Hair drying appliance control elaboration process, elaboration system, drying method, and associated hair drying assembly The present invention relates to a process for elaborating controls of a hair drying appliance (10), implemented by a control elaboration system, the process being characterized by the following step: - determining (104) a control mode of the hair drying appliance (10), using at least one characteristic parameter of a user's hair determined using information representative of a user's hair.
The hair drying assembly has a hair drying appliance (4) comprising an air flow generator (8) and/or one or more hairdressing element(s) (10A, 10B, 10C), a detection system (40) configured to generate a detection signal indicative of the presence of an object in the proximity of an air outlet (18) of the hair drying appliance (4), and an electronic control unit (54) configured, in at least one operating mode, to vary the electric power supply of the air flow generator (8) and/or the electric power supply of at least one amongst the hairdressing element(s) (10A, 10B, 10C) according to the detection signal.
The present disclosure discloses a drying apparatus (10), comprising a housing (11) with an air inlet (111), the drying apparatus (10) further comprises: an airflow generating element (14) configured to effect an airflow within the housing (11), wherein an airflow direction downstream of the airflow generating element (14) is a first direction; an air guide (12) coupled to the housing (11) and located upstream of the airflow generating element (14); wherein the air guide (12) comprises a plurality of sub-portions (121), and each sub-portion (121) comprises a ventilation part (1212) through which the airflow passes and an air guiding part (1211) configured to guide the airflow to the ventilation part (1212); wherein the air inlet (111) is configured to guide the airflow entering the housing (11) from the air inlet (111) to each of the air guiding parts (1211).
The present disclosure discloses a heating element (10) and a drying apparatus (100). The heating element (10) comprises a core column assembly (11), wherein an outer wall of the core column assembly (11) is configured with a recess (114); a plurality of supporting elements (12), each supporting elements (12) is configured on the core column assembly (11) and extends radially along an airflow channel; a heater (13), wherein the heater (13) surrounds outer edges of the plurality of supporting elements; a fuse (15), wherein the fuse (15) is located in the recess (114) and is configured to disconnect the heater (13) when a temperature exceeds a threshold.
Provided are an attachment (10) and a drying assembly (100). The attachment (10) is mounted on a drying device (20), and the drying device (20) is capable of outputting airflow and infrared radiation; the attachment (10) comprises a mounting portion (11), an airflow portion (12), and a flow guide member (13); the mounting portion (11) is used for mounting onto the drying device (20), and the airflow portion (12) has an air inlet (a), a flow guide cavity (121), and an air outlet (b); a hollowed-out portion (c) is formed between the airflow portion (12) and the mounting portion (11), the flow guide member (13) is located within the flow guide cavity (121), and the mounting portion (11) and the airflow portion (12) are connected to one another via a first connecting member (141).
The present application provides a drying device (10) comprising a housing (11), the housing (11) is provided with a first air inlet (111), a second air inlet (112) and an air outlet (116) which are independent from one another. A main air duct, an auxiliary air duct, a wind generation assembly (12) and a radiation assembly (13) are arranged in the housing (11). The upstream of the main air duct is in communication with the first air inlet (111), and the downstream of the main air duct is in communication with the air outlet (116). The upstream of the auxiliary air duct is in communication with the first air inlet (111) and the second air inlet (112), and the downstream of the auxiliary air duct is in communication with the main air duct. The wind generation assembly (12) is mounted in the main air duct and is used for generating an air flow. The radiation assembly (13) is at least partially located in the auxiliary air duct and is used for generating infrared radiation.
Disclosed in the present application is a drying device (10), comprising a housing (11) having an air inlet (111), and further comprising an airflow assembly (14) for forming an airflow in the housing (11), the direction of the airflow downstream of the airflow assembly (14) being a first direction; and an air guide structure (12), the air guide structure (12) being mounted on the housing (11) and being located upstream of the airflow assembly (14), the air guide structure (12) comprising a plurality of sub-portions (121), each sub-portion (121) having a ventilation portion (1212) allowing airflow to flow therethrough and an air guide portion (1211) for guiding airflow to the ventilation portion (1212); the air inlet (111) is configured such that the airflow entering the housing (11) from the air inlet (111) is directed to the air guide portions.
The present application discloses an attachment (10) and a drying assembly (100), wherein the attachment (10) comprises a mounting portion (11) and an air flow portion (12); the mounting portion (11) is configured to be mounted on a drying device (20); and the air flow portion (12) is provided with an air inlet, a flow guide cavity (121) and an air outlet, is of an integrally-formed structure, and is configured as that: at the air outlet, the air flow portion (12) is provided with a single layer of sidewall (122) in a radial direction; in at least part of the remaining area, the air flow portion (12) is provided with multiple layers of sidewalls (123) in the radial direction; and a thermal insulation cavity (124) is formed between adjacent sidewalls among the multiple layers of sidewalls (123).
A heating assembly (10) and a drying device (100). The heating assembly (10) comprises: a core column assembly (11), the outer wall of the core column assembly (11) being provided with a recess (114); a plurality of supporting pieces (12), the supporting pieces (12) being mounted on the core column assembly (11) and extending along the radial direction of an airflow channel (20); a heater (13), the heater (13) surrounding the outer edges of the plurality of supporting pieces (12); and a fuse (15), the fuse (15) being located in the recess (114) and being configured to cut off the circuit of the heater (13) when the temperature is higher than a threshold value.
A drying apparatus (10) comprises a housing (11), the housing (11) comprising a first air inlet (111), a second air inlet (112) and an air outlet (116) that are independent of each other, and the housing (11) is configured with a primary airflow channel, an auxiliary airflow channel, an airflow generating element (12) and a radiation element (13). An upstream of the primary airflow channel communicates with the first air inlet (111), and its downstream communicates with the air outlet (116); an upstream of the auxiliary airflow channel communicates with the first air inlet (111) and the second air inlet (112), and its downstream communicates with the primary airflow channel; the airflow generating element (12) is within the primary airflow channel and is configured to generate an airflow; and the radiation element (13) is at least partially within the auxiliary airflow channel and configured to generate infrared radiation.
The disclosure discloses an accessory (10) and a drying assembly (100), wherein the accessory (10) comprises a mounting portion (11) and an airflow portion (12), the mounting portion (11) is configured to be attached to the drying apparatus (20), and the airflow portion (12) comprises an air inlet, a guide chamber (121), and an air outlet. The airflow portion (12) is an integral molding structure, and comprises: a single-layer sidewall (122) at the air outlet along a radial direction, a multi-layer sidewall (123) in at least other parts along a radial direction, and a thermal insulation chamber (124) between layers of a multi-layer sidewall.
An accessory device (10) and a drying assembly (100) are provided. The accessory device (10) is installed in the drying apparatus (20) and the drying apparatus (20) is capable of emitting airflow and infrared radiation, and the accessory device (10) comprises a mounting portion (11), an airflow portion (12) and a guide component (13), the mounting portion (11) is configured for mounting to the drying apparatus, and the airflow portion (12) comprises an air inlet. The guide chamber (121) and the air outlet form a hollow portion between the airflow portion (12) and the mounting portion (11), and the guide component (13) is configured in the guide chamber (121), wherein the mounting portion (11) and the airflow portion (12) are connected to each other by a first connector (141).
F26B 3/28 - Procédés de séchage d'un matériau solide ou d'objets impliquant l'utilisation de chaleur par radiation, p. ex. du soleil
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
F26B 3/30 - Procédés de séchage d'un matériau solide ou d'objets impliquant l'utilisation de chaleur par radiation, p. ex. du soleil à l'aide d'éléments émettant des rayons infrarouges
The present application discloses a mounting seat (12) and a drying device (10). The drying device (10) comprises an airflow channel (13) and one or more radiation sources (15). The mounting seat (12) comprises a mounting portion (121) and a hollowed-out portion (122), and the mounting portion (121) can be used for mounting the radiation source (15); in any cross section of the mounting seat (12) perpendicular to a first axis (m), the hollowed-out portion (122) extends from a first edge (123) of the mounting seat (12) to a second edge (124) thereof.
The present disclosure discloses mounting seat (12) and drying apparatus (10), the drying apparatus (10) having an airflow channel (13) and one or more one or more radiation sources (15). The mounting seat (12) comprises a mounting portion (121) and a hollow portion (122), the mounting portion (121) being available for mounting of the one or more radiation sources (15); and in any of the perpendiculars of the mounting seat (12) to the first axis (m) in section, the hollow portion (122) extends from a first edge (123) of the mounting seat (12) to a second edge (124).
An accessory (11), a drying apparatus (12), a drying assembly (10), and a method of controlling the same, wherein the accessory (11) comprises a main body and a first storage module (114), a first communication module (115) configured on the main body, the main body being capable of being detachably attached to the drying apparatus (12) and the main body allowing an airflow to pass through; the first communication module (115) communicating with the drying apparatus (12) and transmits data stored in the first storage module (114) to select, add, delete, or modify at least one of one or more operation modes of the drying assembly (10).
A drying apparatus (10) and a control method, wherein the drying apparatus (10) comprises: an airflow generating element (11), a heating element (12), a barometer (13) and a main control module (14). The airflow generating element (11) is configured to generate an airflow. The heating element (12) is configured to heat the airflow. The barometer (13) is configured to obtain an ambient pressure. The main control module (14), coupled to the heating element (12), and the barometer (13), is configured to adjust the power of the heating element (12) according to the ambient pressure.
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
F26B 21/10 - Commande, p. ex. régulation des paramètres de l'alimentation en gaz de la températureCommande, p. ex. régulation des paramètres de l'alimentation en gaz de la pression
17.
ATTACHMENTS AND DRYING APPARATUSES HAVING THE ATTACHMENTS
The present disclosure directs to an attachment configured to be operably coupled to a drying apparatus that includes a radiation energy source assembly. The attachment may have a radiation inlet and a radiation outlet. The attachment may include a radiation adjusting assembly configured to output second radiation through the radiation outlet by adjusting at least one radiation parameter of first radiation. The first radiation may be generated by the radiation energy source assembly of the drying apparatus and enter the attachment through the radiation inlet, and a radiation power of the first radiation may be at least 5 watts.
A drying device (10), comprising a housing (11). A first air channel (a), a second air channel (b), a wind power assembly (12), and a radiation assembly (13) are arranged in the housing (11); airflow in the first air channel (a) flows out of the housing (11) from an airflow channel (111), and at least part of the airflow in the first air channel (a) comes from the outside of the second air channel (b); the wind power assembly (12) comprises a motor (121), for generating airflow in the first air channel (a) and/or the second air channel (b); the radiation assembly (13) comprises a first portion (131) and a second portion (132); the first portion (131) forms at least part of the airflow channel (111), or the airflow channel (111) is installed on the first portion (131); and the second portion (132) exchanges heat with airflow in the second air channel (b).
A power supply circuit structure (100), a drying device (200), a power supply kit (1000) and a power supply method. The power supply circuit structure (100) is connected to a power supply (300) and supplies power to a radiation source (21), the power supply (300) provides an alternating current signal which changes periodically, the radiation source (21) can radiate light of a preset frequency band, and the power supply circuit structure (100) comprises a main control circuit (11) and a signal conduction circuit (12). The main control circuit (11) receives and detects the alternating current signal and generates a control signal with the same frequency as the alternating current signal according to the preset frequency band, and the control signal comprises a zero-amplitude part. The signal conduction circuit (12) receives the alternating current signal and the control signal and generates an output signal, the amplitude of the output signal is zero at the zero-amplitude part of the control signal, and the amplitude of the output signal corresponds to the amplitude of the alternating current signal at other parts of the control signal; and when the output signal is input, the radiation source (21) is used for radiating light of the preset frequency band.
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
H02M 7/04 - Transformation d'une puissance d'entrée en courant alternatif en une puissance de sortie en courant continu sans possibilité de réversibilité par convertisseurs statiques
H02H 7/20 - Circuits de protection de sécurité spécialement adaptés aux machines ou aux appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou de ligne, et effectuant une commutation automatique dans le cas d'un changement indésirable des conditions normales de travail pour équipement électronique
A flow control device (10) and a liquid delivery device (100). The flow control device (10) comprises an outer housing (11) and a sub-pipe (12) located inside the outer housing (11), and a gap space (113) for liquid to flow through is formed between the inner wall of the outer housing (11) and the outer wall of the sub-pipe (12). The outer housing (11) comprises a first input end (111) and a first output end (112), and the first input end (111), the gap space (113), and the first output end (112) form a first channel for liquid to flow through; the outer housing (11) is internally provided with a sealing structure (13) for enabling the first channel to be communicated or blocked; the sub-pipe (12) comprises a second input end (121) and a second output end (122), and the second output end (122) is located inside the first input end (112) and is flush with the first output end (112) or extends out of the first output end (112); and the sub-pipe (12) forms a second channel for liquid to flow through.
An accessory, a drying device, a drying assembly, and a control method. The accessory (11) comprises a main body, and a first storage module (114) and a first communication module (115), which are installed on the main body, wherein the main body can be detachably installed on a drying device (12), and the main body can allow an air flow to pass therethrough; and the first communication module (115) communicates with the drying device (12) and transmits data in the first storage module (114), so as to perform at least one operation of selection, addition, deletion and modification of one or more working modes of the drying device (10).
A drying apparatus (10) and a control method. The drying apparatus (10) comprises: a wind power assembly (11), a heating assembly (12), an air pressure module (13) and a main control module (14); the wind power assembly (11) is used for generating an air flow; the heating assembly (12) is used for heating the air flow; the air pressure module (13) is used for acquiring the ambient air pressure; the main control module (14) is connected to the heating assembly (12) and the air pressure module (13), and the main control module (14) is configured to adjust the heating power of the heating assembly (12) according to the ambient air pressure.
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing configured to provide an airflow channel having an airflow inlet and an airflow outlet, an airflow generating element configured to generate an airflow through the airflow channel, and one or more radiation energy sources configured to generate infrared radiation and direct the infrared radiation toward an exterior of the housing. A device controller can control the operation of the airflow generating element and the one or more radiation energy sources, and a power element controller in connection with the device controller can control the operation of the power element that can provide power at least to the radiation energy source and the airflow generating element.
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
G01P 5/12 - Mesure de la vitesse des fluides, p. ex. d'un courant atmosphériqueMesure de la vitesse de corps, p. ex. navires, aéronefs, par rapport à des fluides en mesurant des variables thermiques en utilisant la variation de la résistance d'un conducteur chauffé
25.
ATTACHMENTS AND DRYING APPARATUSES HAVING ATTACHMENTS
An attachment (200) configured to be operably coupled to a drying apparatus (100) that includes a radiation energy source assembly (104) is provided. The attachment (200) may have a radiation inlet and a radiation outlet. The attachment (200) may include a radiation adjusting assembly (201) configured to output second radiation through the radiation outlet by adjusting at least one radiation parameter of first radiation. The first radiation may be generated by the radiation energy source assembly (104) of the drying apparatus (100) and enter the attachment (200) through the radiation inlet, and a radiation power of the first radiation may be at least 5 watts.
An accessory (100), a drying device (200) and a drying assembly (1000). The accessory (100) comprises a radiation adjustment portion (10), configured to adjust at least one parameter of at least part of exit light emitted by the drying device (200), wherein the parameter comprises at least one of the power density, transmission path and light field distribution of radiation.
A drying device (100), comprising a housing (12), a motor (14) and a plurality of heating sources. An air duct (20) is provided inside the housing (12). The air duct (20) is provided with an airflow inlet (22) and an airflow outlet (24). The motor (14) is arranged in the housing (12) and is used for forming airflow in the air duct (20). At least one heating source is provided in the housing (12), located on the downstream of the air duct (20), and arranged proximity to the airflow outlet (24), and at least one heating source is provided in the housing (12) and located on the upstream of the air duct (20).
Hair dryers; Electric hair dryers; Hair driers for use in beauty salons; Hair drying appliances; Hand held hair dryers; Nozzles, diffusors and other attachments for hair dryers; Holders adapted for hair dryers; Bags and cases adapted for hand-held electric hair dryers.
A drying device (100) and a control method. The drying device (100) comprises a power source (10), a radiation source (20), an operation assembly (30) and a locking unit (40). The radiation source (20) is electrically connected to the power source (10). The operation assembly (30) is used for controlling the power source (10) to be connected with the radiation source (20). The locking unit (40) is used for enabling the drying device (100) to enter a safe mode. In the safe mode, the radiation source (20) is disconnected from the power source (10), and does not respond to the operation assembly (30).
A charging base (100) , an apparatus (200) to be charged, a charging kit (400), and a charging method. The charging base (100) is electrically connected to an apparatus (200) to be charged; the charging base (100) comprises a first charging interface (10); the first charging interface (10) comprises first access contacts (11) and charging contacts (12); the charging base (100) is electrically connected to a charging power supply (300) and charges said apparatus (200) by means of the charging contacts (12); when said apparatus (200) is not successfully connected to the first access contacts (11), the charging contacts (12) and the charging power supply (300) are disconnected; and when said apparatus (200) is successfully connected to the first access contacts (11), the charging contacts (12) and the charging power supply (300) are connected.
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
H02J 7/02 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries pour la charge des batteries par réseaux à courant alternatif au moyen de convertisseurs
H01M 10/42 - Procédés ou dispositions pour assurer le fonctionnement ou l'entretien des éléments secondaires ou des demi-éléments secondaires
31.
POWER SUPPLY CIRCUIT STRUCTURE, DRYING DEVICE, POWER SUPPLY KIT AND POWER SUPPLY METHOD
A power supply circuit structure (100), a drying device (200), a power supply kit (1000) and a power supply method. The power supply circuit structure (100) is connected to a power supply (300) and supplies power to a radiation source (21), the power supply (300) provides an alternating current signal which changes periodically, the radiation source (21) can radiate light of a preset frequency band, and the power supply circuit structure (100) comprises a main control circuit (11) and a signal conduction circuit (12). The main control circuit (11) receives and detects the alternating current signal and generates a control signal with the same frequency as the alternating current signal according to the preset frequency band, and the control signal comprises a zero-amplitude part. The signal conduction circuit (12) receives the alternating current signal and the control signal and generates an output signal, the amplitude of the output signal is zero at the zero-amplitude part of the control signal, and the amplitude of the output signal corresponds to the amplitude of the alternating current signal at other parts of the control signal; and when the output signal is input, the radiation source (21) is used for radiating light of the preset frequency band.
An electric motor mounting rack (11), an electric motor assembly (10) and a drying device (100). The electric motor mounting rack (11) comprises a housing (111), a plurality of vibration damping members (112) and a plurality of clamping members (113). The housing (111) is used for accommodating an electric motor (12). One end of each vibration damping member (112) is connected to the housing (111), and each vibration damping member (112) can generate elastic deformation when stressed. Each clamping member (113) is connected to an end of one vibration damping member (112) away from the housing (111), and the clamping members (113) are used for being detachably connected to an external structure.
A drying device (100). The drying device (100) is provided with a main air duct (101) and a first air duct (102), which communicates with the main air duct (101). The drying device (100) comprises a heating assembly (10) and a first flow-guiding member (20), wherein the heating assembly (10) can generate thermal radiation and form a hot spot area (103); at least a part of the first flow-guiding member (20) is located in the main air duct (101); and the first flow-guiding member (20) is used for guiding a part of airflow, which is in the main air duct (101), to the first air duct (102), and enabling the airflow flowing through the first air duct (102) to flow to the hot spot area (103).
A drying device (100), comprising: a housing (10), an air duct (40) being provided in the housing (10); a wind component (20) located in the housing (10) and used for generating an airflow in the air duct (40); a silencing structure (60) located in the air duct (40) and formed with a resonant cavity (602), micro holes (604) in communication with the air duct (40) being formed in a side wall (610) of the silencing structure (60); and a power supply (50) electrically connected to the wind component (20).
A radiation source assembly (300) and a drying apparatus (100). A light-emitting member (304) comprises a pin (308); a reflector cup (302) accommodates part of the light-emitting member (304); the pin (308) extends out of a base (310) of the reflector cup (302); a circuit board (306) is welded to the pin (308), and the circuit board (306) is electrically connected to the light-emitting member (304); and a vibration damping structure (318) is connected to the base (310) of the reflector cup (302) and the circuit board (306), and the vibration damping structure (318) is configured to damp vibrations, in a radial direction and an axial direction, at the position where the circuit board (306) and the pin (308) are connected to each other.
A hair dryer (100). The hair dryer comprises a housing (10), a fan (20) and a heat source (30). A main air duct (11) and an auxiliary air duct (12) are disposed in the housing (10), the auxiliary air duct (12) comprises multiple sub-air ducts spaced apart, and an air inlet (111) of the main air duct (11) and an air inlet (125) of the auxiliary air duct (12) are disposed independently. The fan (20) is disposed in the main air duct (11) and is used to form an air flow in the main air duct (11) and the multiple sub-air ducts. The heat source (30) is disposed in the housing (10), and an air flow formed by at least one sub-air duct passes through the heat source (30).
Apparatuses and methods for drying an object are provided. An apparatus (700) for drying an object may include a first airflow channel (704) that has an airflow inlet and an airflow outlet. The apparatus (700) may also include one or more radiation energy sources (703) configured to provide thermal radiation toward the object. The apparatus (700) may also include an airflow generating element (702) configured to provide an airflow by effecting the airflow into the first airflow channel (704) through the airflow inlet and direct a first portion of the airflow in the first airflow channel (704) toward the airflow outlet. The apparatus (700) may further include an airflow guide assembly (705) configured to provide a second airflow channel(706) through which a second portion of the airflow in the first airflow channel (704) is guided to a target region. The target region abuts at least one of the one or more radiation energy sources (703).
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
A45D 20/10 - Dispositifs de séchage à main, p. ex. séchoirs à air
F26B 3/30 - Procédés de séchage d'un matériau solide ou d'objets impliquant l'utilisation de chaleur par radiation, p. ex. du soleil à l'aide d'éléments émettant des rayons infrarouges
Apparatuses and methods for drying an object are provided. An apparatus for drying an object may include a first airflow channel that has an airflow inlet and an airflow outlet. The apparatus may also include one or more radiation energy sources configured to provide thermal radiation toward the object. The apparatus may also include an airflow generating element configured to provide an airflow by effecting the airflow into the first airflow channel through the airflow inlet and direct a first portion of the airflow in the first airflow channel toward the airflow outlet. The apparatus may further include an airflow guide assembly configured to provide a second airflow channel through which a second portion of the airflow in the first airflow channel is guided to a target region. The target region abuts at least one of the one or more radiation energy sources.
F26B 3/30 - Procédés de séchage d'un matériau solide ou d'objets impliquant l'utilisation de chaleur par radiation, p. ex. du soleil à l'aide d'éléments émettant des rayons infrarouges
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
The present disclosure directs to apparatus. The apparatus may comprise an airflow channel, an airflow generating element configured to effect an airflow through the airflow channel, and a resonance chamber disposed in the airflow channel and configured to reduce sound that is caused by the airflow. The resonance chamber may include a side wall extending along an axis of the airflow channel, and a plurality of pores in at least a portion of the side wall. The plurality of pores may be configured to allow at least a portion of the airflow in the airflow channel to traverse the side wall.
A motor (10) and a drying device (100). The motor (10) comprises a stator (11), a rotor (12), and an electrical connection assembly (13). The rotor (12) can generate airflow flowing in an air channel (111) of the stator (11). The electrical connection assembly (13) comprises a first connecting plate (131) and a second connecting plate (132) which are electrically connected, the first connecting plate (131) is electrically connected to the stator (11), and the second connecting plate (132) spans the air channel (111) and extends out of the outer side of the stator (11).
H02K 9/06 - Dispositions de refroidissement ou de ventilation par l'air ambiant s'écoulant à travers la machine comportant des moyens pour établir la circulation d'un agent de refroidissement avec des ventilateurs ou des dispositifs d'entraînement mûs par l'arbre de la machine
H02K 5/24 - EnveloppesEnceintesSupports spécialement adaptés pour la réduction ou à la suppression des bruits ou vibrations
H02K 11/30 - Association structurelle à des circuits de commande ou à des circuits d’entraînement
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing configured to provide an airflow channel having an airflow inlet and an airflow outlet, an airflow generating element configured to effect an airflow through the airflow channel, and one or more radiation energy sources configured to generate infrared radiation and direct the infrared radiation toward an exterior of the housing. At least a portion of at least one of the one or more radiation energy sources does not contact the airflow channel or the airflow, thereby maintaining an operating temperature of the radiation energy source within a predetermined range.
A radiation source (11), a drying device (2) and a reflective seat (5). The radiation source (11) can produce infrared radiation, the infrared radiation emitted by the radiation source (11) has at least two convergence positions (a1, a2), and the connecting line of the convergence positions (a1, a2) is parallel or coincident with an optical axis (L1) of the radiation source (11). The radiation power originally converged at one position is dispersed into a use area (C) with a larger range, such that the radiation source (11) can achieve a preset drying efficiency in the use area (C), the problem of accurate convergence positions (a1, a2) being difficult to find during the use of the radiation source (11) is solved, and the risk of rapid temperature rise caused when a target object is just positioned at the convergence positions (a1, a2) can be avoided.
The present application discloses a radiation assembly, a drying device, and a reflective base. The radiation assembly comprises a plurality of radiation sources arranged according to a preset pattern, and light-emitting surfaces of the plurality of radiation sources are located on a same plane. Each of the radiation sources is configured such that: emergent light and a first axis intersect at a preset position; and the first axis is located inside or outside the preset pattern. According to the radiation assembly, the drying device, and the reflective base, infrared radiation and air flow are simultaneously present at the preset position, and a target is dried by means of the air flow and the infrared radiation at the same time; and when the target absorbs the infrared radiation and is heated, heat is dissipated under the action of the air flow, so that a high-temperature danger caused by rapid heating of the target can be avoided. Therefore, the use of a radiation source having sufficient power can avoid rapid heating of the target on the premise of achieving rapid drying of the target, so that the drying device using the radiation source can have better product performance.
Disclosed in the present invention is a battery cell assembly, comprising an adapter plate and multiple soft package battery cells. The multiple soft package battery cells are stacked on the two sides of the adapter plate; and the surface of each side of the adapter plate is coupled with positive and negative electrodes of the soft package battery cell on the same side of the adapter plate only on the surface of the side. Further disclosed in the present invention are a battery module comprising the battery cell assembly, and a handheld electrical device using the battery module. The battery cell assembly and the battery module of the present invention are high in space utilization rate and large in volume energy density. When the battery module is applied to the handheld electrical device, the size and weight of the handheld electrical device are facilitated to be reduced, and the portability, aesthetics, and holding comfort of the handheld electrical device are improved.
H01M 50/204 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules
H01M 10/42 - Procédés ou dispositions pour assurer le fonctionnement ou l'entretien des éléments secondaires ou des demi-éléments secondaires
H01M 50/502 - Interconnecteurs pour connecter les bornes des batteries adjacentesInterconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie
H01M 50/244 - Boîtiers secondairesBâtisDispositifs de suspensionDispositifs de manutentionSupports caractérisés par leur procédé de montage
H01M 50/247 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports spécialement adaptés aux dispositifs portatifs, p. ex. aux téléphones portables, aux ordinateurs, aux outils à main ou aux stimulateurs cardiaques
H01M 50/258 - Batteries modulairesBoîtiers pourvus de moyens d’assemblage
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing configured to provide an airflow channel having an airflow inlet and an airflow outlet, an airflow generating element configured to effect an airflow through the airflow channel, and one or more radiation energy sources configured to generate infrared radiation and direct the infrared radiation toward an exterior of the housing. At least a portion of at least one of the one or more radiation energy sources does not contact the airflow channel or the airflow, thereby maintaining an operating temperature of the radiation energy source within a predetermined range.
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing configured to provide an airflow channel having an airflow inlet and an airflow outlet, an airflow generating element configured to generate an airflow through the airflow channel, and one or more radiation energy sources configured to generate infrared radiation and direct, the infrared radiation toward an exterior of the housing. A device controller can control the operation of the airflow generating element and the one or more radiation energy sources, and a power element controller in connection with the device controller can control the operation of the power element that can provide power at least to the radiation energy source and the airflow generating element.
A45D 20/12 - Leurs parties constitutives ou accessoires, p. ex. buses, supports
G01P 5/12 - Mesure de la vitesse des fluides, p. ex. d'un courant atmosphériqueMesure de la vitesse de corps, p. ex. navires, aéronefs, par rapport à des fluides en mesurant des variables thermiques en utilisant la variation de la résistance d'un conducteur chauffé
hair dryers; bags and cases specially adapted for holding or carrying hand-held electric hair dryers; accessories for hair dryers, namely, diffusers, smoothing nozzles, and concentrator nozzles; parts and fittings all for hair dryers; cordless hair dryers; hand-held electric hair dryers; hand dryers; hand drying apparatus for washrooms; hand and face dryers; electric hand dryers; heat exchangers not being part of a machine
Hair dryers; Electric hair dryers; Hair driers for use in beauty salons; Hair drying appliances; Hand held hair dryers; Nozzles, diffusors and other attachments for hair dryers; Holders adapted for hair dryers; Bags and cases adapted for hand-held electric hair dryers; Hand dryers; Electric hand dryers; Electrically powered warm air face dryers; Electric radiant heaters [for household purposes]; Halogen heaters; Infrared radiators; Infrared heating panels.
Electric fruit squeezers for household purposes; Dry cleaning machines; Vacuum cleaners; Cordless vacuum cleaners; Robotic vacuum cleaners; Fruit washing machines; Dishwashers; Dishwasher racks being parts of a dishwasher; Domestic washing machines; 3D printers; Crushing machines; Driving motors, other than for land vehicles; Filtering machines; Food processors, electric; Friezing machines; Industrial robots; Machines and apparatus for cleaning, electric; Machines and apparatus for wax-polishing, electric; Mixing machines; Satinizing machines; Sifting machines. Shaving blades; Shaving cases; Cases adapted for razors; Hair cutting and removal implements; Hair styling appliances; Electric irons for styling hair; Electric hair straighteners; Electric hair cutters; Electric hair braiders; Electric hair trimmers; Electric hair curling irons; Non-electric hair clippers; Electric hair clippers; Nail files, electric; Nail files, non-electric; Electric irons; Electric steam irons. Exhaust hoods for kitchens; Faucets; Automatic faucets; Light bulbs; Electric hand dryers; Water boilers; Lamps; Electrical lamps; Electric kettles; Air purification apparatus; Infrared lamps; Fabric steamers; Hair dryers; Sterilizers; Ultrasonic sterilizers for household purposes; Water purifiers; Water purification installations; Water filters; Stoves for heating; Sterilizers for toothbrushes; Electric heaters; Water dispensers; Electric laundry dryers; Apparatus for heating; Toilets; Refrigerators; Bathroom installations.
Hair dryers; Electric hair dryers; Hair driers for use in beauty salons; Hair drying appliances; Hand held hair dryers; Nozzles, diffusors and other attachments for hair dryers; Holders adapted for hair dryers; Bags and cases adapted for hand-held electric hair dryers; Hand dryers; Electric hand dryers; Electrically powered warm air face dryers; Heat exchangers, not parts of machines; Electric space heaters; Electric radiant heaters [for household purposes]; Portable electric heaters; Halogen heaters; Infrared radiators; Infrared heating panels; Infrared illuminators.
Apparatuses and methods for drying objects are provided. The apparatus for drying objects can be a hair dryer. The apparatus for drying hair can be provided with a plurality of sensors to measure parameters of the user's hair, the surrounding environment and/or operation of the apparatus. The apparatus for drying hair can give tactile feedback to the user if, for example, the user holds the apparatus too close to the hair or a malfunction is detected in the apparatus, such that the user can adjust or stop operating the apparatus.
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing configured to provide an airflow channel having an airflow inlet and an airflow outlet, an airflow generating element configured to effect an airflow through the airflow channel, and one or more radiation energy sources configured to generate infrared radiation and direct the infrared radiation toward an exterior of the housing. At least a portion of at least one of the one or more radiation energy sources does not contact the airflow channel or the airflow, thereby maintaining an operating temperature of the radiation energy source within a predetermined range.
A drying device (100), comprising a housing (10), an electric motor (20) and a radiation source (30). An air channel (40) is arranged in the housing (10); the electric motor (20) is located in the housing (10) and is used for generating an airflow in the air channel (40); and the radiation source (30) is contained in the housing (10) and is used for generating infrared radiation and guiding the infrared radiation to outside of the housing (10), wherein the radiation source (30) comprises a first portion and a second portion, the first portion is located outside the air channel (40), and the second portion is connected to the first portion and exchanges heat with the air channel (40).
A drying apparatus (01), comprising a heat radiation source (100) used for heat radiation, so as to transmit heat to a material to be dried; an air supply unit (200) used for generating an airflow in a working state, so as to convey the airflow to the material; and a main control unit (300) used to control the working states of the air supply unit (200) and the heat radiation source (100), and control the drying apparatus (01) to stop running when it is detected that an abnormality has occurred in the drying apparatus (01). A power supply module (400) of the drying apparatus (01).
Apparatuses and methods for drying objects are provided. The apparatus for drying objects can be a hair dryer where an infrared radiation source used as the heating element. The infrared radiation source can emit infrared energy having predetermined wavelength range and power density to heat and remove water from the hair. The heat carried by the infrared energy is directly transferred to the object in a radiation heat transfer manner, such that a heat transfer efficiency is improved as compared with the conventional convective heat transfer manner. Therefore a compact, lightweight battery operated hair dryer can be realized.
Apparatuses and methods for drying objects are provided. The apparatus can comprise a housing (101, 601) configured to provide an airflow channel (107, 607) having an airflow inlet and an airflow outlet, an airflow generating element (102, 602) configured to generate an airflow through the airflow channel (107, 607), and one or more radiation energy sources (103, 603) configured to generate infrared radiation and direct the infrared radiation toward an exterior of the housing (101, 601). A device controller (1501) can control the operation of the airflow generating element (102, 602) and the one or more radiation energy sources (103, 603), and a power element controller (1601) in connection with the device controller (1501) can control the operation of the power element (1510) that can provide power at least to the radiation energy source (103, 603) and the airflow generating element (102, 602).
A drying device (100), comprising: a housing (10), a motor (20), a radiation source (30), and a heat dissipation structure (80). The housing (10) is internally provided with an air duct (40); the motor (20) is located inside the housing (10) and is configured to produce airflow in the air duct (40); the radiation source (30) is accommodated in the housing (10) and is configured to generate infrared radiation and guide the infrared radiation to the outside of the housing (10); the radiation source (30) transfers heat by means of the heat dissipation structure (80); and the heat dissipation structure (80) is disposed between the radiation source (30) and other components of the drying device (100).
A drying device (100) comprises a housing (10), a motor (20), and multiple radiation sources (30). An air duct (40) is provided in the housing (10). The motor (20) is located in the housing (10), and is used to generate an airflow in the air duct (40). The multiple radiation sources (30) are accommodated in the housing (10), and are used to generate infrared radiation and guide the infrared radiation to the outside of the housing (10). The multiple radiation sources (30) are configured such that the infrared radiation generated by the multiple radiation sources (30) forms at least one light spot at a certain distance from an airflow outlet (404) of the air duct (40).
Systems and methods for removing contaminants from an object are provided. The system can comprise a container (110) having an interior space configured to receive therein at least the object; at least one imaging sensor (310, 410) configured to capture an image of at least a portion of the object; one or more processors (320, 420) individually or collectively configured to recognize the object based on the image; and a contaminant removal unit (340, 440) configured to remove the contaminant from the object based at least in part on the recognized object. The object to be cleaned can be recognized by an imaging sensor (310, 410), and the property of the object can be determined by using an auxiliary sensor and/or accessing a database (330, 430) with less or no user input. Therefore, the object can be cleaned with an optimized cleaning procedure having customized parameters which are capable of removing the contaminants with improved efficiency and thoroughness.
A47L 15/46 - Systèmes de commande automatique des opérations successives du nettoyage
A47L 15/00 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table
G06K 9/00 - Méthodes ou dispositions pour la lecture ou la reconnaissance de caractères imprimés ou écrits ou pour la reconnaissance de formes, p.ex. d'empreintes digitales
G06K 17/00 - Méthodes ou dispositions pour faire travailler en coopération des équipements couverts par plusieurs des groupes principaux , p. ex. fichiers automatiques de cartes incluant les opérations de transport et de lecture
Disclosed is a storage rack (30), which is used for charging one or more electric toothbrushes (10). The storage rack (30) is internally provided with a storage battery (34), each electric toothbrush (10) is internally provided with a toothbrush battery (14), the storage battery is used for charging the toothbrush battery, and the storage battery (34) is used for charging via an external power source.
hair dryers; bags and cases specially adapted for holding or carrying hand-held electric hair dryers; accessories for hair dryers, namely, diffusers, smoothing nozzles, and concentrator nozzles; parts and fittings all for hair dryers, namely, diffusers; cordless hair dryers; chargers for hair dyers; hand-held electric hair dryers; hand dryers; hand drying apparatus for washrooms; hand and face dryers; electric hand dryers; heat exchangers not being part of a machine; electric space heaters; electric radiant heaters for household purposes; portable electric heaters; halogen heaters; infrared radiators not for motors and engines; infrared heating panels, namely, heating panels used for indoor heating purposes; infrared illuminators for drying purpose; infrared lamps for drying purpose
