vertical cabinet air conditioner. The method comprises: when it is determined that a sterilization mode of a vertical cabinet air conditioner is in an enabled state, determining a target area where a vertical swing blade assembly is currently located; on the basis of the target area, determining the swing speed of a flow guide pillar within each swing interval in the process of moving to a left position limit and a right position limit, and an operation power corresponding to a sterilization apparatus when the flow guide pillar is within the swing interval; and in the process of the vertical swing blade assembly moving in the target area, controlling the swing speed of the flow guide pillar within a target swing interval to be the minimum, and when it is determined that the flow guide pillar is within the target swing interval, controlling the sterilization apparatus to output ion airflow at the maximum operation power. By means of the air conditioner sterilization control method and apparatus, and the vertical cabinet air conditioner provided in the present application, a vertical swing blade assembly and a flow guide pillar are staggered back and forth, and thus the turbulent mixing of ion airflow and air-conditioner air is realized, thereby comprehensively covering the sterilization range of an indoor space, and enhancing the sterilization effect and efficiency.

Classes IPC  ?

• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 3/16 - Systèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par purification, p. ex. par filtrageSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par stérilisationSystèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaireAppareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par ozonisation
• A61L 2/14 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contactAccessoires à cet effet utilisant des phénomènes physiques du plasma, c.-à-d. des gaz ionisés

Abrégé

Provided are an oil return control method and apparatus for an air conditioner compressor, and an air conditioner. The oil return control method for an air conditioner compressor comprises: obtaining a duration of low-frequency operation of an air conditioner compressor; and when said duration reaches a target preset duration, controlling a rotating speed of an indoor fan and/or the opening degree of an electronic expansion valve of an air conditioner, so that the exhaust temperature of the compressor reaches a first target preset temperature. The oil return effect of the air conditioner compressor can be improved, the service life of the compressor is prolonged, and normal operation of the air conditioner is guaranteed.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/61 - Aménagements de commande ou de sécurité caractérisés par des interfaces utilisateurs ou par la communication utilisant des minuteurs
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
• F24F 110/12 - Température de l'air extérieur

Abrégé

An air conditioner indoor unit, comprising a housing, an air guide plate and at least one drive mechanism. The housing is provided with an air outlet. The air guide plate is provided with an open position for opening the air outlet and a closed position for closing the air outlet. The drive mechanism is configured for driving the air guide plate to move to the open position or to the closed position, and during a process of driving the air guide plate to open, the air guide plate first being moved to a middle position from the closed position towards a direction away from the air outlet, and then the air guide plate being rotated away from an air output path of the air outlet along a fixed axis from the middle position until the air guide plate reaches the open position. By means of the air conditioner indoor unit, the air guide plate is made to completely evade an output airflow when the air guide plate is opened, and the air outlet is made to be completely closed when the air guide plate is closed.

Classes IPC  ?

• F24F 1/0057 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des dispositions de montage fixés dans ou sur un mur
• F24F 13/14 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments basculants, p. ex. persiennes
• F24F 13/12 - Organes de réglage de l'écoulement d'air, p. ex. persiennes, grilles, volets ou plaques directrices mobiles, p. ex. registres à éléments coulissants
• F24F 13/00 - Détails communs ou relatifs au conditionnement de l'air, à l'humidification de l'air, à la ventilation ou à l'utilisation de courants d'air comme écrans
• F24F 1/0063 - Éléments intérieurs, p. ex. ventilo-convecteurs caractérisés par des échangeurs de chaleur par le montage ou la disposition des échangeurs de chaleur

Abrégé

The present invention belongs to the technical field of air conditioning, and particularly relates to an air-conditioning system machine control method. The control method comprises: acquiring a target temperature and a target humidity, which are set by a user; detecting whether an inner-loop temperature of an indoor environment is greater than a preset loop temperature threshold value of an air-conditioning system; if the inner-loop temperature of the indoor environment is greater than the preset loop temperature threshold value of the air-conditioning system, in a cooling mode, in response to the target temperature being lower than the inner-loop temperature, controlling the air-conditioning system according to the target temperature and the target humidity; and if the inner-loop temperature of the indoor environment is not greater than the preset loop temperature threshold value of the air-conditioning system, in a heating mode, in response to the target temperature being lower than the inner-loop temperature, controlling the air-conditioning system according to the target humidity. The technical solution provided in the present application can precisely and effectively control an air-conditioning system according to an inner-loop temperature of an indoor environment, a preset loop temperature threshold value of the air-conditioning system, and a target temperature and a target humidity, which are set by a user, and therefore the problem in the prior art of an air-conditioning system being unable to effectively control an indoor ambient humidity can be solved.

Classes IPC  ?

• F24F 11/67 - Basculement entre les modes de chauffage et de refroidissement
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 110/10 - Température

Abrégé

A control method of an air conditioner and an air conditioner. The air conditioner is provided with an indicator light. The control method comprises: acquiring an environmental pollution index of the environment where the air conditioner is located; acquiring the home decor color of the environment where the air conditioner is located; and, according to the environmental pollution index and the home decor color, determining the display state of the indicator light. Thus, a user can find or pay attention to the state of the light more easily, so as to know the environmental pollution index of the environment in time and take appropriate measures, thereby improving use experiences of users and improving the intelligent level of air conditioners.

Classes IPC  ?

• F24F 11/30 - Aménagements de commande ou de sécurité en relation avec le fonctionnement du système, p. ex. pour la sécurité ou la surveillance
• F24F 11/52 - Aménagements pour l’indication, p. ex. écrans
• F24F 11/64 - Traitement électronique utilisant des données mémorisées au préalable
• F24F 11/65 - Traitement électronique pour la sélection d'un mode de fonctionnement
• F24F 110/65 - Teneur en substances spécifiques ou en contaminants