The present application relates to the technical field of vacuum cleaners. Provided are a base of a vacuum cleaner and a vacuum cleaner. The base of a vacuum cleaner comprises a base body and a protective cover, wherein the base body is provided with a cutting assembly, the cutting assembly is provided with a movable blade portion, and the cutting assembly is suitable for cutting hair adhered to a brush head of the vacuum cleaner body; and the protective cover is arranged on the movable blade portion in a covering manner, and the protective cover is provided with several through holes that are suitable for hair to pass therethrough. By providing the protective cover on the movable blade portion of the cutting assembly in a covering manner, the cutting assembly is physically isolated to achieve a good protective effect in both cases of the cutting assembly being stationary and being accidentally started, thereby effectively improving the safety of the vacuum cleaner during use. Moreover, in the present application, the arrangement of the cutting assembly on the base body eliminates the need for a user to remove hair on the brush head by himself or herself, and also solves the problem that the volume of the vacuum cleaner body is too large to be held by the user due to the arrangement of the cutting assembly on the brush head.
A47L 9/00 - Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating actionStoring devices specially adapted to suction cleaners or parts thereofCarrying-vehicles specially adapted for suction cleaners
A dust collection station and a cleaning apparatus. The dust collection station comprises: a mounting chamber (100), in which a first cavity (110) is formed, wherein the mounting chamber (100) is provided with a first air inlet (120) and a first air outlet (130) which are in communication with the first cavity (110); a mounting support (200), which is arranged in the first cavity (110); a dust collection container, which comprises a dust bag (310) and a mounting plate (320), wherein a second cavity (311) configured to collect waste is formed in the dust bag (310), the dust collection container has a second air inlet (321) in communication with the second cavity (311), the second air inlet (321) is configured to be in docking communication with the first air inlet (120), and the mounting plate (320) is connected to the mounting support (200); and a negative pressure device (400), which extracts air from the first cavity (110) by means of the first air outlet (130), one side of the mounting plate (320) being inclined towards the center of the first cavity (110).
A47L 9/00 - Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating actionStoring devices specially adapted to suction cleaners or parts thereofCarrying-vehicles specially adapted for suction cleaners
A cleaning assembly (200) and a cleaning apparatus (10). The cleaning assembly (200) comprises a base (210) and a water scraper assembly (220). The base (210) is configured for at least the rotatable arrangement of a rolling brush (300), and the base (210) has a mounting part (221). The water scraper assembly (220) comprises a scraper blade (222) and elastic members, wherein the scraper blade (222) comprises a water scraper part (2222), and the water scraper part (2222) is configured to abut against the rolling brush (300); and the scraper blade (222) has first through holes (2221), the mounting part (221) has second through holes (2211), and the elastic members pass through the first through holes (2221) and the second through holes (2211), and are thus compressed to elastically abut against the mounting part (221) and the scraper blade (222).
A47L 11/40 - Parts or details of machines not provided for in groups , or not restricted to one of these groups, e.g. handles, arrangements of switches, skirts, buffers or levers
CHONGQING MIDEA GENERAL REFRIGERATION EQUIPMENT CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Li, Songpu
Wang, Yong
Abstract
The present application relates to the technical field of heating, ventilation and air conditioning devices, and in particular to a control method for a heat exchange system, and a control apparatus, a heating, ventilation and air conditioning device, and a storage medium. The control method for a heat exchange system comprises: acquiring an operating duration of a heat exchange system in a simultaneous refrigeration and heating mode; acquiring operating parameters of the heat exchange system on the basis of the operating duration being greater than or equal to a first preset duration; on the basis of the operating parameters satisfying a first preset condition, controlling the heat exchange system to switch from the simultaneous refrigeration and heating mode to another mode; and on the basis of the operating duration of the heat exchange system in another mode being greater than a second preset duration, controlling the heat exchange system to switch from another mode to the simultaneous refrigeration and heating mode, wherein when the heat exchange system is in another mode, an air-cooled heat exchanger is provided in refrigerant circulation piping. By means of the control method for a heat exchange system in the present application, a refrigerant in the air-cooled heat exchanger can be pumped out, increasing the amount of the refrigerant participating in circulation in the heat exchange system, improving the energy efficiency of the heat exchange system.
CHONGQING MIDEA GENERAL REFRIGERATION EQUIPMENT CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Xu, Shuangjiang
Sun, Yu
Luo, Yujun
Dai, Bin
Abstract
A control cabinet for an air conditioning unit, and an air conditioning unit. The control cabinet comprises: a cabinet body (11), wherein mounting cavities are formed in the cabinet body (11); variable-frequency drives (13), wherein the variable-frequency drives (13) are respectively arranged in the mounting cavities, and each variable-frequency drive (13) is provided with a first cooling port (101) and a second cooling port (102); air duct components (12), wherein each air duct component (12) is arranged on the cabinet body (11) and surrounds at least part of the outer periphery of the corresponding mounting cavity, an air duct is formed in each air duct component (12), an inlet of the air duct is communicated with the first cooling port (101), and an outlet of the air duct is communicated with the second cooling port (102); and heat exchange components (14), wherein each heat exchange component (14) is at least partially received in the corresponding air duct and is used for exchanging heat with airflow in the air duct.
The present application discloses a heat exchange system and a heat exchange device. The heat exchange system comprises a compression device and a first heat exchange unit; the first heat exchange unit comprises a first switching device, a first heat exchange device, a second heat exchange device, and a third heat exchange device; the first heat exchange device is provided with a first heat exchange channel and a second heat exchange channel; the compression device is communicated with the first heat exchange channel, the second heat exchange device, and the third heat exchange device by means of the first switching device; and the first switching device is used for controlling a first heat exchange medium discharged by the compression device to flow through at least two of the first heat exchange channel, the second heat exchange device, and the third heat exchange device to form a heat exchange circulation loop.
A handheld vacuum cleaner (1), comprising a device body (10), a brush member (20), and a driving member (80). The device body (10) is configured to form a dust collection channel (102) having an open end (101), the brush member (20) is slidably supported on the device body (10) and is arranged on the periphery of the dust collection channel (102), and the driving member (80) is in transmission connection with the brush member (20) and is configured to enable the brush member (20) to switch between a first state and a second state. In the first state, the brush member (20) is at least partially exposed from the open end (101) relative to the device body (10); and in the second state, the brush member (20) is hidden inside the device body (10).
An organic core material for a vacuum insulation panel, a vacuum insulation panel, and a preparation method therefor and the use thereof. The organic core material (1) for a vacuum insulation panel comprises organic fibers. The heat conductivity coefficient of the organic core material for a vacuum insulation panel is less than or equal to 3.0 mW/(m·K). The organic core material for a vacuum insulation panel and the vacuum insulation panel can achieve a very good heat preservation effect, and reduce contamination.
(1) Air fryers; baking ovens for household purposes; cooking ovens for household purposes; cooking pots, electric; cooking stoves; electric autoclaves; electric cooktops; electric food steamers; electric pressure cookers; electric roasting ovens; electric sous-vide cookers; electric toaster ovens; electromagnetic induction cookers for household purposes; frying pans, electric; gas burners; hot plates; kitchen ranges; microwave ovens; multicookers; steam cookers
Microwave ovens for cooking; Cooking ovens; Electric toaster ovens; Hot plates; Cooking stoves; Electric roasters; Cooking ranges; Electric cooktops; Baking ovens for household purposes; Multicookers
A window air conditioner includes a base, and a casing assembly mounted at the base and including an inner casing and an outer casing spaced apart from each other. The outer casing includes an outdoor heat exchanger at a side of the outer casing facing away from the inner casing. The window air conditioner further includes an electric control box disposed in the outer casing. The electric control box includes a box body and a radiator at least partially provided in the box body. The radiator includes a bottom plate located in the box body and approximately parallel to the outdoor heat exchanger.
F24F 1/031 - Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing characterised by mounting arrangements penetrating a wall or window
F24F 11/89 - Arrangement or mounting of control or safety devices
A filter assembly (100) and a dishwasher with same, the filter assembly (100) comprising: a water cup; a filter holder (30) which is mounted in the water cup, the lower end of the filter holder (30) being provided with a shaft hole (33); and a cylindrical filter component (20) which is rotatably arranged in the filter holder (30), wherein a filter cavity (21) with an open upper end is defined in the cylindrical filter component (20), and the cylindrical filter component (20) comprises a rotary body (22) and a rotary shaft (23), the upper end of the rotary shaft (23) being fixedly connected to the lower end of the rotary body (22) and being located on the outer side of the filter cavity (21), and the lower end of the rotary shaft (23) being fitted in the shaft hole (33).
09 - Scientific and electric apparatus and instruments
11 - Environmental control apparatus
42 - Scientific, technological and industrial services, research and design
Goods & Services
Elevating apparatus; elevators; compressed air pumps; pumps
[parts of machines, engines or motors]; centrifugal
machines; taps [parts of machines, engines or motors];
compressed air machines; condensing installations;
compressors [machines]. Conductors, electric; inverters [electricity]; current
rectifiers; computer software, recorded; computer software
platforms, recorded or downloadable; programmable
controllers; data processing apparatus; operating system
programs; computer software applications, downloadable;
biometric scanners; face recognition equipment; time
recording apparatus; network communication devices;
electronic surveillance apparatus; surveying apparatus and
instruments; electronic chips; power controllers;
controllers for servo motors; microcontrollers; sensors;
voltage regulators; climate control digital thermostats;
fluorescent screens; remote control apparatus; heat
regulating apparatus. Gas scrubbing apparatus; air-conditioning installations;
dehumidifiers; air purifying apparatus and machines; air
cooling apparatus; humidifiers; central air-conditioning
installations for industrial purposes; ventilation
[air-conditioning] installations and apparatus; air dryers;
heating apparatus; heat pumps; heat accumulators; central
heating radiators; heating installations; underfloor heating
apparatus and installations; heaters for baths. Computer software design; cloud computing; updating and
maintenance of computer software; monitoring of computer
systems to detect breakdowns; research and development of
new products; technological research; research in the field
of artificial intelligence technology; research in the
reduction of carbon emissions; quality control; quality
testing; material testing; industrial design; architectural
services; software as a service [SaaS]; platform as a
service [PaaS]; installation, maintenance and repair of
computer software; monitoring of computer system operation
by remote access; computer programming; design and
development of software in the field of mobile applications;
design and development of databases; off-site data backup;
electronic data storage; technological consultancy services
for digital transformation; design of computer-simulated
models; design of computer databases; development of
computer platforms.
A bottle blender attachment for a blender. The bottle blender attachment may include one or more bottle adapters. The bottle blender attachment may sealingly engage one or more bottles/container. The bottle blender attachment may include one or more sealing mechanisms. The bottle blender attachment may include one or more portions of a blade assembly.
The present application discloses a rare earth-containing aluminum alloy and a preparation method therefor, and a heating, ventilation and air conditioning device. The rare earth-containing aluminum alloy comprises the following components in percentage by mass: 0.05%-0.30% of Fe, 0.05%-0.25% of Si, 0.80%-1.6% of Mn, 0.05%-0.45% of Cu, 0.01%-0.15% of Ti, 0.10%-0.20% of Zr, 0.05%-0.30% of rare earth, and the balance being Al and impurity elements, wherein the sum of the mass percentages of the impurity elements is less than or equal to 0.20%. In the present application, the selection of elements of an aluminum alloy is optimized to implement uniform distribution of intermetallic compounds of the aluminum alloy, such that the corrosion potential of an aluminum matrix is increased, and the corrosion potential of harmful intermetallic compounds is decreased, thereby reducing the corrosion potential difference between an aluminum alloy matrix and the intermetallic compounds, and improving the corrosion resistance. Additionally, the rare earth-containing aluminum alloy of the present application can achieve a corrosion depth of 150 μm or less after exposed for 12 days in sea water acetic acid test (SWAAT) per ASTM G85 standard.
C22C 21/08 - Alloys based on aluminium with magnesium as the next major constituent with silicon
C22C 21/12 - Alloys based on aluminium with copper as the next major constituent
C22F 1/04 - Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of aluminium or alloys based thereon
Electric fans; Electric heating fans; Air purifying apparatus and machines; Air purifiers; Hot water heaters; Thermoelectric cooler/heater for food and beverages; Heating installations; Radiators; Air humidifying apparatus; Humidifiers, electric
(1) Electric fans for household purposes; portable electric fans; electric fans for personal use; air-conditioning units; electrical fans being parts of household air-conditioning installations; ventilating fans; electric heating fans; air purifiers for household purposes; air conditioners; dehumidifiers for household purposes; humidifiers
20.
AIR CIRCULATION DEVICE WITH FILTER CONTROL MECHANISM
An air circulation device includes a housing including an exhaust, a base including a filter intake and a bypass intake, and a damper system adjustable between a filter state and a bypass state. The damper system includes a bypass damper translatable via a bypass actuator, a filter damper translatable via a filter actuator, a filter mechanism disposed between the filter damper and the filter intake, a motor coupled to the bypass actuator and the filter actuator that allows the bypass damper and the filter damper to translate between an open position and a closed position, and a control mechanism can also have a sensor. The control mechanism is configured to adjust the damper system between the filter state and the bypass state, and the sensor determines an air quality rating of the air and compares the air quality rating of the air to a predetermined air quality threshold.
The present application relates to the field of refrigeration apparatuses. Provided are an air duct system of a refrigeration apparatus, and the refrigeration apparatus. The air duct system comprises: an ice-making air duct assembly, which is adapted to be arranged in a refrigerator compartment liner of the refrigeration apparatus and comprises an ice-making air duct front cover plate, and an ice-making air duct is formed between the ice-making air duct front cover plate and one part of a side wall of the refrigerator compartment liner, and is adapted to be in communication with an ice-making compartment to form an ice-making air circulation structure; and a refrigeration air duct assembly, which is adapted to be arranged in the refrigerator compartment liner and comprises a refrigeration air duct cover plate.
F25D 17/06 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection by forced circulation
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A top-loaded water dispenser is provided. The top-loaded water dispenser includes a first manifold having a water receiving basin, a water inlet passageway, and a water outlet passageway; a second manifold having a drainage passageway; a cooling tank adapted to be in communication with the water inlet passageway to receive water from the water receiving basin, adapted to be in communication with the water outlet passageway to output refrigerated water, and further adapted to be in communication with the drainage passageway to drain the water in the cooling tank; and a heating tank adapted to be in communication with the water inlet passageway to receive the water from the water receiving basin, adapted to be in communication with the water outlet passageway to output heated water, and further adapted to be in communication with the drainage passageway to drain the water in the heating tank.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
Provided is a water dispenser. The water dispenser includes a housing and a functional module. The functional module is disposed in the housing. The functional module includes a mounting support, a heating tank component, a cooling tank component, a water manifold component, and an electronic control component, and the heating tank component, the cooling tank component, the water manifold component, and an electronic control component are disposed at the mounting support. The heating tank component, the cooling tank component, the water manifold component, and the electronic control component are all integrated into the functional module through the mounting support.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
Provided are a drinking apparatus including a water treatment device, a water inlet device, and a water outlet device. The water inlet device has a water source port, a water treatment port, a water outlet port, and a first flow passageway assembly. The first flow passageway assembly is configured to guide water from the water source to flow to the water treatment device and water outlet device. The water outlet device has a second flow passageway assembly, a first port, and a second port. One of the first port and the second port is configured to be connected to the water inlet device, and another one of the first port and the second port is configured to be connected to a water outlet component. The first port and the second port are in communication with each other via the second flow passageway assembly.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Gan, Zhisheng
Abstract
A water tank (20), a top cover (22) for the water tank (20), a cold tank assembly (100) and a water dispenser. The water tank (20) is provided with a water inlet (201) and a flow divider (224). The flow divider (224) is in communication with the water inlet (201) and is configured to guide a fluid introduced through the water inlet (201) to flow into the water tank (20) in a divided manner.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A bottom-loading water dispenser (100). The bottom-loading water dispenser (100) comprises a functional module (20) and a second cavity (10b) arranged below the functional module (20); the second cavity (10b) is suitable for placing a water supply bottle (51); the functional module (20) comprises a cold tank assembly (21), a hot tank assembly (22), a water path assembly (23), and a water pump (50); the cold tank assembly (21) and the hot tank assembly (22) are both connected to the water path assembly (23); and the water pump (50) is used for pumping water in the water supply bottle (51) to the water path assembly (23).
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A water dispenser (100), comprising a housing (1) and a functional module (2), wherein the functional module (2) is arranged in the housing (1), and comprises a mounting frame (21), and a hot water tank assembly (22), a cold water tank assembly (23), a waterway board assembly (24), and an electric control assembly that are arranged on the mounting frame (21). The hot water tank assembly (22), the cold water tank assembly (23), the waterway board assembly (24), and the electric control assembly are all integrated in the functional module (2) by means of the mounting frame (21), so that the integration level of the functional module (2) can be improved; in addition, in the process of assembling the water dispenser (100), the functional module (2) only needs to be integrally placed in the housing (1) and fixed, so that the assembly process of the water dispenser (100) is reduced, and the assembly efficiency of the water dispenser (100) is improved.
The present application provides a rotor of a built-in permanent magnet motor, a built-in permanent magnet motor, and an electric device. In the rotor of the built-in permanent magnet motor, a rotor iron core is sleeved outside a shaft body; a plurality of tangential permanent magnets are circumferentially distributed in the rotor iron core around the shaft body, the directions of magnetic induction lines of every two adjacent tangential permanent magnets are opposite, and each radial permanent magnet is correspondingly provided between two adjacent tangential permanent magnets. The rotor iron core is provided with a plurality of reinforcing ribs, and each reinforcing rib is correspondingly arranged between the tangential permanent magnet and the radial permanent magnet which are adjacent to the reinforcing rib; the direction of the magnetic induction line of the radial permanent magnet located between corresponding first magnet pairs is away from the axis of the shaft body, and the direction of the magnetic induction line of the radial permanent magnet located between corresponding second magnet pairs points to the axis of the shaft body. Use of the present application can improve the air gap magnetic flux density of the motor, so that the overall performance of the motor is improved.
The present invention relates to the technical field of motors, and relates to a stator module and a motor. The stator module comprises a base, stator teeth, and stator yokes; the base is made of non-oriented silicon steel and has an annular structure; and the base is provided with a plurality of protruding portions. The end of each stator tooth distant from the axis of the stator module is opposite to an at least partial area of the corresponding protruding portion; the stator teeth are connected to the base and are made of oriented silicon steel, and the rolling direction of the stator teeth follows the radial direction of the stator module; each stator yoke is located between every two adjacent protruding portions and connected to the base; and the stator yokes are made of oriented silicon steel, and the rolling direction of each stator yoke is aligned with a line connecting the two adjacent protruding portions. The bending of a magnetic force line occurs in an aera of a base made of non-oriented silicon steel, such that a large angle of deflection between the magnetic force line and the rolling directions of the stator teeth and stator yokes made of oriented silicon steel is avoided, thereby reducing the iron loss of the stator module, increasing magnetic permeability, and improving the efficiency of a motor.
The present disclosure relates to the technical field of motors, and relates to a stator module and a motor. The stator module comprises a plurality of stator units which are distributed annularly, each stator unit comprises a stator tooth and two stator yokes, the stator tooth and the stator yokes are made of oriented silicon steel, and the rolling direction of the stator tooth is along the radial direction of the stator module. In the circumferential direction of the stator module, the two stator yokes are respectively located on two sides of the stator tooth and connected to the stator tooth, and the wall face of each stator yoke distant from the axis of the stator module and the wall face of the stator yoke close to the axis of the stator module are both perpendicular to the rolling direction of the stator tooth. The stator yokes are made of oriented silicon steel, the rolling direction of the stator yokes is perpendicular to the rolling direction of the stator tooth, and each stator yoke is connected to a stator yoke in an adjacent stator unit. The two opposing wall faces of the stator yoke are parallel to each other and are parallel to the rolling direction of the oriented silicon steel. When the stator yokes are machined on an oriented silicon steel raw material sheet, the machining scrap rate of the stator yokes is high, resulting in high manufacturing cost of the stator module.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
Provided is a bottom-loaded water dispenser. The bottom-loaded water dispenser includes a functional module and a second cavity disposed below the functional module. The second cavity is adapted to receive a water bucket. The functional module includes a cooling tank assembly, a heating tank assembly, a water passageway assembly, and a water pump. The cooling tank assembly and the heating tank assembly are connected to the water passageway assembly. The water pump is configured to pump water in the water bucket to the water passageway assembly.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A top-loading water dispenser, comprising a first water channel plate (3000), a second water channel plate (4000), a cold tank (5000), and a hot tank (6000). The first water channel plate (3000) has a water receiving pool (3100), an water inlet channel (3200) and a water outlet channel (3300). The second water channel plate (4000) has a water draining channel (4100). The cold tank (5000) is adapted to be in communication with the water inlet channel (3200), so as to receive water from the water receiving pool (3100), is also adapted to be in communication with the water outlet channel (3300), so as to output refrigerated water, and is also adapted to be in communication with the water draining channel (4100), so as to discharge water in the cold tank (5000). The hot tank (6000) is adapted to be in communication with the water inlet channel (3200), so as to receive water from the water receiving pool (3100), is also adapted to be in communication with the water outlet channel (3300), so as to output heated water, and is also adapted to be in communication with the water draining channel (4100), so as to discharge water in the hot tank (6000). The first water channel plate (3000) and the second water channel plate (4000) can be used as core components connected to the cold tank (5000) and the hot tank (6000), thereby realizing communication of the water channels. By means of providing corresponding water channels on the first water channel plate (3000) and the second water channel plate (4000), a silicone tube in a traditional top-loading water dispenser is replaced, the use of silicone tubing is reduced, the problem of water leakage is effectively prevented, modularization and assembly are further facilitated, and production efficiency is improved.
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A water dispenser (100), comprising a heat tank assembly (1) and a water intake/output manifold plate (2), wherein the heat tank assembly (1) has a heating chamber (111), and a water intake connector (121) and a first water output connector (113) which are both in communication with the heating chamber (111); a heating element (112) is provided in the heating chamber (111); the heat tank assembly (1) is connected below the water intake/output manifold plate (2); a water dispensing tank (211) is formed on an upper surface of the water intake/output manifold plate (2); a water supply flow channel and a water output flow channel (221) are formed inside the water intake/output manifold plate (2); a water supply connector (212) and a second water output connector (222) are provided on the water intake/output manifold plate (2); the water supply connector (212) is in communication with the water dispensing tank (211) via the water supply flow channel and is connected to the water intake connector (121); and the first water output connector (113) is connected to the second water output connector (222).
FOSHAN SHUNDE MIDEA WATER DISPENSER MANUFACTURING CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hong, Sipei
Cheng, Baoyou
Abstract
A water dispensing apparatus (100), comprising: a water treatment device (1); a water intake device (2), which has a water source port, a water treatment port, a water output port and a first flow channel assembly, wherein the water source port is configured to connect to a water source, the water treatment port is configured to connect to the water treatment device (1), the water output port is configured to connect to the water output device (3), and the first flow channel assembly connects the water source port, the water treatment port and the water output port, and guides water from the water source to flow to the water treatment device (1) and the water output device (3); and the water output device (3), which has a second flow channel assembly, a first port (3011) and a second port (3012), wherein one of the first port (3011) and the second port (3012) is configured to connect to the water intake device (2), and the other is configured to connect to a water output assembly (8); and the second flow channel assembly communicates with the first port (3011) and the second port (3012).
The present application discloses an anomaly detection method, an anomaly detection apparatus, an electric appliance and a nonvolatile computer readable storage medium. The method comprises: acquiring the operating power of an electric appliance whose operating duration falls within a preset duration interval, and determining a basic deviation rate on the basis of the operating power and a preset power threshold; determining a current deviation rate on the basis of the current power of the electric appliance and the preset power threshold; and performing anomaly detection on the basis of a deviation between the current deviation rate and the basic deviation rate to determine an anomaly detection result. The preset duration interval can be set on the basis of a preset duration corresponding to the working performance of the electric appliance being within a reasonable range, so that the basic deviation rate can be understood as an allowable deviation rate of the electric appliance. It can be understood that when the deviation between the current deviation rate and the basic deviation rate is large, it can be determined that an anomaly occurs in the working performance of the electric appliance at this time. In this way, the working performance of the electric appliance can be monitored all the time during operation of the electric appliance, so that information about the anomaly of the working performance of the electric appliance can be obtained in a timely manner.
A latching structure, a household appliance and a control method for the household appliance are provided. The latching structure has a snapping member, a bracket, a limiting member, and a driving assembly. The snapping member is mounted on a door body and has a hook. The bracket is mounted on a housing and has a limiting portion. The hook can penetrate the bracket. The door body is connected to the housing in an openable and closable manner. The limiting member is rotatably mounted to the bracket and can reciprocate between an unlocked position and a locked position. The driving assembly is configured to engage with or disengage from the limiting member. In the unlocked position, the limiting member avoids the hook, and in the locked position, the limiting member is suitable for fitting the hook to limit a position of the hook.
Disclosed in the present application are a fault detection method, a fault detection apparatus, a computer device, and a storage medium. The method comprises: on the basis of the opening degree of a flow control apparatus and a preset mapping function, calculating a first flow coefficient; on the basis of a first operating parameter of the flow control apparatus and a second operating parameter of a compressor, calculating a second flow coefficient; and on the basis of a deviation between the first flow coefficient and the second flow coefficient, performing fault detection on the flow control apparatus, so as to determine a fault detection result. By comparing a flow coefficient, which is obtained by means of real-time detection, with a theoretical flow coefficient to obtain a deviation therebetween, fault detection can be performed on a flow control apparatus in a timely manner, which is conducive to avoiding the impact of a faulty component in a timely manner, thereby improving the stability and reliability of an air conditioning system.
F24F 11/64 - Electronic processing using pre-stored data
F24F 11/84 - Control systems characterised by their outputsConstructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers using valves
F24F 11/86 - Control systems characterised by their outputsConstructional details thereof for controlling the temperature of the supplied air by controlling compressors within refrigeration or heat pump circuits
Disclosed in the present application are a cooling capacity calculation method, a cooling capacity calculation apparatus, an air conditioning system and a nonvolatile computer readable storage medium. The air conditioning system comprises a compressor, a plate heat exchanger, a first circuit, a second circuit and an indoor unit, wherein a liquid pipe inlet of the plate heat exchanger is connected to a discharge port of the compressor; one end of the first circuit and the second circuit is connected to a liquid pipe outlet of the plate heat exchanger, and the other end of the first circuit and the second circuit is connected to a suction port of the compressor; and the indoor unit is arranged on the second circuit. The method comprises: acquiring the total flow rate at the discharge port of the compressor, a first flow coefficient of the first circuit and a second flow coefficient of the second circuit; determining the flow rate of the indoor unit on the basis of the first flow coefficient, the second flow coefficient and the total flow rate; and determining the total cooling capacity of the indoor unit on the basis of the flow rate of the indoor unit. There is no need to add any device during determination of the first flow coefficient, the second flow coefficient and the total flow rate, thereby reducing the cost of the air conditioning system while ensuring accurate acquisition of the total cooling capacity of the indoor unit.
F24F 11/46 - Improving electric energy efficiency or saving
F24F 11/64 - Electronic processing using pre-stored data
F24F 11/84 - Control systems characterised by their outputsConstructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers using valves
F24F 11/86 - Control systems characterised by their outputsConstructional details thereof for controlling the temperature of the supplied air by controlling compressors within refrigeration or heat pump circuits
Provided in the present application are a cleaning base station and a cleaning system. The cleaning base station comprises a base station body and a waste drain line, wherein the base station body is configured for detachable placement of a cleaning device; the waste drain line is arranged on the base station body; and the waste drain line is provided with an inlet and an outlet, the inlet of the waste drain line being configured for communication with a wastewater tank, and the outlet of the waste drain line being configured to discharge wastewater from the wastewater tank to the exterior of the cleaning base station. In the present application, by providing the waste drain line on the base station body, when the cleaning device is placed on the base station body, the wastewater tank of the cleaning device can be connected to the exterior of the cleaning base station through the waste drain line, such that the wastewater in the wastewater tank is directly discharged to the exterior of the cleaning base station, thereby reducing user operations to manually clean the wastewater tank, improving the user experience.
Air-conditioning apparatus; air purifying apparatus and
machines; ventilation [air-conditioning] installations and
apparatus; air sterilizers; humidifiers; dehumidifiers; heat
pumps; heating installations; disinfectant apparatus; water
heaters; underfloor heating apparatus and installations;
pressure water tanks; radiators, electric; air-source water
heater.
A blending appliance for blending liquid artifacts coupled with an excitation transducer. The excitation transducer produces vibrations that dislodge the liquid artifacts from the surface of the blender container assisting in cleaning and pouring. The blending container is coupled with a power source. When the blending container is removed from the housing base the power source provides power to the excitation transducer. The power source is a magnetic power source that electromagnetically transfers power from a coil in the housing base to the coil the blending container when the blending container is docked on the housing base.
A47J 43/046 - Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven with tools driven from the bottom side
A47J 43/07 - Parts or details, e.g. mixing tools, whipping tools
45.
CONTROL METHOD FOR ENVIRONMENT CONDITIONING DEVICE, ENVIRONMENT CONDITIONING DEVICE, AND STORAGE MEDIUM
The present application discloses a control method for an environment conditioning device, an environment conditioning device, and a storage medium. The environment conditioning device comprises a terminal group, the terminal group comprises at least two types of terminal devices, and different types of terminal devices in the terminal group in different operation modes cooperate with each other in different on/off states. The method comprises: when the environment conditioning device is in a heat exchange mode and operates to meet a preset condition, acquiring a first ambient temperature of an indoor space conditioned by the terminal group; determining a target operation mode of the terminal group on the basis of the first ambient temperature; and controlling the terminal group to operate in the target operation mode, wherein the preset condition represents that there is a user in the indoor space.
Air-conditioning apparatus; air purifying apparatus and
machines; ventilation [air-conditioning] installations and
apparatus; air sterilizers; humidifiers; dehumidifiers;
disinfectant apparatus; radiators, electric.
Air-conditioning apparatus; air purifying apparatus and
machines; ventilation [air-conditioning] installations and
apparatus; air sterilizers; humidifiers; dehumidifiers; heat
pumps; heating installations; disinfectant apparatus; water
heaters; underfloor heating apparatus and installations;
pressure water tanks; radiators, electric; air-source water
heater.
An air conditioner (1000), comprising a top air outlet part (101). The top air outlet part (101) comprises an upper air outlet frame (1) and an air guide assembly (2); a first air outlet (1a) is formed in the top of the upper air outlet frame (1); the air guide assembly (2) is arranged on the upper air outlet frame (1) and is used for opening/closing the first air outlet (1a); the air guide assembly (2) comprises a first air guide member (21) and a second air guide member (22); the first air guide member (21) is movably provided at the first air outlet (1a) to open/close the first air outlet (1a); a second air outlet (211) is formed in the first air guide member (21); and the second air guide member (22) is movably provided at the second air outlet (211) to open/close the second air outlet (211).
(1) Air fryers; cooking ovens for household purposes; cooking pots, electric; cooking stoves; electric autoclaves; electric cooktops; electric food steamers; electric pressure cookers; electric roasting ovens; electric sous-vide cookers; electromagnetic induction cookers for household purposes; frying pans, electric; gas burners; hot plates; kitchen ranges; microwave ovens; multicookers; smokers [cooking apparatus]; steam cookers
Cooking stoves; Electromagnetic induction cookers; Gas cookers; Cooking ovens; Gas burners; Hot plates; Electric roasters; Cooking ranges; Microwave ovens for cooking; Air fryers; Multicookers; Sous-vide cookers, electric; Electric cooktops; Smoke generating apparatus for cooking; Pressure cookers, electric
A refrigeration apparatus includes: a cabinet body, a first refrigeration compartment, a second refrigeration compartment, a first door body, a second door body, an ice-making assembly, an ice-retrieving assembly, an ice-transfer channel, an ice-transfer assembly, a first sealing member, and a second sealing member. A first channel opening is defined at a top portion of the first door body. A second channel opening is defined at a bottom portion of the second door body. The first sealing member is disposed on the first door body and configured to expose or cover the first channel opening. The second sealing member is disposed on the second door body and is configured to expose or cover the second channel opening.
A cleaning base station (200) and a cleaning system (100). The cleaning base station (200) comprises a housing (210) and a suction assembly (220), wherein the housing (210) is provided with a waste water inlet (211) and a waste water outlet (212), a waste water channel (213) being formed between the waste water inlet (211) and the waste water outlet (212); and the suction assembly (220) is arranged in the housing (210), the suction assembly (220) comprises a waste water pump (221), the waste water pump (221) being provided with a suction part, which is arranged in the waste water channel (213). The cleaning base station (200) uses direct suction to treat waste water in the cleaning system (100), so that the provision of a vacuum electric motor in the cleaning base station (200) is unnecessary, and even the provision of a waste water tank in the cleaning base station (200) is unnecessary, thereby reducing the complexity of the cleaning base station (200) and reducing the size of the cleaning base station (200).
A core material for a vacuum insulation panel, comprising an aramid fiber and a bonding material, wherein the aramid fiber includes at least one of a poly(m-phenylene isophthalamide) fiber, a poly(p-phenylene terephthalamide) fiber, and heterocyclic aramid, and the length of the aramid fiber is 1 mm to 10 mm. A vacuum insulation panel, comprising the core material for a vacuum insulation panel and a barrier film material. A method for preparing the core material for a vacuum insulation panel, comprising: dispersing an aramid fiber and a bonding material into water to obtain a fiber dispersion; and treating the fiber dispersion by means of a wet process and then drying to obtain the core material for a vacuum insulation panel. A core material for a vacuum insulation panel, comprising a fiber non-woven fabric made of the aramid fiber. A vacuum insulation panel, comprising the core material for a vacuum insulation panel and a barrier film material. A method for preparing the core material for a vacuum insulation panel, comprising: dispersing an aramid fiber and a bonding material into water to obtain a fiber dispersion; and treating the fiber dispersion by means of a wet process and then drying to obtain the core material for a vacuum insulation panel. A method for preparing the vacuum insulation panel, comprising: performing heat treatment on the core material for a vacuum insulation panel; and then, encapsulating said core material with the barrier film material, and then vacuumizing to obtain the vacuum insulation panel. A thermal insulation device, comprising the core material for a vacuum insulation panel, or the vacuum insulation panel. By means of the configuration, higher-standard design and energy consumption requirements that are difficult to meet with conventional thermal insulation materials can be achieved.
A range information determination method, comprising: performing image detection on a first image frame, so as to obtain detection information corresponding to a target object, wherein the first image frame is collected by an image collection apparatus, and image content of the first image frame comprises the target object; determining position information on the basis of the detection information; determining a target detection region by using a first position point indicated by the position information as the center and using a preset range as the radius; and controlling a ranging apparatus to detect, in the target detection area, range information between the target object and a robot. Further provided are a range information determination apparatus, a readable storage medium, and a robot.
An RV reducer and a mounting method therefor, and an industrial robot. The RV reducer (1000) comprises a pin housing (100), a planet carrier (200), a crankshaft (300), a cycloidal gear (400), a tube body (500), a limiting member (600), and a sealing member (215). By providing the planet carrier (200) in the pin housing (100), the crankshaft (300) is supported on the planet carrier (200) and configured to drive the cycloidal gear (400) to swing. The planet carrier (200) comprises an output flange (210) and a support flange (220) which are connected to each other, wherein the output flange (210) is provided with a first central hole (212), and the support flange (220) is provided with a second central hole (221). The cycloidal gear (400) is provided with a third central hole (430). The tube body (500) passes through the first central hole (212), the second central hole (221) and the third central hole (430).
F16H 1/32 - Toothed gearings for conveying rotary motion with gears having orbital motion in which the central axis of the gearing lies inside the periphery of an orbital gear
57.
COUNTERWEIGHT ASSEMBLY, PIPING SYSTEM, AND AIR CONDITIONER
Provided are a counterweight assembly, a piping system, and an air conditioner. The counterweight assembly includes a counterweight block and a fixing clip. The counterweight block has a clamping hole adapted to a pipe and two separable ends in a circumferential direction of the clamping hole to define an openable slit. The slit is in communication with the clamping hole to allow the pipe to engage into the clamping hole through the slit. The counterweight block has a clamping groove formed on each of outer peripheral walls thereof at two sides of the slit in a circumferential direction of the counterweight block. The clamping grooves are each spaced apart from the slit. The fixing clip has clamping arms respectively adapted to extend into the clamping grooves at two sides of the slits and adapted to be engaged with groove walls of the clamping grooves to close the slit.
F24F 1/0068 - Indoor units, e.g. fan coil units characterised by the arrangement of refrigerant piping outside the heat exchanger within the unit casing
A logistics system uses an application to push notifications as a function of proximity for an appliance that needs a part for replacement. The logistics system consists of a sensor, a parts algorithm, an inventory database, a trilateration sensor, a routing algorithm, and an alerting module. The sensor at a first location detects usage of the appliance. The parts algorithm determines the part which is needed for the appliance. The inventory database at a second location stores inventory information for multiple parts of the appliance. The communication interface transmits data between two locations and the trilateration sensor tracks a location of the user device. The routing algorithm determines distance between the location of the user device and different locations having the part. Finally, the alerting module of the user device triggers when location of the user device is within a determined distance from different locations having the part in stock.
The present application provides a residue collecting mechanism, a filtering device, and a cleaning device. The residue collecting mechanism is used in the filtering device. The filtering device comprises a filtering mechanism and the residue collecting mechanism. The residue collecting mechanism comprises: a first housing assembly, having a residue collecting cavity as well as a residue collecting port, a first backflow port, and a residue discharging port which are separately communicated with the residue collecting cavity; and a first filtering member, arranged in the residue collecting cavity and located between the residue discharging port and the first backflow port. The residue collecting port is used for being communicated with a filtering cavity of the filtering mechanism, so as to collect a residue mixture, which is discharged from the filtering cavity, to the residue collecting cavity. The first backflow port is used for discharging filtered liquid obtained after the residue mixture is filtered by the first filtering member. The residue discharging port is used for at least discharging residue in the residue mixture. The residue collecting cavity is used for being arranged on one side of the filtering mechanism. The residue collecting cavity and the filtering mechanism are arranged in a preset direction. In this way, the residue-water separation effect and reliability can be improved.
B01D 36/02 - Combinations of filters of different kinds
B01D 29/90 - Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups Filtering elements therefor having feed or discharge devices for feeding
B01D 29/92 - Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups Filtering elements therefor having feed or discharge devices for discharging filtrate
A47L 15/14 - Washing or rinsing machines for crockery or table-ware with stationary crockery baskets and spraying devices within the cleaning chamber
A47L 15/42 - Washing or rinsing machines for crockery or table-ware Details
A refrigeration apparatus is provided. The refrigeration apparatus includes a cabinet body, a first refrigeration compartment, a second refrigeration compartment, a first door body, a second door body, an ice-making assembly, an ice-retrieving assembly, an ice-transfer channel and an ice-transfer assembly. The ice-transfer channel includes a first sub-channel disposed in the first door body and a second sub-channel disposed in the second door body. The ice-transfer channel further includes a movable channel. A channel ice outlet is defined at an end of the first sub-channel close to the second sub-channel. A channel ice inlet is defined at an end of the second sub-channel close to the first sub-channel. The movable channel is configured to communicate the channel ice outlet with the channel ice inlet.
Air-conditioning apparatus; air purifying apparatus and
machines; ventilation [air-conditioning] installations and
apparatus; dehumidifiers; fans [air-conditioning]; air
sterilizers; air-source heat pump water heaters; solar water
heaters; disinfectant apparatus; radiators, electric.
A refrigeration apparatus, the refrigeration apparatus comprising a cabinet body, a first refrigeration compartment, a second refrigeration compartment, an ice-making assembly, an ice-dispensing assembly, and an ice-moving assembly. The ice-making assembly is arranged in the first refrigeration compartment, and the ice-dispensing assembly is arranged on a second door body. An ice-moving device comprises an ice-moving channel, an ice-moving portion and the ice-moving assembly, the ice-moving portion being arranged on a first door body, and the ice-moving channel comprising a first sub-channel a second sub-channel which are communicated in sequence. The first sub-channel is arranged on the first door body, and the second sub-channel is arranged on the second door body and is communicated to the ice-dispensing assembly. The first sub-channel is further communicated with the ice-moving portion. The ice-moving assembly drives ice cubes to move from the ice-moving portion towards the ice-moving channel.
Disclosed in the present application are a three-phase active PFC circuit, a circuit board, a controller, and an air conditioner. The three-phase active PFC circuit comprises an input filter module (100), a bidirectional switch module (200), a three-phase rectifier module (300) and an output filter module (400), wherein the input filter module (100) comprises three input filter inductors and three input filter capacitors; one end of each of the three input filter inductors is connected to a three-phase alternating-current power source, and the other end thereof is connected to one end of a respective one of the three input filter capacitors; the other ends of the three input filter capacitors are connected together; the bidirectional switch module (200) comprises three bidirectional controllable switches, one end of each of the three bidirectional controllable switches is connected to a connection point between a respective one of the three input filter inductors and a respective one of the three input filter capacitors, and the other end thereof is connected to an alternating-current input end of the three-phase rectifier module (300); and the output filter module (400) is connected to a direct-current output end of the three-phase rectifier module (300).
Disclosed in the present application are a three-phase active PFC circuit, a circuit board, a controller and an air conditioner. The three-phase active PFC circuit comprises an input filter module (100), a bidirectional switch module (200), a three-phase rectification module (300), an output filter module (400) and a clamping module (500). The input filter module (100) comprises three input filter inductors and three input filter capacitors; the bidirectional switch module (200) comprises three bidirectional controllable switches; one end of each of the three bidirectional controllable switches is connected to a connection point of one of the three input filter inductors and one of the three input filter capacitors, while the other ends of the three bidirectional controllable switches are respectively connected to alternating current input ends of the three-phase rectification module (300). A first clamping midpoint in the clamping module (500) is connected to an input filter neutral point in the input filter module (100) or a neutral point of a three-phase alternating current power supply.
H02M 1/42 - Circuits or arrangements for compensating for or adjusting power factor in converters or inverters
H02M 5/293 - Conversion of AC power input into AC power output, e.g. for change of voltage, for change of frequency, for change of number of phases without intermediate conversion into DC by static converters using discharge tubes with control electrode or semiconductor devices with control electrode using devices of a triode or transistor type requiring continuous application of a control signal using semiconductor devices only
H02M 7/06 - Conversion of AC power input into DC power output without possibility of reversal by static converters using discharge tubes without control electrode or semiconductor devices without control electrode
H02M 1/088 - Circuits specially adapted for the generation of control voltages for semiconductor devices incorporated in static converters for the simultaneous control of series or parallel connected semiconductor devices
68.
Food Material Thawing Method, Apparatus, Refrigeration Device, Medium And Computer Program Product
A food material thawing method, apparatus, refrigeration device, medium and computer program is disclosed according to some embodiments of the disclosure. The method is applied to a refrigeration device provided with a radio frequency thawing apparatus. The method includes: acquiring a target food-material information of a to-be-thawed food material by a sensor disposed in a refrigeration device, the target food-material information comprising a food-material type, a food-material mass and initial food-material temperature of the to-be-thawed food material; determining, based on the target food-material information, radio frequency thawing parameters corresponding to the target food-material information; and controlling the radio frequency thawing apparatus to operate under the radio frequency thawing parameters to thaw the to-be-thawed food material.
G06K 7/10 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation
G06K 7/14 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation using light without selection of wavelength, e.g. sensing reflected white light
The present application discloses a three-phase active PFC circuit, a circuit board, a controller, and an air conditioner. The three-phase active PFC circuit comprises an input filter module (100), a bidirectional switch module (200), a three-phase rectifier module (300), and an output filter module (400). The input filter module (100) comprises three input filter inductors and three input filter capacitors; one end of each of the three input filter capacitors is connected together to form an input filter neutral point; the bidirectional switch module (200) comprises three bidirectional controllable switches; the output filter module (400) comprises a first output filter capacitor and a second output filter capacitor which are connected in series, and the connection point between the first output filter capacitor and the second output filter capacitor serves as an output filter neutral point and is connected to the input filter neutral point.
The present application provides a cleaning base station and a cleaning system. The cleaning base station is used for a cleaning device, the cleaning device comprising a rolling brush. The cleaning base station comprises a base assembly, a cleaning member, and an elastic member. The base assembly is separably connected to the cleaning device, the cleaning member can move relative to the base assembly, the elastic member is connected to the base assembly, and the elastic member is used for providing an elastic force for driving the cleaning member to be pressed against at least a portion of the outer peripheral surface of the rolling brush. In the present application, by providing the elastic member to apply an elastic force to the cleaning member, the cleaning member can be pressed against the outer peripheral surface of the rolling brush of the cleaning device placed on the base assembly, such that when the rolling brush rotates for self-cleaning, the cleaning member generates an elastic pressing force on the rolling brush, reducing the gap between the cleaning member and the rolling brush generated by manufacturing and assembly, and allowing the cleaning member to fit more tightly against the rolling brush, thereby improving the self-cleaning effect of the rolling brush.
A47L 11/282 - Floor-scrubbing machines, motor-driven having rotary tools
A47L 11/40 - Parts or details of machines not provided for in groups , or not restricted to one of these groups, e.g. handles, arrangements of switches, skirts, buffers or levers
71.
Display screen or portion thereof with graphical user interface
A radio frequency thawing device includes: an RF power amplification loop configured for outputting an RF power to a tuning loop, and the tuning loop configured for an impedance matching. The method includes: identifying a food material in the radio frequency thawing device to obtain a food material information; determining a target RF power and an initial thawing time of the radio frequency thawing device according to the food material information; adjusting the initial thawing time according to a mismatch frequency or reflection coefficient of the tuning loop to obtain a target thawing time, the mismatch frequency being used to characterize a frequency degree at which the tuning loop is triggered for impedance matching, the reflection coefficient being used to characterize a power consumption degree of the RF power amplification loop; thawing the food material according to the target RF power and the target thawing.
A refrigerator dispenser may include a dispenser control that includes an integrated dispense level input sensor through which a user can indicate a desired dispense level for an automatic dispense operation performed with the refrigerator dispenser. With such a dispenser control, a user may, for example, direct user input to the dispense level input sensor to select a selected position along a substantially vertical direction, such that an automatic dispense operation may dispense a controlled level of dispense product corresponding to the selected position into a container.
A cooling appliance coupled to a cloud network to monitor unsafe temperatures and to notify a user about a quality of food stored in the cooling appliance. The cooling appliance consists of a storage space, a temperature sensor, a timer module, and a communication interface. The storage space is used to contain food. The temperature sensor is used to measure a temperature of the storage space. The timer module updates a timer with a time relative to boot-up of the cooling appliance. The communication interface is used to report the time and the temperature to the cloud network. The cloud network determines interruptions in operation of the cooling appliance as a function of the report. The communication module further sends a notification away from the cooling appliance about the quality of food after power interruptions for the cooling appliance.
A refrigeration appliance, including a body, a first refrigeration compartment, a second refrigeration compartment, an ice making assembly, an ice taking assembly, and an ice transfer device. The ice making assembly is disposed in the first refrigeration compartment. The ice taking assembly is disposed on a second door. The ice transfer device comprises an ice transfer channel, an ice transfer part, and an ice transfer assembly; the ice transfer part is disposed in the first refrigeration compartment; the ice transfer channel comprises a first sub-channel and a second sub-channel which are sequentially communicated; the second sub-channel is disposed on the second door and communicated with the ice taking assembly; the first sub-channel is communicated with the ice transfer part; the ice transfer assembly drives ice cubes to move out from the ice transfer part to the ice transfer channel.
A method or apparatus for sealing a window air conditioner in a window assembly. The sealing mechanism may include one or more members. The sealing mechanism may include one or more sealing members. The sealing mechanism may include one or more ribs. The sealing mechanism may include one or more grooves.
F24F 1/031 - Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing characterised by mounting arrangements penetrating a wall or window
77.
CONTROL METHOD FOR AIR CONDITIONER, AIR CONDITIONER, AND STORAGE MEDIUM
The present application discloses a control method for an air conditioner, an air conditioner, and a storage medium. The air conditioner comprises a refrigerant circulating system and an outdoor water receiving tray; the refrigerant circulating system comprises a compressor, an indoor heat exchanger, and an outdoor heat exchanger; the indoor heat exchanger and the outdoor heat exchanger are both connected to the compressor; a part of a refrigerant pipe between the indoor heat exchanger and the outdoor heat exchanger forms a defrost pipe; the defrost pipe is in heat exchange connection with the outdoor water receiving tray; and the outdoor water receiving tray is arranged below the outdoor heat exchanger. The method comprises: controlling the air conditioner to operate in a heating mode; acquiring an operation state of the air conditioner; and when the operation state satisfies a defrosting condition of the outdoor water receiving tray, controlling the air conditioner to operate in the heating mode and an indoor fan to operate at a low rotational speed.
Provided are a door assembly and a refrigeration device (400). The door assembly comprises a door body (310) and a second hinge (200), the door body (310) having, on the hinged side, a first slot (110) in which a first shaft (210) is inserted and a second slot (120) in which a second shaft (210) is inserted, wherein the first slot (110) is located on the front side of the second slot (120); the first slot (110) has at least one of an arc trajectory and a straight trajectory; and the distance from a starting end of the second slot (120) to a front side face (312) of the door body (310) is a third distance, the third distance being greater than or equal to 1 mm and less than or equal to 4 mm, and the distance from a terminal end of the second slot (120) to the front side face (312) of the door body (310) is a seventh distance, the seventh distance being greater than or equal to 15 mm and less than or equal to 27 mm. By arranging the first slot (110) on the front side of the second slot (120), the distance from the second slot (120) to the front side face (312) is controlled to be reduced, so that the thickness of the door body (310) is reduced.
The present application relates to the field of refrigeration, and provides a hinge assembly, a door part and a refrigeration device. The hinge assembly comprises a first hinge piece and a second hinge piece; the first hinge piece is provided with a first slot body and a second slot body; the second hinge piece is provided with a first shaft body and a second shaft body; the first shaft body is inserted into the first slot body, and is suitable for moving in the first slot body along a first trajectory and a second trajectory relative to the first slot body; and the second shaft body is inserted into the second slot body, and is suitable for moving in the second slot body along a third trajectory and a fourth trajectory relative to the second slot body. In the process of opening a door body, the first shaft body moves along the first trajectory and the second trajectory, the second shaft body moves along the third trajectory and the fourth trajectory, the distance between the first shaft body and the second shaft body in the thickness direction of the door body is gradually increased, and the maximum distance between the first shaft body and the second shaft body in the thickness direction of the door body is 8-23 mm, so that the hinge assembly can be made narrow, and can be better adapted to a thin door body.
The present application relates to the technical field of hinges. Provided are a door assembly and a refrigeration device. The door assembly comprises a door body and a second hinge member, the door body having, on the hinged side, a first slot in which a first shaft is inserted and a second slot in which a second shaft is inserted, wherein the distance from a starting end of the first slot to a front side face of the door body is greater than or equal to 1 mm and less than or equal to 4.8 mm, the distance from a first turning point of the first slot to the front side face is greater than or equal to 5 mm and less than or equal to 10 mm, and the distance from a terminal end of the first slot to the front side face is greater than or equal to 3 mm and less than or equal to 10 mm; and the distance from a starting end of the second slot to the front side face of the door body is greater than or equal to 1 mm and less than or equal to 4 mm, and the distance from a terminal end of the second slot to the front side face is greater than or equal to 15 mm and less than or equal to 27 mm. In the door assembly of the present application, the distance from the first slot to the front side face and the distance from the second slot to the front side face are reduced, so that the thickness of the door body is reduced, and the door assembly is suitable for ultrathin doors and inset doors.
A refrigeration apparatus, including a box body, a first refrigeration compartment, a second refrigeration compartment, an ice-making assembly, an ice-taking assembly, an ice-moving device and a sealing assembly. The ice-making assembly is arranged on the first refrigeration compartment; the ice-taking assembly is arranged on a second door body; the ice-moving device includes an ice-moving channel, an ice-moving portion and an ice-moving assembly. The ice-moving portion is arranged in the first refrigeration compartment, and the ice-moving channel includes a first sub-channel, a middle channel and a second sub-channel, the second sub-channel being arranged on the second door body and being in communication with the ice-taking assembly, the first sub-channel being in communication with the ice-moving portion, the middle channel being arranged inside the box body or a first door body, and the ice-moving assembly driving ice blocks to move out from the ice-moving portion to the ice-moving channel.
CHONGQING MIDEA GENERAL REFRIGERATION EQUIPMENT CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hu, Shande
Yang, Bin
Qiao, Fei
Peng, Yibin
Zhang, Pengfei
Zhou, Yufan
Abstract
A control method and apparatus for a magnetic levitation compressor, an electronic device and a storage medium. The control method comprises: in response to shutdown of a magnetic levitation compressor, acquiring the rotating direction of a rotor; on the basis of the operating state of the magnetic levitation compressor and the rotating direction being the reverse direction, acquiring the rotating speed of the rotor; on the basis of the rotating speed being greater than a first threshold value and not greater than a second threshold value, acquiring a delayed levitation stop duration corresponding to the rotating speed of the rotor; on the basis of a rotation duration of the rotor reaching the delayed levitation stop duration, controlling the rotor to stop levitating; and, on the basis of the rotating speed being greater than the second threshold value, controlling a frequency converter to brake the magnetic levitation compressor. The control method does not need to use valve body members to prevent reverse rotation of rotors of magnetic levitation compressors, thus improving the control stability for magnetic levitation compressors and the operation reliability of magnetic levitation compressors.
F04D 17/10 - Centrifugal pumps for compressing or evacuating
H02H 7/08 - Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions for dynamo-electric motors
A rack for an appliance such as a dish washing appliance. Deployment of the rack may allow the user to become aware of the presence of the rack within the dish washing appliance. At least one rack is positionable from a stowed position to at least one deployed position. The rack may be deployed or actuated with a door and/or a second rack. The door and/or second rack may carry, force, or actuate the rack to a deployed position. The deployed position of the rack may not be a fully deployed position of the rack.
A system of controlling flow of condensate in the air conditioner by incorporating a solenoid valve in the path of a drain line. The system includes a tray which collects the condensate dripping from coils and a pump which drains the condensate through a condensate egress. The solenoid valve fluidly couples the condensate to the condensate egress when in the first position. The solenoid valve fluidly couples the condensate to a coil in the second position, whereby the condensate is configured to cool the coil when the valve is in the second position during normal operation.
CHONGQING MIDEA GENERAL REFRIGERATION EQUIPMENT CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Cui, Zhankui
Abstract
An air conditioning unit and a control method therefor, and an electronic device and a storage medium. The air conditioning unit comprises a plurality of compressors which are connected in series. The method comprises: acquiring the current operating parameters of an air conditioning unit, and determining the current load; when the current operating parameters are within an operation range corresponding to a preset data mesh, determining total operating parameters of the air conditioning unit on the basis of the current load; on the basis of the total operating parameters, determining operating efficiencies of the air conditioning unit under different operating parameter combinations, so as to determine a maximum operating efficiency, wherein each operating parameter combination comprises operating parameters of each compressor, and the operating efficiencies corresponding to each compressor under different operating parameters are different; and controlling the air conditioning unit on the basis of the operating parameter combination corresponding to the maximum operating efficiency.
The present application discloses a power supply circuit for indoor and outdoor units of an air conditioner, an air conditioner, a control method, and a medium, said power supply circuit comprising a first power line (100), a second power line (200), a signal line (300), an indoor side circuit (400), and an outdoor side circuit (500). The indoor side circuit (400) comprises an indoor control module (410), an indoor communications module (420), an indoor power supply module (430), and an indoor switching module (440) that is controlled by the indoor control module (410) to close and open. The outdoor side circuit (500) comprises an outdoor control module (510), an outdoor communications module (520), an outdoor power supply module (530) for converting a power supply and storing electrical energy, and an outdoor switching module (540) that is controlled by the outdoor control module (510) to close and open.
F24F 11/64 - Electronic processing using pre-stored data
F24F 11/61 - Control or safety arrangements characterised by user interfaces or communication using timers
F24F 11/54 - Control or safety arrangements characterised by user interfaces or communication using one central controller connected to several sub-controllers
Centrifugal machines; washing machines [laundry]; laundry
washing machines incorporating a drying tumbler; spin dryers
[not heated]; wringing machines for laundry; dry-cleaning
machines; coin-operated washing machines; dishwashers;
dishwasher racks being parts of dishwashing machines;
kitchen machines, electric; vacuum cleaners; rechargeable
sweepers; electric cordless sweepers; household cleaning and
laundry robots with artificial intelligence; steam engines;
wrapping machines; electric fruit peelers; milk filtering
machines; kneading machines; food preparation machines,
electromechanical; bread cutting machines; condensed milk
making machines; fish paste making machines; fruit washing
machines; flour mill machines; dairy machines; butter
machines; churns; cheese making machines; electric fruit
squeezers; meat choppers, electric; electric food blenders;
meat mincers, electric; centrifugal mills; electric food
grinders; mixing machines; mills [machines]; beverage
preparation machines, electromechanical; juice extractors,
electric; food processors, electric; pepper mills, other
than hand-operated; coffee grinders, other than
hand-operated; vegetable spiralizers, electric; kitchen
grinders, electric; whisks, electric, for household
purposes; electric food blenders for household purposes;
beaters, electric; can openers, electric; dust removing
installations for cleaning purposes; snow ploughs; car
washing machines; waste disposal units; cleaning appliances
utilizing steam; machines and apparatus for cleaning,
electric; automated washers for surgical, medical and
laboratory equipment; brushes for vacuum cleaners. Dehumidifiers; air sterilisers; heat pumps; air conditioning
apparatus; air purifying apparatus and machines; ventilation
[air-conditioning] installations and apparatus; disinfectant
apparatus; heating installations; underfloor heating
apparatus and installations; air-source heat pump water
heaters; fireplaces, domestic; pressure water tanks;
thermostatic valves [parts of heating installations]; water
heaters; refrigerators; wine refrigerators; refrigerating
cabinets; ice machines and apparatus; heating and cooling
apparatus for dispensing hot and cold beverages; beverage
cooling apparatus; freezers; refrigerators, cooling
apparatus and freezers for medical storage purposes; drying
apparatus and installations; wine cellars, electric;
refrigerating chambers; walk-in refrigerators; refrigerating
containers; coolers, electric; cooling installations and
machines; cooling appliances and installations;
refrigerating display cabinets; heated display cabinets;
beer brewing machines, electric, for household purposes;
cooling installations for liquids; refrigerating appliances
and installations; laundry dryers, electric; water purifying
apparatus and machines; chilled purified water dispensers;
electric hot water dispensers; cooking ranges; extractor
hoods for kitchens; ionization apparatus for the treatment
of air or water; heaters for baths; water softening
apparatus and installations; ventilation hoods; kitchen
ranges [ovens]; water purification installations; cookers;
gas burners; filters for drinking water; microwave ovens
[cooking apparatus]; food steamers, electric; steam
generating installations; roasting apparatus; roasters;
bread baking machines; smokers [cooking apparatus]; cooking
ovens; induction cookers; electric cooktops; electric rice
cookers; pressure cookers, electric; fans
[air-conditioning]; radiators, electric; coffee machines,
electric; humidifiers; air conditioning installations;
filters for air conditioning; fans [parts of
air-conditioning installations]; air filtering
installations; air cooling apparatus; ventilation
[air-conditioning] installations for vehicles; air
conditioners for vehicles; steam cabinets for the treatment
of clothing; coffee machines incorporating water purifiers;
coffee roasters; coffee percolators, electric; lamps;
electric refrigerators for household purposes; cooking
installations; cooking apparatus; electric water heating
apparatus; hot water heating installations; bath
installations; purification installations for sewage;
kettles, electric; water supply installations.
88.
AIR PURIFICATION APPARATUS AND AIR TREATMENT DEVICE
An air purification apparatus and an air treatment device. The air purification apparatus comprises: a housing that has insulating properties and is provided with a first cavity having a wall surface on which a first mounting hole is formed, wherein the inner surface of the first cavity is provided with a mounting part; a light-emitting part connected to the housing and arranged outside the first cavity; and an ion generation assembly, comprising: a first electrode that is connected to the mounting part, extends out of the first cavity from the first mounting hole, is not in contact with the inner surface of the first mounting hole, and is configured to load negative voltage; and a second electrode that is connected to the housing, is arranged outside the first cavity, is spaced from the first electrode, and is configured to be connected to a reference ground. The first electrode and the second electrode are jointly used for ionizing air to generate plasma, and the light-emitting part is configured to emit light when the ion generation assembly ionizes the air.
F24F 8/30 - Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by ionisation
F24F 8/192 - Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by electrical means, e.g. by applying electrostatic fields or high voltages
F24F 8/20 - Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation
F24F 1/0076 - Indoor units, e.g. fan coil units with means for purifying supplied air by electric means, e.g. ionisers or electrostatic separators
A refrigerator includes a cabinet with one or more food compartments and one or more doors closing the food compartments and an ice maker located in the cabinet to produce ice. The ice maker includes a mold body for forming ice, the mold body having multiple cups, where each cup has an opening for receiving water to be frozen within the cup. The ice maker further includes a thermally conductive component located near a bottom surface of the cups. The thermally conductive component includes at least one heater that provides heat to the plurality of cups, so that the thermally conductive can distribute heat and facilitate a release of ice from the plurality of cups.
An HVAC cassette unit mounting bracket assembly includes a mounting bracket and a side panel. The mounting bracket includes a first leg and a second leg. The second leg includes one or more inner tabs and second leg holes. The side panel includes one or more first cutouts and first panel holes, one or more second cutouts and second panel holes. A bottom of each cutout is adjacent to a corresponding panel hole. Each first cutout is configured to receive an inner tab. The corresponding first panel hole is configured to be coupled to a second leg hole when the mounting bracket is mechanically coupled to a ceiling joist through ceiling drywall. Each second cutout is configured to receive an inner tab. The corresponding second panel hole is configured to be coupled to a second leg hole when the mounting bracket is mechanically coupled directly to the ceiling joist.
A dryer filter assembly includes a body having a distal end and a proximal end and further defining a frame that receives a filter. The dryer filter assembly further includes a plurality of receptacles, with each of the distal end of the body and the proximal end of the body defining at least one of the plurality of receptacles. A plurality of containers are releasably received by the plurality of receptacles, and a sweeper mechanism is slidably coupled to the body, such that the sweeper mechanism may translate in a longitudinal direction between the distal end and the proximal end of the body. Translation of the sweeper mechanism between the distal end and the proximal end of the body forces particulate accumulated on the filter to be disposed in at least one of the plurality of containers.
B01D 46/00 - Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
B01D 46/681 - Regeneration of the filtering material or filter elements inside the filter by means acting on the cake side involving movement with regard to the filter elements by scrapers, brushes or the like
D06F 34/20 - Parameters relating to constructional components, e.g. door sensors
D06F 103/42 - Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers related to filters or pumps
D06F 105/58 - Indications or alarms to the control system or to the user
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Xin, Jun
He, Futian
Zhang, Ye
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Gou, Jian
Abstract
The present application relates to the field of water softening and provides a resin tank assembly and a water softening device. The resin tank assembly comprises a tank body, a water passage plate, a central pipe, and an adapter, wherein the tank body has an accommodating cavity and a tank opening in communication with the accommodating cavity; the water passage plate is installed at the end of the tank body close to the tank opening, and the water passage plate has a soft water channel and an adapter base in communication with the soft water channel; the central pipe is arranged in the accommodating cavity, and a first end of the central pipe passes through the tank opening; and the adapter is connected between the first end of the central pipe and the adapter base, and a water guide cavity in communication with the soft water channel and the central pipe is defined between the adapter and the adapter base. The present application achieves simplified connection between the water passage plate and the central pipe, reduces flow rate variation at the adaption position between the water passage plate and the central pipe, and improves the soft water discharge efficiency of the water softening device.
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Xin, Jun
Zhang, Ye
He, Futian
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Gou, Jian
Abstract
The present application relates to the technical field of soft water, and provides a fixed disc for a water softener valve, a water softener valve, and a water softener. The water softener comprises the water softener valve, a resin assembly, and a brine draw and drain device. The water softener valve comprises a fixed disc; the fixed disc comprises a disc body and a partitioning structure; the partitioning structure is arranged in the disc body, and divides the radial plane of the disc body into at least one partition; and each partition is provided with a water passing hole. By means of the partitioning structure, the radial plane of the disc body is divided into at least one partition. The design of the fixed disc achieves a relatively simple structure, is conducive to manufacturing and machining, can improve the structural strength of the disc body, and reduces the risk of deformation and damage, thereby prolonging the service life of the fixed disc.
F16K 11/074 - Multiple-way valves, e.g. mixing valvesPipe fittings incorporating such valvesArrangement of valves and flow lines specially adapted for mixing fluid with all movable sealing faces moving as one unit comprising only sliding valves with pivoted closure members with flat sealing faces
F16K 27/04 - Construction of housingsUse of materials therefor of sliding valves
F16K 27/08 - Guiding yokes for spindlesMeans for closing housingsDust caps, e.g. for tyre valves
F16K 31/04 - Operating meansReleasing devices electricOperating meansReleasing devices magnetic using a motor
F16K 31/53 - Mechanical actuating means with toothed gearing
F16K 3/30 - Gate valves or sliding valves, i.e. cut-off apparatus with closing members having a sliding movement along the seat for opening and closing Details
F16K 3/314 - Forms or constructions of slidesAttachment of the slide to the spindle
C02F 1/42 - Treatment of water, waste water, or sewage by ion-exchange
C02F 5/00 - Softening waterPreventing scaleAdding scale preventatives or scale removers to water, e.g. adding sequestering agents
94.
WATER MIXING METHOD FOR WATER SOFTENER, AND WATER SOFTENER VALVE AND WATER SOFTENER
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Xin, Jun
Zhang, Ye
He, Futian
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Hu, Chenghuan
Feng, Zaifeng
Zheng, Yuedong
Gao, Peng
Abstract
The present application relates to the technical field of water softening. Provided are a water mixing method for a water softener, and a water softener valve and a water softener. The water softener is provided with a first water path and a second water path, wherein the water quality of water flowing through the first water path and the water quality of water flowing through the second water path are different. The water mixing method comprises the following steps: acquiring a water mixing instruction; on the basis of the water mixing instruction, determining a water mixing proportion corresponding to the water mixing instruction; controlling a first water path and a second water path to communicate, adjusting the water path flow ratio between the first water path and the second water path on the basis of the water mixing proportion, and discharging mixed water. The communication of the first water path and the second water path is controlled on the basis of the water mixing instruction, and the water path flow ratio between the two water paths is adjusted, thereby achieving a desired water mixing proportion. In this way, the water softener can effectively mix water flows having different water qualities, thereby meeting specific water quality requirements of users, and providing mixed water outputs that meet the requirements, and the water quality can be flexibly and precisely controlled, thereby supplying high-quality mixed water to the users.
F16K 11/074 - Multiple-way valves, e.g. mixing valvesPipe fittings incorporating such valvesArrangement of valves and flow lines specially adapted for mixing fluid with all movable sealing faces moving as one unit comprising only sliding valves with pivoted closure members with flat sealing faces
F16K 27/04 - Construction of housingsUse of materials therefor of sliding valves
F16K 27/08 - Guiding yokes for spindlesMeans for closing housingsDust caps, e.g. for tyre valves
F16K 31/04 - Operating meansReleasing devices electricOperating meansReleasing devices magnetic using a motor
F16K 31/53 - Mechanical actuating means with toothed gearing
F16K 3/30 - Gate valves or sliding valves, i.e. cut-off apparatus with closing members having a sliding movement along the seat for opening and closing Details
F16K 3/314 - Forms or constructions of slidesAttachment of the slide to the spindle
C02F 1/42 - Treatment of water, waste water, or sewage by ion-exchange
C02F 5/00 - Softening waterPreventing scaleAdding scale preventatives or scale removers to water, e.g. adding sequestering agents
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hu, Chenghuan
Hao, Zhipeng
Feng, Zaifeng
Cheng, Baoyou
He, Futian
Xin, Jun
Zhang, Chao
Liao, Yumin
Gou, Jian
Zheng, Yuedong
Gao, Peng
Abstract
The present application relates to the technical field of water purification devices, and provides a water softener. The water softener comprises a machine body and a water leak detection sensor. A bottom shell of the machine body is provided with a water collecting part to form a water collecting area. The water leak detection sensor is detachably disposed within the water collecting area via a limiting structure, and a positive electrode probe and a negative electrode probe of the water leak detection sensor face the bottom shell. The present application can realize functions such as water collection and water leak detection, thereby achieving the purpose of water leak protection and improving user experience.
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
He, Futian
Xin, Jun
Zhang, Ye
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Hu, Chenghuan
Feng, Zaifeng
Zheng, Yuedong
Gao, Peng
Abstract
The present application relates to the technical field of water softening, and provides a resin tank assembly and a water softening device. The resin tank assembly comprises a shell, a tank body, and a water path member; the shell is arranged in the form of a frame, and an accommodating chamber is formed inside the shell; at least one tank body is arranged in the accommodating chamber side by side, and the tank body is provided with an accommodating cavity and a tank opening in communication with the accommodating cavity; and the water path member is provided with at least one side-by-side communication port corresponding to the tank body, and the at least one communication port is communicated with the corresponding tank opening, so that the water path member is communicated with the at least one tank body. The present application improves the flexibility of the size of the water softening device, so that the width and length of the water softening device can be controlled more conveniently, thereby improving the space utilization rate of the water softening device and achieving the miniaturization design of the water softening device, and thus improving the applicability of the water softening device.
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Liu, Huachun
Xin, Jun
Zhang, Ye
He, Futian
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Ni, Xiaobing
Zhao, Weidong
Abstract
The present application relates to the technical field of water treatment devices, and provides a water softener valve system, and a water softener. The valve system comprises a control valve, an adapter assembly and a flow channel assembly; the control valve is used for controlling water path switching; the adapter assembly is connected to the control valve; the flow channel assembly is provided with a mounting opening used for mounting a resin tank, and the flow channel assembly is connected to the adapter assembly, so as to control a flow direction of a water path in the resin tank. The present application, by means of independently arranging a control valve, an adapter assembly and a flow channel assembly, simplifies the overall structure of a water path component part, reducing the preparation difficulty of the water path component part. Furthermore, by means of independent connection of each part, the overall structure can be simplified, and the space occupied by the overall structure can be reduced.
F16K 11/074 - Multiple-way valves, e.g. mixing valvesPipe fittings incorporating such valvesArrangement of valves and flow lines specially adapted for mixing fluid with all movable sealing faces moving as one unit comprising only sliding valves with pivoted closure members with flat sealing faces
F16K 27/04 - Construction of housingsUse of materials therefor of sliding valves
F16K 27/08 - Guiding yokes for spindlesMeans for closing housingsDust caps, e.g. for tyre valves
F16K 31/04 - Operating meansReleasing devices electricOperating meansReleasing devices magnetic using a motor
F16K 31/53 - Mechanical actuating means with toothed gearing
F16K 3/30 - Gate valves or sliding valves, i.e. cut-off apparatus with closing members having a sliding movement along the seat for opening and closing Details
F16K 3/314 - Forms or constructions of slidesAttachment of the slide to the spindle
C02F 1/42 - Treatment of water, waste water, or sewage by ion-exchange
C02F 5/00 - Softening waterPreventing scaleAdding scale preventatives or scale removers to water, e.g. adding sequestering agents
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Zhang, Ye
Xin, Jun
He, Futian
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Hu, Chenghuan
Feng, Zaifeng
Zheng, Yuedong
Gao, Peng
Abstract
Disclosed are a soft water control valve (100) and a water softener. The soft water control valve (100) comprises a valve body (110), a rotating disc assembly (120), a driving motor (130), a first gear (131), and a second gear (140); at least one water channel (114) is provided in the valve body (110); the rotating disc assembly (120) is inserted into the valve body (110), and the rotating disc assembly (120) can rotate relative to the valve body (110) so as to switch the water channel (114); the first gear (131) is connected to the driving motor (130), the second gear (140) is meshed with the first gear (131), and the transmission ratio of the first gear (131) to the second gear (140) is greater than 1; the second gear (140) is fixedly connected to the rotating disc assembly (120) so as to drive the rotating disc assembly (120) to rotate; the driving motor (130) drives the first gear (131) and the second gear (140) to rotate, so as to drive the rotating disc assembly (120) to rotate to adjust the water channel (114) in the valve body (110), thereby simplifying the transmission structure and the control process. The transmission ratio of the first gear (131) to the second gear (140) is greater than 1, so that the torque of the motor (130) is amplified to provide sufficient torque to resist the pressure of water in the water channel (114), thereby improving the motion fluency of the rotating plate assembly (120), and improving the control precision of the soft water control valve (100).
F16K 11/074 - Multiple-way valves, e.g. mixing valvesPipe fittings incorporating such valvesArrangement of valves and flow lines specially adapted for mixing fluid with all movable sealing faces moving as one unit comprising only sliding valves with pivoted closure members with flat sealing faces
F16K 31/04 - Operating meansReleasing devices electricOperating meansReleasing devices magnetic using a motor
F16K 31/53 - Mechanical actuating means with toothed gearing
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Hu, Chenghuan
Hao, Zhipeng
Feng, Zaifeng
Cheng, Baoyou
He, Futian
Xin, Jun
Zheng, Yuedong
Gao, Peng
Zhang, Chao
Liao, Yumin
Gou, Jian
Abstract
The present application relates to the technical field of water treatment and provides a water softener. The water softener comprises a housing, a resin tank, and a salt box, wherein the housing comprises a plurality of detachably connected housing plates; the resin tank is arranged in the housing; the salt box is arranged in the housing, and the salt box is located on the front side of the resin tank; and the housing plates are detachably connected to the outer side of at least one of the resin tank and the salt box. In the water softener proposed by the present application, the salt box and the resin tank are arranged in a front-to-back parallel configuration, such that the width of the water softener can be reduced, and the water softener is thinner; in addition, at least one of the resin tank and the salt box is detachably connected to the housing plates, the housing plates have better mounting stability and are convenient to dismount and mount, so that a water softener which is ultrathin and has a small volume, is easy and convenient to mount, and has good structural stability is provided.
FOSHAN SHUNDE MIDEA WATER DISPENSER MFG CO., LTD. (China)
MIDEA GROUP CO., LTD. (China)
Inventor
Zhang, Ye
Xin, Jun
He, Futian
Liu, Huachun
Zhu, Yunbo
Peng, Jing
Liao, Yumin
Li, Zhonghua
Liu, Xiaowen
Gou, Jian
Abstract
The present application relates to the technical field of water treatment devices, and provides a water softener. The water softener comprises a water softening valve, a connection assembly, a water path assembly, and resin tanks. The water softening valve comprises a valve body, a valve element assembly, a driving part, and a transmission mechanism. Both the valve element assembly and the driving part are disposed within the valve body, and the driving part is in transmission connection with the valve element via the transmission mechanism. The connection assembly is in communication with the water softening valve and is located at one side of the water softening valve. The connection assembly is provided with a drain passage. The driving part is configured to drive the transmission mechanism to act, so as to control opening of the drain passage. The water path assembly is in communication with the connection assembly, and is used to guide the flow of water. The resin tanks are used to soften water flowing therethrough. In the present application, a driving apparatus is employed to drive the transmission mechanism to act, so that the transmission mechanism can control the valve element to control water-path switching, and can control the opening of passages within the connection assembly, thereby enabling full control of the entire water path, simplifying control logic, improving control efficiency, reducing the number of control devices, and lowering the failure rate of the water path control assembly.
