An ice making assembly includes a resilient mold defining a mold cavity (204)for forming one or more ice cubes, a mold frame(210) being rotatable between a first position and a second position, a lifter mechanism (222)positioned adjacent to the resilient mold and rotatable with the mold frame(210) between the first position and the second position, the lifter mechanism (222)configured to deform the resilient mold as the mold frame (210)rotates between the first position and the second position, and a sweep assembly (250)to facilitate extraction of the one or more ice cubes from the resilient mold. The sweep assembly(250) includes a sweep blade (252)slidably mounted to the mold frame (210)over the resilient mold and being movable between a first position and a second position and a mechanical stop (270)that moves the sweep blade (252)toward the second position as the lifter mechanism(222) moves toward the second position.
F25C 1/10 - Producing ice by using rotating or otherwise moving moulds
F25C 1/243 - Moulds made of plastics, e.g. silicone
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
The present application relates to the technical field of household appliances, and discloses a door body assembly, comprising a main door, an auxiliary door, a handle and a clamping block assembly. The auxiliary door is rotatably arranged on the main door by means of an auxiliary door hinge, and the auxiliary door hinge comprises an auxiliary door hinge shaft arranged on the auxiliary door. The handle is movably arranged on the auxiliary door. The clamping block assembly comprises a first clamping block and a second clamping block, and the first clamping block and the second clamping block are oppositely arranged on two sides of the auxiliary door hinge shaft. Additionally, the present application further discloses a refrigeration device.
The present application relates to the field of electrical appliances, and specifically discloses a refrigeration device. The refrigeration device comprises a box body, a chamber formed in the box body, and a pull-out mechanism connecting the box body to a door body. The pull-out mechanism comprises a sliding rail provided on the box body, a first support in sliding fit with the sliding rail along a front-to-rear direction, and a second support connected to a front side of the first support, the door body being rotatably connected to the second support. When using the present application, the door body can first rotate at a slight angle relative to the second support, so as to create a gap between one side of the door body and the box body in the height direction of the door body that places the interior and the exterior of the chamber in communication, so that the air pressure inside and outside the chamber can be balanced, thereby reducing a door opening force.
The present application relates to the technical field of household appliances, and discloses a control method for a kettle. The kettle comprises: a kettle body, wherein a water storage cavity is configured inside the kettle body; a float disposed inside the water storage cavity and movable in accordance with a water level in the water storage cavity, wherein a float magnet is disposed on the float; a magnetic sensing device used for monitoring a first magnetic induction intensity in response to the float magnet; a gravity sensing device used for monitoring the weight of the kettle; a water injection pipe used for injecting water into the water storage cavity, wherein a water injection valve is disposed on the water injection pipe. The method comprises: when the kettle body is at a reference position, controlling the gravity sensing device to continuously monitor the weight of the kettle; controlling the magnetic sensing device to continuously monitor the first magnetic induction intensity in response to the float magnet; and on the basis of the weight of the kettle and the first magnetic induction intensity, controlling opening and closing of the water injection valve. The present application further discloses a control device for a kettle, a kettle, a refrigerator, and a computer-readable storage medium.
A refrigerator includes a beverage preparation module, the beverage preparation module includes a storage portion, an ice water portion, a carbonated water portion, and an output portion. The storage portion for placing ingredients to prepare beverages of different flavors; the ice water portion for providing ice water; the carbonated water portion for obtaining ice water from the ice water portion and preparing carbonated water based on the ice water; and the output portion connected to the ice water part and/or the carbonated water part, for controlling the flow of carbonated water or ice water through the storage portion to dispense beverages of different flavors.
B67D 1/00 - Apparatus or devices for dispensing beverages on draught
B01F 23/236 - Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages
F25D 23/04 - DoorsCovers with special compartments, e.g. butter conditioners
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
6.
Inter-pipe fixing member, Evaporator, and Refrigerator
An inter-pipe fixing member, an evaporator and a refrigerator. The inter-pipe fixing member includes a fixing portion, which is provided with at least two fixing grooves, wherein each fixing groove is configured to be adapted to a pipeline, and the at least two fixing grooves are adapted to different pipelines, and/or the at least two fixing grooves are adapted to different sections of the same pipeline. The inter-pipe fixing member realizes fixing between different pipelines and/or different sections of the same pipeline, and when the inter-pipe fixing member is applied to the evaporator, it can be ensured that the pipelines of the evaporator are kept at a certain distance, thereby avoiding collisions.
F16L 3/22 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets specially adapted for supporting a number of parallel pipes at intervals
An embedded refrigeration device (1000), comprising a cabinet (100) and a refrigeration device (200). The refrigeration device (200) comprises a compressor compartment (23) arranged at the rear lower portion of the refrigeration device (200). The compressor compartment (23) comprises an inner space and a bottom plate (24) arranged below the inner space. The cabinet (100) comprises a support plate (13) located below the space. The rear portion of the support plate (13) is provided with a first air opening (131). The front portion of the bottom plate (24) is provided with a second air opening. A space is present between the support plate (13) and the bottom plate (24) and forms a first air channel. An accommodation space is provided with a first air path. The first air path sequentially passes through the first air channel and the second air opening from the first air opening (131) to be communicated with the inner space.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 17/08 - 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 using ducts
A method for detecting the ice-making state of a refrigerator (1). The refrigerator (1) comprises: an ice storage device (10), which is configured to store ice cubes; and an ice-making device (20), which comprises an ice detection rod (201), an electric motor (202) and an ice flipper (203), wherein the ice detection rod (201) is configured to detect ice cubes in the ice storage device (10), the electric motor (202) is configured to control the movement of the ice detection rod (201), and the ice flipper (203) is configured to flip ice cubes to pour same into the ice storage device (10). The method comprises: once the ice flipper (203) has flipped ice cubes, controlling the ice detection rod (201) to move from the initial position to the bottom of the ice storage device (10); acquiring detection information of the ice detection rod (201) and the current of the electric motor (202) during movement of the ice detection rod (201); and on the basis of the detection information of the ice detection rod (201) and the current of the electric motor (202), determining the ice-making state of the refrigerator (1). An apparatus for detecting the ice-making state of the refrigerator (1), and the refrigerator (1).
Disclosed are a refrigeration apparatus, and an embedded refrigeration device provided with same. The refrigeration apparatus comprises a box body, and a compressor chamber arranged at a rear lower portion of the box body. The box body comprises a pair of side walls, the compressor chamber comprises a rear cover located behind an internal space thereof, one side wall is provided with a first air inlet, the end of the rear cover close to the first air inlet is provided with a second air inlet, the end of the compressor chamber away from the first air inlet is provided with an air outlet, and the first air inlet, the second air inlet and the air outlet are all in communication with the internal space.
A capillary tube plier includes a first clamping arm, a second clamping arm, a first pressing portion, and a second pressing portion. The first end of the first clamping arm and the first end of the second clamping arm extend oppositely to each other to form first pivot portions for allowing the first and second clamping arms to rotate relative to each other. The first pressing portion is provided at the second end of the first clamping arm, forming a first pressing surface at the protruding position. The second pressing portion is provided at the second end of the second clamping arm, forming a second pressing surface at the protruding position. The extension length of the first pivot portion of the first clamping arm is substantially equal to the protruding length of the first pressing surface from the first clamping arm; similarly for the second clamping arm.
B25B 7/12 - PliersOther hand-held gripping tools with jaws on pivoted limbsDetails applicable generally to pivoted-limb hand tools involving special transmission means between the handles and the jaws, e.g. toggle levers, gears
A door body assembly (02) and a refrigeration apparatus. The door body assembly (02) is applied to the refrigeration apparatus, and the refrigeration apparatus comprises a box body (01). The door body assembly (02) comprises a main door (11) and an auxiliary door (12), wherein the main door (11) is rotationally arranged on the box body (01); the auxiliary door (12) is rotationally arranged on the main door (11) by means of an auxiliary door hinge; and the auxiliary door hinge comprises an auxiliary door hinge shaft (31) arranged on the auxiliary door (12), the auxiliary door hinge shaft (31) being movably arranged on the auxiliary door (12).
E05C 7/06 - Fastening devices specially adapted for two wings for wings which abut when closed a fastening device for one wing being actuated or controlled by closing another wing
The present application discloses a door body component and a refrigerator apparatus. The door body component comprises a door body, a door plate capable of being slidably connected to the door body, and an assembly component used for assembling the door body and the door plate; the assembly component comprises a base, a sliding element slidably connected to the base, and a positioning workpiece detachably matched with the base and the sliding element; the positioning workpiece comprises a first pre-positioning structure, the sliding element comprises a second pre-positioning structure matched with the first pre-positioning structure, and the positioning workpiece and the sliding element are assembled at a pre-set position to match with the base. The positioning accuracy of component assembling is improved.
A silencing device (100) and a refrigeration and freezing device. The silencing device (100) comprises: a silencing body, wherein a through hole (101) penetrating through the silencing body is formed in the side wall of the silencing body, and the hole diameter Φ of the through hole (101) is equal to nP, wherein n is a preset coefficient, and P is the stable power of a compressor (301). In the silencing device (100), a hole diameter calculation formula for the through hole (101) of the silencing device (100) is provided and can be used as a design standard, and the calculation mode can adapt to different types of refrigeration and freezing devices.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F04B 39/00 - Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups
F04B 39/14 - Provisions for readily assembling or disassembling
The present disclosure provides a fixing apparatus for a refrigerator compressor, an engagement member, and a refrigerator. The fixing apparatus comprises a fixing column, a foot pad and an engagement member. The fixing column comprises a mounting column, a small diameter column, an end block and a positioning column, which are sequentially arranged from bottom to top. The diameters of the mounting column and the end block are both larger than the diameter of the small diameter column, so that an annular recess is formed at the small diameter column of the fixing column. The foot pad is mounted on the mounting column. The engagement member comprises an upper press plate, a lower press plate, and a transition portion connected to the upper press plate and the lower press plate. The upper press plate is provided with a positioning hole. The lower press plate is provided with an opening extending through the end of the lower press plate away from the transition portion. When the small diameter column is inserted into the opening, the positioning column is sleeved in the positioning hole, so that the end block is sandwiched between the upper press plate and the lower press plate. The lower press plate and the foot pad are spaced apart, and the end block is sandwiched between the upper press plate and the lower press plate of the engagement member, such that after being fixed, the engagement member does not vibrate due to loosening of engagement at the opening of the lower press plate, and does not cause abrasion of the foot pad or press the foot pad, causing the foot pad to deform.
F04B 39/00 - Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups
15.
CONDENSATION REMOVAL APPARATUS, METHOD AND APPARATUS FOR CONTROLLING CONDENSATION REMOVAL APPARATUS, AND REFRIGERATOR
A condensation removal apparatus, a method and apparatus for controlling a condensation removal apparatus, and a refrigerator. The condensation removal apparatus comprises: a refrigerant circulation line (1), comprising a compressor (5), a condenser (6) and an evaporator (7). A condensation removal tube (2) is disposed between the condenser (6) and the evaporator (7), and is configured to be in an operating state when a refrigerant flows through the condensation removal tube (2). The condensation removal tube (2) is in a non-operating state when no refrigerant flows therethrough. A fan (3) is disposed one side of the condenser (6), and is configured to be controlled to turn on or off, the fan (3) being used to dissipate heat of the condenser (6) when turned on. An electromagnetic valve (4) is disposed between the condenser (6) and the condensation removal tube (2), and is configured to be controlled to open a first valve or a second valve. When the first valve is opened, the electromagnetic valve (4) causes refrigerant to flow through the condensation removal tube (2). When the second valve is opened, the electromagnetic valve (4) causes refrigerant to not flow through the condensation removal tube (2).
A refrigeration device and a defrosting method of a refrigeration device. The refrigeration device comprises a freezing compartment (10), a refrigeration compartment (20), an evaporator compartment (1), and an evaporator (3) arranged in the evaporator compartment (1), and the evaporator compartment (1) is arranged at the bottom of the freezing compartment (10). The refrigeration device further comprises a refrigeration air return duct (2), a part of the refrigeration air return duct (2) is arranged at the bottom of the evaporator compartment (1) and extends from back to front to be arranged under the evaporator (3), and a refrigeration air return port (211) is located under the front end of the evaporator (3).
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
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
The present application provides an embedded refrigeration device, comprising a cabinet, a refrigerator and a plurality of limiting pieces, the refrigerator being mounted within an accommodating cavity and provided with two front supporting legs located at the bottom, the limiting pieces being arranged on a bottom wall of the accommodating cavity and provided with limiting grooves, each limiting piece comprising a main body portion and a first auxiliary portion which are connected along the width direction of the cabinet, each limiting groove comprising a first part at least partially located on the main body portion, the front supporting legs being at least partially located in the first parts.
QINGDAO HAIER SPECIAL REFRIGERATOR CO., LTD. (China)
HAIER SMART HOME CO., LTD. (China)
Inventor
Xia, Cong
Cheng, Xueli
Liu, Fei
Bian, Xiangsheng
Abstract
A drawer assembly and a refrigeration device. The drawer assembly comprises a drawer body (10), a partition plate assembly (20), and an extendable plate (21). The partition plate assembly (20) is slidably disposed in the drawer body (10) and is used to separate a dry zone (13) and a humid zone (14), and a mounting interlayer is disposed within the partition plate assembly (20). The extendable plate (21) is slidably disposed in the mounting interlayer of the partition plate assembly (20). The extendable plate (21) can slide along a preset path in the mounting interlayer to extend out of the mounting interlayer and abut against a side wall surface of the drawer body (10), or the extendable plate can retract into the mounting interlayer and be separated from the side wall surface of the drawer body, so that a user can adjust the sizes of the dry zone (13) and the humid zone (14) themself, thereby improving the user experience.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
F25D 29/00 - Arrangement or mounting of control or safety devices
19.
FRESH-KEEPING DEVICE FOR REFRIGERATOR, AND REFRIGERATOR
A fresh-keeping device (10) for a refrigerator, and a refrigerator. The fresh-keeping device (10) comprises an air extraction device (10b) and at least one fresh-keeping unit (10a). Each fresh-keeping unit (10a) comprises: a fresh-keeping box (11), which has a fresh-keeping space (111) defined therein; and an air delivery assembly (14), which is detachably connected between the air extraction device (10b) and the fresh-keeping box (11), such that when in a first state in which the air delivery assembly is connected to the air extraction device (10b) and the fresh-keeping box (11), the air delivery assembly brings the air extraction device (10b) into communication with the fresh-keeping space (111), and when in a second state in which the air delivery assembly is separated from the fresh-keeping box (11), the air delivery assembly forms a self-seal so as to prevent an airflow from flowing therethrough. The fresh-keeping device (10) is configured to perform suction, by means of the air extraction device (10b), on gas in the fresh-keeping space (111) in communication with the fresh-keeping device (10), so as to create in the fresh-keeping space (111) a low-oxygen environment having an oxygen content lower than the oxygen content in the air.
An ice making method for a refrigerator and a refrigerator. The ice making method for a refrigerator comprises: enabling the temperature in an ice making compartment to be higher than or equal to a first preset value; filling an ice making container in the ice making compartment with water; providing cold energy to the ice making compartment according to a first refrigeration capacity, enabling the temperature in the ice making compartment to sequentially drop to reach multiple first preset temperatures, and when the temperature in the ice making compartment drops to reach each first preset temperature, maintaining the temperature in the ice making compartment at the first preset temperature for a corresponding first preset duration, among two adjacent first preset temperatures, the first preset duration corresponding to the lower first preset temperature being shorter than the first preset duration corresponding to the higher first preset temperature.
A refrigeration and freezing device (10), comprising a housing (20), a storage compartment and an air mixing fan (31). When the storage compartment requires mixed air refrigeration, the air mixing fan (31) draws in air from both a first air inlet and a second air inlet, and thoroughly mixes cold air in an air supply duct (21) with air inside the storage compartment and then blows same back into the storage compartment, such that the temperature of the airflow entering the storage compartment is moderated, achieving gradual cooling of food ingredients inside the storage compartment.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
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
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
A fresh-keeping storage container (30) and a refrigerator (10). The fresh-keeping storage container (30) comprises: an inner chamber (318), wherein a fresh-keeping storage space (330) for placing a stored object is provided inside the inner chamber (318); and a first magnetic field assembly (411) provided on the outer side of the side wall of one side of the inner chamber (318), wherein an air supply and return channel for refrigeration airflow to pass through is formed between the first magnetic field assembly (411) and the side wall of the inner chamber (318). An air supply and return channel is formed between the first magnetic field assembly (411) and the inner chamber (318), so that refrigeration airflow is closer to the fresh-keeping storage space (330), and the fresh-keeping storage space (330) can be refrigerated more quickly in the refrigeration process, thereby accelerating the cooling speed and reducing the effective time of bacterial reproduction, and thus prolonging the preservation period.
A fresh-keeping storage container (30) and a refrigerator (10). The fresh-keeping storage container (30) comprises a barrel body (310) in which a fresh-keeping storage space (330) for placing stored objects is provided; and a magnetic field device (410) comprising at least one magnetic field assembly (411, 421) and configured to form a magnetic field in the fresh-keeping storage space (330). The magnetic field device (410) is used to form the magnetic field in the fresh-keeping storage space (330), thereby improving the storage quality, shortening the freezing time, reducing the juice loss rate and nutrient loss of food, and prolonging the fresh-keeping cycle.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
24.
FOOD IDENTIFICATION METHOD FOR REFRIGERATOR, REFRIGERATOR, AND STORAGE MEDIUM
A food identification method for a refrigerator, a refrigerator, and a storage medium, relating to the technical field of intelligent refrigerators. The refrigerator is provided with a radar, and the food identification method comprises: by means of a radar reflection microwave signal, acquiring basic data of food in the refrigerator; identifying the position of the food on the basis of the basic data; generating a radar image of the food on the basis of the basic data; and identifying the type and quantity of the food on the basis of the radar image of the food, the position of the food, and a food identification model. The accuracy of food identification and the reliability of intelligent management of refrigerator food are improved.
The present application discloses an oil supply device for a compressor, a compressor, and refrigeration equipment. The oil supply device for a compressor includes: a piston cylinder with an inner chamber, a piston, and an outer housing; the outer housing includes a housing body and a separator, the separator has a separation board and a partition plate, forming an oil chamber between the separation board and the bottom of the housing groove, the partition plate divides the oil chamber into an oil intake chamber and an oil discharge chamber; one end of the piston cylinder extends into the housing groove. This embodiment conveniently realizes the arrangement of the oil intake chamber and the oil discharge chamber on the outer housing.
The present application discloses an oil supply device of a compressor, a compressor and a refrigeration equipment, the oil supply device of a compressor comprising: a piston cylinder with an inner chamber, a piston, an outer housing, and an oil intake passage and an oil discharge passage, the oil intake passage comprises an oil intake chamber, an oil inlet and an oil outlet; the side wall of the oil intake chamber has an arcuate flow guide portion to direct flow between the oil inlet and the oil outlet. The application can create a vortex in the oil intake chamber after the oil entering the oil intake chamber from the oil inlet, thereby improving the oil suction efficiency.
The present invention relates to the technical field of production of refrigerator liners. Disclosed is a material for manufacturing a refrigerator liner plate. The material comprises PETG, an aluminum powder and a modifying material, wherein the modifying material comprises: PCTG, a toughening agent, an antioxidant, an auxiliary antioxidant, a lubricant and a weather-resistant agent. Further disclosed are a refrigerator liner and a refrigerator.
An air duct cover plate and a refrigeration apparatus. The air duct cover plate comprises a cover plate body (100), the cover plate body (100) comprises an assembly surface where a decorative panel is mounted, the cover plate body (100) is provided with a fixing structure located on the assembly surface, the fixing structure is an assembly groove (101), and the assembly groove (101) is configured for installation of the decorative panel, which has a decorative strip. By means of the configuration of the assembly groove (101) in the assembly surface, the decorative panel, which has the decorative strip, can be assembled, such that other fixing structures for assembling different decorative panels can be conveniently arranged on the assembly surface, thus improving the universality of the cover plate body (100).
F25D 17/08 - 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 using ducts
29.
REFRIGERATION DEVICE HAVING MAGNETIC FIELD FRESHNESS-PRESERVING APPARATUS
A refrigeration device having a magnetic field freshness-preserving apparatus, includes a cabinet defining a storage chamber, a back part of the storage chamber having a refrigeration air duct; and a magnetic field freshness-preserving apparatus having a magnetic field component used to apply a magnetic field to a freshness-preserving space inside the storage chamber. The magnetic field freshness-preserving apparatus includes a barrel body, an air intake port and an air return port in communication with the refrigeration air duct; and a drawer defining a freshness-preserving space. The magnetic field freshness-preserving unit is configured to form a surrounding air duct that allows airflow to flow from the air inlet port sequentially through a top wall of the barrel body, a front baffle of the drawer, and a space below a bottom plate of the drawer, and back to the air return port, so as to refrigerate the freshness-preserving space.
F25D 17/08 - 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 using ducts
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
A refrigerator appliance(100) comprises a fresh food storage chamber(122) and a filter system for ethylene in the fresh food storage chamber(122). The fresh food storage chamber(122) includes a ventilation system(190) comprising a fan assembly(192) fluidly coupled to an air supply vent (194)and an air return vent(195) to urge an air flow along an air flow path. A removable air filter assembly(200) for ethylene gas, the filter assembly(200) including a housing(202) and a chemisorption filter(204) contained in the housing, is removably fixed in the air flow path.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
A refrigerator includes a box body, inner container of which defines a storage compartment therein; and a water storage device arranged in the storage compartment and comprising a pot body and a pot lid; the port body being configured to store water; the pot lid being arranged at the top of the pot body and configured to open and close the pot body; wherein the pot lid and the inner container detachably connected with each other. According to the refrigerator, the water storage device only takes up a small space inside the refrigerator and has no impact on a door body of the refrigerator. Meanwhile, the pot lid is detachably connected with the inner container, such that the water storage device not in need can be wholly removed from the refrigerator, which enlarges the internal space of the refrigerator.
A fresh-keeping storage container for a refrigerator, and a refrigerator. The fresh-keeping storage container includes a storage box provided internally with a storage space for placing stored objects; and one or more magnetic field generating components, each magnetic field generating component being configured to be in the shape of a flat plate and arranged at a side wall of the storage box, the magnetic field generating component being used for generating a magnetic field acting on the storage space, and the magnetic field strength range of the magnetic field is 1-200 Gs.
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
A water filter assembly with a sensing system coupled to an electrode (154) in a feed water chamber (146) and an electrode(158) in a treated water chamber(148). A controller(180) receives signals from the feed water and treated water electrodes(154,158) that are proportional to a water quality parameter in the feed water chamber(146) and the treated water chamber(148) and determines a filter status based on the signals.
A magnetic field fresh-keeping apparatus capable of preventing direct blowing of cold air, applied to an air-cooled refrigeration device. The magnetic field fresh-keeping apparatus includes a drawer container, a drawer, a magnetic field assembly, an air inlet duct assembly, and an air return opening. An opening is provided at the front side of the drawer container; the drawer is slidably mounted in the drawer container; the magnetic field assembly is configured to provide a magnetic field to a stored item in the drawer; the air inlet duct assembly is configured to enable cold air to first cool the magnetic field assembly, and then enter the drawer container in a manner of not directly blowing the stored item; the air return opening is formed on the drawer container for discharging the air in the drawer container.
F25D 17/08 - 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 using ducts
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
35.
AGING DRAWER AND REFRIGERATION APPARATUS WITH THE SAME
An aging drawer and refrigeration apparatus with the same. The aging drawer comprises a shell, at least one air duct board provided within the shell and a circulation fan. The shell and the at least one air duct board define a aging chamber and at least one air supply duct, the aging chamber is connected to the air supply duct through multiple air outlet supply ports arranged along the direction of airflow within the air supply duct; and at least an air supply section of the air supply duct, which is directly connected to the multiple air outlets, is configured to gradually taper along the direction of airflow therein, thereby ensuring the airflow passes through the air supply section at a uniform speed at different positions, and improving the aging effect.
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
An ice-making assembly, comprising an ice-making box body (10) and an ice-making mechanism (20) matching the ice-making box body (10). The ice-making mechanism (20) comprises an ice-making portion (21) forming an ice cube tray (211) and a water injection portion (22) forming a water injection cavity (221), the ice-making portion (21) being connected to the water injection portion (22); and the ice-making mechanism (20) is provided with a water injection space (23) in communication with an opening of the ice cube tray (211), wherein the water injection portion (22) is provided with a water outlet (222) in communication with the water injection cavity (221), and the water outlet (222) is exposed in the water injection space (23). During the operation of water being injected into the ice-making portion (21) by using the water injection portion (22) into which water is injected, water in the water injection cavity (221) flows through the water injection space (23) by means of the water outlet (222) and then flows into the ice cube tray (211), such that the situation of water splashing is avoided.
A muffling device includes a muffling body, the muffling body having a sound ingress and egress surface, at least one muffling chamber is provided inside the muffling body, the sound ingress and egress surface is provided with at least one communication port, each of the communication port connecting one or more of the muffling chamber, each of the muffling chamber is connected to the outside of the sound ingress and egress surface through at least one of the communication port. When noise passes through the through-holes of the muffling device, the sound is transmitted through the communication ports into the muffling chamber, extending the sound propagation path, weakening the sound energy, and thereby reducing the sound that continues to disperse outward. Specifically, the length of at least one muffling chamber is between 0.0085 m to 0.85 m.
The present application discloses a storage assembly and a refrigerator having same. The storage assembly comprises a compartment body, a door, and a hinge assembly; the door is pivotally connected to an opening side of the compartment body by means of the hinge assembly; the hinge assembly comprises a first shaft, a second shaft, and a hinge groove fitted to the first shaft and the second shaft; the hinge groove comprises at least two groove sections which are connected end to end and have different extension directions; in the process of opening the door, relative to the door, there is a stage where the second shaft is located in one of the two groove sections, and the first shaft moves along the other one of the two groove sections. According to the storage assembly provided by the present application, the stability and smoothness can be improved, unsmoothness during door opening is mitigated and stability during door opening is maintained.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
The present application discloses a refrigerator control method, a storage medium, and a refrigerator. The control method comprises: detecting whether a sub-door is closed, wherein the sub-door is used for opening and closing a dispenser compartment provided in a storage compartment door; if it is detected that the sub-door is closed, detecting whether a condition for enabling an automatic water filling function in the dispenser compartment is satisfied; and if yes, enabling the automatic water filling function to fill an automatic water filling jug with water. By means of such a configuration, a large amount of cold water easy to take and use can be supplied to a user.
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
F25D 23/04 - DoorsCovers with special compartments, e.g. butter conditioners
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
40.
CONTROL METHOD FOR REFRIGERATOR, STORAGE MEDIUM, AND REFRIGERATOR
A control method for a refrigerator (100), a storage medium, and the refrigerator (100). The control method comprises: detecting whether a storage chamber door (3) or a secondary door (4) is open, wherein the secondary door (4) is used for opening and closing a dispenser chamber (6) provided on the storage chamber door (3); and if it is detected that the storage chamber door (3) or the secondary door (4) is open, controlling a storage chamber door fan (9) to turn off or decelerate. By means of the configuration, cold air leakage of the dispenser chamber (6) can be reduced while the dispenser chamber (6) is provided with a refrigerated environment, thereby improving the utilization of the dispenser chamber (6).
Provided in the present application is a refrigerator. The refrigerator comprises a storage chamber, a storage chamber door, a distributor chamber, an ice making chamber, an ice making door, and an auxiliary door arranged on an outer side of the storage chamber door, wherein the auxiliary door is used for opening and closing an opening of the distributor chamber, and when the auxiliary door is in a closed state, the auxiliary door shields the ice making door. The refrigerator further comprises a fan arranged at the storage chamber door, the fan being used for promoting air circulation between an interval gap of the ice making door and the distributor chamber. By means of such a configuration, condensation on a surface of the ice making door can be avoided.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 11/00 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators
Disclosed in the present application is a refrigerator. The refrigerator comprises a storage chamber door, a distributor chamber and an ice making chamber disposed on the storage chamber door, an ice making door, an auxiliary door, and a sealing strip. The auxiliary door is used to open and close an opening of the distributor chamber. When the auxiliary door is closed, the auxiliary door shields the ice making chamber, and the sealing strip at least seals a gap between a front side of the ice making chamber and the auxiliary door, preventing cold air in the distributor chamber from flowing between a front wall of the ice making chamber and the auxiliary door. By means of the described arrangement, condensation on the surface of the ice making chamber can be avoided.
The present application discloses a refrigerator control method, a storage medium, and a refrigerator. The control method comprises: detecting whether a storage compartment door or an ice-making compartment door is opened, wherein the ice-making compartment door is used for opening and closing an ice-making compartment, and the ice-making compartment is arranged on the storage compartment door; and if it is detected that the storage compartment door or the ice-making compartment door is opened, controlling an ice-dispensing function to be disabled. By means of such an arrangement, the cooperation of the storage compartment and the compartment on the storage compartment door can be achieved, avoiding mutual interference in the use of the compartments.
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
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
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 23/10 - Arrangements for mounting in particular locations, e.g. for built-in type, for corner type
F25C 5/04 - Apparatus for disintegrating, removing or harvesting ice without the use of saws
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
F25D 23/04 - DoorsCovers with special compartments, e.g. butter conditioners
A refrigerator, a refrigerator control method and a storage medium. The refrigerator comprises a storage compartment (2), a storage compartment door (3), a distributor compartment (6) arranged on the storage compartment door (3), an auxiliary door (4) configured to uncover and close an opening of the distributor compartment (6), and a storage compartment door fan (11) arranged on the storage compartment door (3), wherein the fan (11) is configured to facilitate the entry of cold air from the storage compartment (2) into the distributor compartment (6) via an air inlet (63), which is formed in a wall of the distributor compartment. Such a configuration can reduce the temperature of the distributor compartment (6), thereby improving the utilization degree of the distributor compartment (6).
A refrigeration appliance, comprising: a first water outlet and a second water outlet which are arranged in a distributor chamber (6), a first water pan (8) arranged below the first water outlet and forming a first water storage tank (81), a second water pan (9) arranged below the second water outlet and forming a second water storage tank (91), a water storage measurement device (11) used for measuring the first water storage tank (81) and the second water storage tank (91), and an automatic water filling jug (7) arranged below the first water outlet. By means of the arrangement, a user can conveniently take a small amount of water and a large amount of water.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 21/14 - Collecting or removing condensed and defrost waterDrip trays
An external water-taking device for a refrigerator, and a refrigerator. The refrigerator comprises a door body (1), a mounting portion is defined on a door shell (12), which is located on an outer side face of the door body (1), and the external water-taking device comprises a housing (2), a water output component and a water storage barrel (5). The housing (2) is arranged at the mounting portion; the water output component comprises a support (3) connected to the housing (2) and a pressing tongue (4) pivotally connected to the support (3); the water output component is located in a mounting space, and the ratio of the width of the water output component to the width of the housing (2) is in the range of 0.2 to 0.4; and the water storage barrel (5) is connected to a water-taking channel, and the pressing tongue (4) is configured to turn on or turn off the water-taking channel.
A shelf for a refrigerator, comprising: a shelf main body (100) configured as a transparent shelf; a first decorative strip (210) snap-fitted at the rear side end of the shelf main body (100); a first cantilever (300) and a second cantilever (400) respectively disposed at the left side end and the right side end of the shelf main body (100); a first light-emitting member (510) disposed between the first decorative strip (210) and the shelf main body (100) and comprising a first electrical connection end (511) located at the left side end and a second electrical connection end (512) located at the right side end; and two electrification assemblies (600) respectively disposed on the first cantilever (300) and the second cantilever (400) and respectively connected to the first electrical connection end (511) and the second electrical connection end (512), such that power supplies of different polarities are respectively connected to the first electrical connection end (511) and the second electrical connection end (512). The shelf can improve the overall effect of illumination in the refrigerator.
Disclosed in the present application is a refrigerator, comprising a refrigerator body and a door for opening or closing the refrigerator body, wherein the refrigerator body comprises a housing and an inner container. The refrigerator further comprises a mounting box arranged between the housing and the inner container, and a control module arranged in the mounting box, wherein the control module comprises a main control component and a display control component, the main control component and the display control component together being assembled into the mounting box after being positioned and fitted. The control module is integrally assembled into the refrigerator, thus simplifying mounting steps, saving on time and labor, and facilitating subsequent disassembly and maintenance.
A refrigerator includes a lowermost storage liner, an evaporator, an air supply duct, and at least one air supply fan. A storage compartment and a cooling chamber positioned under the storage compartment are defined in the storage liner. The evaporator is disposed in the cooling chamber and is configured to cool air passing through the evaporator so as to form cooling air supplied to the storage compartment. The air supply duct is disposed in a space defined by the storage liner and is configured to convey the cooling air cooled by the evaporator to the storage compartment. The air supply fan is disposed in the air supply duct and is configured to promote air circulation between the cooling chamber and the storage compartment.
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
A heating device and control method therefor. The device includes a cylinder for placing an object to be processed and an electromagnetic wave generating system for generating electromagnetic wave signals to heat the object. At each preset time interval, the electromagnetic wave generating system is controlled to adjust the frequency of the generated electromagnetic wave signal within a preset selectable frequency range, and ensure the system meets a preset matching condition. The frequency of the signal that meets the preset matching condition each time is recorded, and the change amount in frequency of the signal that meets the preset matching condition from before the preset number of matches to the current match is calculated. Operation of the system is terminated when any one of preset termination conditions is met. The preset termination conditions include the change amount being less or equal to a preset change threshold, enabling the cessation of heating of food at a state desired by the user, particularly suitable for food defrosting.
The present application relates to the technical field of data processing. Disclosed is a text classification method for multi-modal data. The method comprises: obtaining text information, speech information and image information according to multi-modal data; obtaining a speech text feature vector and an image text feature vector according to the speech information and the image information; and performing text preprocessing on the text information, the speech text feature vector and the image text feature vector to obtain short-text data. Further disclosed in the present application are a text classification apparatus for multi-modal data, and a refrigeration device and a medium.
G10L 13/08 - Text analysis or generation of parameters for speech synthesis out of text, e.g. grapheme to phoneme translation, prosody generation or stress or intonation determination
G06V 10/40 - Extraction of image or video features
52.
REFRIGERATOR, AND CONTROL METHOD AND APPARATUS FOR REFRIGERATOR
The present application relates to the technical field of refrigeration devices, and discloses a refrigerator, comprising a liner, at least provided with a plurality of air ports; and a drawer assembly, arranged in the liner, the drawer assembly comprising a drawer cover plate and a drawer body which are slidably connected to each other, the drawer cover plate being provided with a moisture-permeable assembly, the top of the drawer assembly being provided with a first vent part and a second vent part opposite to each other, airflow blown out from at least one air port flowing into the drawer body through the first vent part and flowing out through the second vent part, wherein the airflow flowing into the drawer body forms an auxiliary air path on the lower surface of the drawer cover plate, and the auxiliary air path is used for preventing frost from forming on the lower surface of the moisture-permeable assembly. The present application further discloses a control method and apparatus for a refrigerator.
F25D 11/00 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
F25D 21/04 - Preventing the formation of frost or condensate
F25D 29/00 - Arrangement or mounting of control or safety devices
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
A refrigerator having an inclined drain pipe disposed at a lower portion of the refrigerator comprises: a cabinet; a storage chamber, a refrigeration cavity, a heat dissipation machine compartment, and a front wall of the heat dissipation machine compartment extends obliquely upwards from front to back from the middle of a cabinet bottom plate; an evaporation dish; a drain pipe extends obliquely downwards from front to back from the bottom of the refrigeration cavity, passes through the front wall of the heat dissipation machine compartment and then further extends to the evaporation dish; a water pipe securing member is arranged at the position where the drain pipe passes through the front wall; the water pipe securing member has a first securing face, and the first securing face is abutting the front wall of the heat dissipation machine compartment.
Provided in the present application are an ice making mechanism and a control method therefor. The ice making mechanism comprises an ice making tray, an ice storage box located on the lower side of the ice making tray, an ice detection assembly used for detecting whether the ice storage box is full of ice, and an ice pushing assembly used for pushing ice cubes in the ice making tray into the ice storage box. The ice detection assembly comprises an ice detection plate located inside the ice storage box and a driving assembly used for driving the ice detection plate to rotate. The control method comprises: before the ice pushing assembly pushes ice, the ice detection plate rotating from an initial position towards the lower side of the ice making tray, and if the ice detection plate encounters an obstacle during the process of rotating towards the lower side of the ice making tray, determining that the ice storage box is full of ice.
An ice making assembly(200) for a refrigerator appliance(100) includes a support frame(250) and a tray(208). A mold cavity(212) is defined in the tray(208). The tray(208) is rotatably mounted inside of the support frame(250). The tray(208) is rotatable between a fill position and a release position. The mold cavity(212) is configured to receive a fill of liquid water and form an ice piece(204) therein when the tray(208) is in the fill position.
F25C 1/10 - Producing ice by using rotating or otherwise moving moulds
F25C 5/06 - Apparatus for disintegrating, removing or harvesting ice without the use of saws by deforming bodies with which the ice is in contact, e.g. using inflatable members
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
56.
MICROFLUIDIC CONTROL DETECTION SYSTEM AND REFRIGERATOR
A microfluidic control detection system and refrigerator, where the system comprises: a microfluidic biochip with an inlet, a suction port, and a detection pool formed inside, interconnected sequentially through microchannels, with the suction port located on a side surface parallel to width and length directions of the microfluidic biochip; a sample liquid driving device, configured to communicate with the suction port of the microfluidic biochip via a sealing connector once the biochip is in its installed position; a pressing mechanism, configured to apply pressure perpendicular to the side surface to the sealing connector after the microfluidic biochip is placed in its position, to form a fluidic seal connection between the sealing connector and the suction port; and a detection mechanism for detecting the detection pool to obtain preset detection parameters of the sample liquid.
A refrigerator with a bottom-arranged heat dissipation compartment, comprising: a refrigerator body, a fixing support, a heat dissipation fan, and a condenser. The heat dissipation compartment is arranged behind the bottom of the refrigerator body, the fixing support is arranged in the lateral middle of the heat dissipation compartment to separate the heat dissipation compartment into a first heat dissipation cavity and a second heat dissipation cavity in the lateral direction of the refrigerator body, a fan fixing structure is provided on the side of the fixing support facing the first heat dissipation cavity, and a condenser fixing structure is provided on the side of the fixing support facing the second heat dissipation cavity; the heat dissipation fan is mounted on the fan fixing structure for promoting the formation of a heat dissipation air flow, which enters from the outside of the refrigerator body, blows through the first heat dissipation cavity and the second heat dissipation cavity and is then discharged out of the refrigerator body; and the condenser is mounted on the condenser fixing structure for cooling by means of the heat dissipation air flow. In the refrigerator, the fixing support, the heat dissipation fan, and the condenser together form an integrated air duct structure, components of the heat dissipation compartment are arranged in a more compact structure, and the process of assembling is simpler and more efficient.
A hydraulic self-balancing base feet, a hydraulic adjustment bottom plate and a household appliance. The hydraulic self-balancing base feet comprise a hydraulic adjustment assembly (100) and supporting base feet (200), wherein the hydraulic adjustment assembly (100) comprises a plurality of groups of hydraulic lifting members (101) and communicating pipes (102), the communicating pipes (102) being configured to connect the plurality of groups of hydraulic lifting members (101), the supporting base feet (200) being located below the hydraulic lifting members (101), and the hydraulic lifting members (101) being fixedly mounted on the supporting base feet (200). Circulation of a hydraulic medium between different hydraulic lifting members (101) is realized according to a hydraulic principle, such that the self-adaptive leveling of the base feet is realized.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
F16M 5/00 - Engine beds, i.e. means for supporting engines or machines on foundations
59.
DOOR OPENING/CLOSING STRUCTURE FOR REFRIGERATOR AND REFRIGERATOR
The present application relates to the technical field of refrigeration apparatuses, and discloses a door opening/closing structure for a refrigerator and a refrigerator. The door opening/closing structure for the refrigerator comprises a refrigerator body mounting seat and a door body connecting seat, and further comprises: a hinge assembly movably arranged between the refrigerator body mounting seat and a door body mounting seat; and a door closer arranged on a door body or refrigerator body of the refrigerator, wherein the door closer comprises a sliding seat and a connecting rod, the connecting rod comprises a first end and a second end, the first end is movably connected to the refrigerator body mounting seat or the hinge assembly, and the second end can be connected to or separated from the sliding seat; when the opening angle of the door body of the refrigerator is less than or equal to a preset angle, the second end is connected to the sliding seat to apply to the door body of the refrigerator a pulling force for closing; and when the opening angle of the door body of the refrigerator is greater than the preset angle, the connecting rod is separated from the sliding seat to release the pulling force on the door body of the refrigerator.
A sparkling water mixing assembly and a refrigerator having same. The sparkling water mixing assembly comprises a supply module, a mixing container, and a mixing connector. The supply module is configured to supply carbon dioxide. The mixing container is configured to contain a liquid to be mixed, and has an opening. The mixing connector is configured to enable the mixing container to be detachably disposed thereon. The mixing connector has a mixing chamber, a pressure channel, and an accessing channel. The mixing chamber allows the opening to extend into the mixing chamber. The pressure channel is communicated with the mixing chamber, and is configured to adjust the pressure in the mixing chamber. The accessing channel is communicated with the mixing chamber and the supply module, and is configured to enable the mixing container to obtain carbon dioxide.
B01F 23/236 - Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages
A microfluidic control detection system for a refrigerator and a refrigerator. The microfluidic control detection system includes: a microfluidic biochip with an inlet, a suction port, and a detection pool formed inside, which are sequentially interconnected through microchannels; a weighing platform, fixedly set on a support frame; a buffer solution driving device, configured to deliver a predetermined amount of buffer solution matching the weight of the sample to the sample cup; a bracket, configured to move in a controlled manner or an operable manner, driving the sample cup to move to a highest position where the sample liquid in the sample cup can contact the inlet of the microfluidic biochip; and a detection mechanism, configured to detect the detection pool to obtain predetermined detection parameters of the sample liquid, offering high detection accuracy.
An ice making assembly for a refrigerator appliance includes a resilient mold defining a mold cavity for receiving water, a heat exchanger in thermal communication with the resilient mold to freeze the water and form one or more ice cubes, a fixed ejector positioned below the resilient mold, wherein the resilient mold is movable relative to the fixed ejector, and a drive mechanism for moving the resilient mold to engage the fixed ejector and deform the resilient mold to raise the one or more ice cubes.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
A pitcher assembly comprises a pitcher including a wall connected to a bottom defining a picture volume. The wall defines an opening at the top edge of the pitcher and a spout is formed at the top edge of the pitcher. A lid is removably fitted to the opening, the lid having a vertical wall extending from the skirt at the spout, and a second wall extending into the spout. The first and second walls cooperate with the spout and the skirt to at least partially block liquid from unintentionally splashing out of the pitcher volume. The lid may also include an energy-absorbing material disposed between a vertically displaceable float body and the lid.
A refrigerator control method comprises: collecting working parameters of an ice making system; when the working parameters meet a preset normal defrosting condition of an ice making evaporator, controlling a defrosting unit corresponding to the ice making evaporator to be started; and when information on an amount of ice in an ice bin is detected to be full ice information, and when the working parameters meet a preset full ice defrosting condition of the ice making evaporator, controlling the defrosting unit corresponding to the ice making evaporator to be started.
Provided in the present application are a refrigerator and an ice maker. The ice maker comprises: a first ice making tray assembly, which is provided with first ice making cells; a second ice making tray assembly, which is provided with second ice making cells; a driving assembly, which is used for driving the second ice making tray assembly to rotate between an ice making position and an ice discharging position relative to the first ice making tray assembly; and an ice discharging assembly, wherein when the driving assembly drives a second ice making tray to move towards the ice discharging position, the ice discharging assembly is driven to move so as to detach ice blocks in the ice making cells.
The present application provides an ice maker and a refrigerator. The ice maker comprises: a first ice making tray assembly; a second ice making tray assembly, which can move between an ice making position and an ice discharging position relative to the first ice making tray assembly; a heating piece, comprising a first heating piece arranged on the first ice making tray assembly and a second heating piece arranged on the second ice making tray assembly; and a controller, which is configured to control the first heating piece and the second heating piece to operate to cause water in ice making cells to be directionally frozen.
The present invention provides a connecting pipeline of evaporator, an evaporator, and a refrigerator. The connecting pipeline is configured to connect with the refrigerant inlet of the evaporator and comprises first pipeline, second pipeline and inlet pipeline connected in sequence, wherein the inlet pipeline is connected to the refrigerant inlet, and the inner diameter of the first pipeline is larger than the inner diameter of the second pipeline. The connecting pipeline of the evaporator can effectively reduce noise by being configured to comprise first pipeline, second pipeline and inlet pipeline connected in sequence, wherein the inlet pipeline is connected to the refrigerant inlet and the inner diameter of the first pipeline is larger than the inner diameter of the second pipeline.
The present invention discloses a refrigerator, including a cabinet, a door for opening and closing the cabinet, and a hinge assembly for connecting the cabinet and the door, wherein the cabinet includes a rear wall and an opening provided opposite to each other, a direction from the rear wall towards the opening serves as a first direction, and when the door is in an opening process, the hinge assembly drives the door to move away from the cabinet in the first direction. In the present invention, mutual separation of the door and the cabinet may be assisted under the action of the hinge assembly, thereby improving door opening smoothness.
E05D 7/081 - Hinges or pivots of special construction for use in suspensions comprising two spigots placed at opposite edges of the wing, especially at the top and the bottom, e.g. trunnions the pivot axis of the wing being situated near one edge of the wing
E05D 11/06 - Devices for limiting the opening movement of hinges
A refrigerator appliance may include a cabinet, a door, a camera module, a microphone, and a controller. The cabinet may define a chilled chamber. The door may be rotatably hinged to the cabinet to provide selective access to the chilled chamber. The camera module may be mounted to the cabinet. The microphone may be mounted to the cabinet within the chilled chamber. The controller may be operably coupled to the camera module. The controller may be configured to initiate an operation routine. The operation routine may include initiating a capture sequence at the camera module and the microphone, determining an internal location of a first stored item within the chilled chamber based on a two-dimensional image and a sound recording of the capture sequence, and recording the internal location of the first stored item.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
73.
VERTICAL BEAM ASSEMBLY FOR REFRIGERATOR DOOR AND REFRIGERATOR
A vertical beam assembly for a refrigerator door, comprising: a vertical beam body, comprises a base shell and a cover plate, the cover plate is provided over the base shell to form a foaming space for filling with foaming material; wherein the base shell provides multiple receptacle cavities along a longitudinal direction near the side of the refrigerator door, multiple sealing covers are provided at the multiple receptacle cavities facing the cover plate side and one-to-one correspondence with the multiple receptacle cavities, sealing the openings from the receptacle cavities leading to the foaming space; and a hinge assembly, comprises multiple hinges mounted within the receptacle cavities respectively, to rotatably connect the vertical beam body to the refrigerator door.
A magnetic field freshness-preserving storage container (200) and a refrigerator (10). The magnetic field freshness-preserving storage container (200) comprises: a storage assembly (210), in which a storage space for holding a stored object is defined; and one or more magnetic field assemblies (201) respectively sleeved on the periphery of the storage assembly (210). Each magnetic field assembly (201) comprises: one or more magnetic components (220) arranged on an outer side of the storage assembly (210) and used to form a magnetic field in the storage space; and an annular magnetically conductive component (230), which comprises uniform magnetization plates (231) arranged corresponding to the magnetic components (220), and connecting straps (232) connected to the uniform magnetization plates (231) and arranged around the periphery of the storage assembly (210), the uniform magnetization plates (231) and the connecting straps (232) forming an annular magnetic conduction path outside the storage space.
A23L 3/32 - Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs by treatment with electric currents without heating effect
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
An air cooling-type refrigeration device includes a device body, an air cooling system attached to the device body, and a drawer which may be pulled out relative to the device body, the drawer being capable of receiving cold air provided by the air cooling system, so as to cool an object stored in the drawer. The air cooling-type refrigeration device further comprises a magnetic field generating apparatus and a detection apparatus. When the magnetic field generating apparatus is powered on, a magnetic field acting on the object stored in the drawer is generated. The detection apparatus is used to detect whether the drawer is pulled out. The magnetic field generating apparatus and the detection apparatus are configured such that the magnetic field generating apparatus is powered off when the detection apparatus detects that the drawer is pulled out.
F25B 21/00 - Machines, plants or systems, using electric or magnetic effects
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
Disclosed in the present application are a storage assembly and a refrigerator. The storage assembly comprises a cabinet body, a door body and a hinge assembly, wherein the cabinet body is pivotally connected to an opening side of the cabinet body by means of the hinge assembly; the hinge assembly comprises a first shaft, a second shaft and a hinge channel; the cabinet body comprises a front door wall facing away from the cabinet body when a door is closed, and a door side wall approaching a lateral environmental member when the door is closed; the front door wall and the door side wall intersect to form an outer door edge; and at an initial stage of opening the door body, the outer door edge moves in a direction away from the lateral environmental member. The storage assembly provided in the present application can take into consideration the door opening stability and interference prevention.
Disclosed in the present application are a storage assembly and a refrigerator. The storage assembly comprises a cabinet body, a first door body and a hinge assembly, wherein the hinge assembly comprises a first shaft, a second shaft and a hinge channel; the first door body comprises a front door wall; the hinge channel comprises a first channel section; in the process of the first shaft and/or the second shaft moving along the first channel section, a first trajectory is formed by the central point of each shaft; and the first trajectory is in a conical curved shape, and a first trajectory center is located on a first reference plane or located on the side of the first reference plane away from the cabinet body when a door is closed. The storage assembly provided in the present application can take into consideration the advantages of lateral avoidance and the door opening stability.
A magnetic field freshness-preserving storage container and a refrigerator. The magnetic field freshness-preserving storage container includes a storage box, two uniform magnetization plates, and two sets of electromagnetic components. Each set of electromagnetic components is arranged corresponding to one uniform magnetization plate and forms an electromagnetic field after being electrified. The magnetic field distribution of the electromagnetic field can be changed by means of the uniform magnetization plates, such that the electromagnetic field is distributed more uniformly in the storage space. Since the electromagnetic field is distributed more uniformly in the storage space, stored objects can have the same storage quality. In addition, the uniform magnetization plates can save on the consumption of magnetic materials.
A shelf assembly and a refrigeration device. The shelf assembly comprises a bracket (1), a shelf (2), and a pivot assembly (3); the pivot assembly (3) comprises a main shaft (31), a main groove (32), an auxiliary shaft (34), and an auxiliary groove (35); in a flipping process of the shelf (2), the main shaft (31) moves along the main groove (32), and the auxiliary shaft (34) moves along the auxiliary groove (35) to drive the shelf (2) to translate. By flipping one shelf (2) above, a relief space is provided for another shelf (2) located below.
Provided in the present application is a refrigerator. The refrigerator comprises: a body, which is provided with at least one magnetic-field freshness-keeping compartment; a magnetic-field generation apparatus, which is used for generating a magnetic field in the storage space of the magnetic-field freshness-keeping compartment; and a refrigeration system, which performs refrigeration on the magnetic-field freshness-keeping compartment, wherein the magnetic-field generation apparatus is configured to make the intensity of the magnetic field in the storage space be greater than or equal to 10 Gauss and less than or equal to 100 Gauss, and the refrigeration system is configured to make the temperature in the storage space be higher than or equal to -10 degrees centigrade and lower than or equal to 0 degrees centigrade, or the magnetic-field generation apparatus is configured make the intensity of the magnetic field in the storage space be greater than or equal to 5 Gauss and less than or equal to 40 Gauss, and the refrigeration system is configured to make the temperature in the storage space be higher than or equal to -30 degrees centigrade and lower than or equal to -15 degrees centigrade. In this way, food can be refrigerated at a sub-zero temperature, or the situation where large ice crystals are generated in food when being frozen is ameliorated, thereby improving the storage effect.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
F25D 19/04 - Arrangement or mounting of refrigeration units with respect to devices with more than one refrigeration unit
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
A23L 3/00 - Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs
81.
MAGNETIC FIELD-BASED FRESH-KEEPING STORAGE CONTAINER AND REFRIGERATOR
A magnetic field-based fresh-keeping storage container and a refrigerator. The magnetic field-based fresh-keeping storage container comprises: a storage assembly; a magnet assembly comprising a first magnet component and a second magnet component respectively disposed on a group of opposite sides of the storage assembly; and a magnetically conductive assembly having a first magnetically conductive member corresponding to the first magnet component, a second magnetically conductive member corresponding to the second magnet component, and a magnetically conductive connection member connected between the first magnetically conductive member and the second magnetically conductive member, the first magnetically conductive member, the second magnetically conductive member, and the magnetically conductive connection member forming an annular magnetically conductive path outside the storage space.
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
A23L 3/32 - Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs by treatment with electric currents without heating effect
F25D 25/02 - Charging, supporting, or discharging the articles to be cooled by shelves
QINGDAO HAIER SPECIAL REFRIGERATOR CO., LTD (China)
QINGDAO HAIER REFRIGERATOR CO., LTD (China)
HAIER SMART HOME CO., LTD. (China)
Inventor
Wang, Shaoyi
Chen, Jianquan
Wang, Jianqiang
Abstract
The present application relates to the technical field of refrigerated storage, in particular to a refrigerating and freezing device, comprising a cabinet. The cabinet comprises a housing and a compressor compartment, which are connected to each other, wherein the housing comprises cabinet walls; the compressor compartment comprises compartment walls; at least one cabinet wall and/or at least one compartment wall is provided with reinforcing ribs; the reinforcing ribs comprise recessed ribs and protruding ribs; and the cabinet is further provided with a noise reducing device that is at least configured to reduce noise generated in the compressor compartment. In the refrigerating and freezing device of the application, the recessed ribs and the protruding ribs are arranged on the cabinet walls and/or the compartment walls, thus reducing low-frequency vibrations; and the recessed ribs and the protruding ribs act together with the noise reducing device to absorb airborne sounds, thus significantly reducing the noise in the compressor compartment.
F25D 19/00 - Arrangement or mounting of refrigeration units with respect to devices
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F04B 39/00 - Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups
G10K 11/175 - Methods or devices for protecting against, or for damping, noise or other acoustic waves in general using interference effectsMasking sound
83.
MAGNETIC FIELD FRESH-KEEPING APPARATUS AND AIR-COOLED REFRIGERATION DEVICE
A magnetic field fresh-keeping apparatus and an air-cooled refrigeration device. The magnetic field fresh-keeping apparatus comprises a drawer container, a drawer, a magnet assembly, and a waterproof structure. The front side of the drawer container has an opening. The drawer is slidably mounted within the drawer container. The magnet assembly comprises a first magnet and a second magnet disposed on opposite sides of the drawer container. The magnet mounting cavity comprises a first mounting cavity for accommodating the first magnet and a second mounting cavity for accommodating the second magnet, and the first mounting cavity and the second mounting cavity are both configured to allow an airflow to pass through so as to cool the first magnet and the second magnet. The waterproof structure is configured to waterproof the magnet assembly.
A pitcher with an alternate dispensing feature for use in an autofill pitcher system in a chamber of a refrigerator appliance is provided. The pitcher defines a height direction, a width direction, and a depth direction. The pitcher comprises a pitcher wall connected to a pitcher bottom defining a pitcher volume. The pitcher further comprises a spigot defining an axis, with the spigot disposed on the pitcher wall such that the axis is generally parallel to the width direction.
A refrigerator having double opening doors, wherein a center column is rotatably connected to a free end of one of the doors. At least the front portion of the center column is formed from a resin material. Two plate-shaped magnets extending in the vertical direction are arranged at a preset interval at a position corresponding to each door. A resistance wire heater is arranged in the area between the two magnets. The resistance wire heater comprises a first part, a second part, and a turn-back part connecting the first part and the second part. The first part is provided with a connecting part, the connecting part is connected to the wire by means of a crimping terminal. The connecting part is arranged at a position overlapped with the surface part of one magnet. At said position, the second part is wound in the area between one magnet and the other magnet so as to alternately move close to the two magnets.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
A shelf assembly and a refrigeration device. The shelf assembly comprises a support frame (1), a shelf (2), and a pivot assembly (3) that pivotally connects the shelf (2) to the support frame (1); the pivot assembly (3) comprises a rotating shaft (31) and a slot body (32) that matches the rotating shaft (31); when the shelf (2) rotates, the position of the rotating shaft (31) in the slot body (32) is adjustable, which can prevent other components from interfering with the rotating shelf (2).
An ice maker, comprising a water storage box (10), an ice-making box (20), a refrigeration device (30), and a liquid conveying assembly (40). The ice-making box (20) is formed therein with an ice-making cavity (21), and is capable of pivoting relative to the water storage box (10) so as to be switched between an ice-making position and a discharging position. The refrigeration device (30) is provided with a plurality of ice-making columns (31), and at the ice-making position, at least part of each ice-making column (31) extends into the ice-making cavity (21). The liquid conveying assembly (40) comprises a liquid conveying pipe (41) communicating the water storage box (10) with the ice-making box (20). The liquid conveying pipe (41) is provided with a plurality of inrush flow openings (41b) exposed in the ice-making cavity (21), and the number of inrush flow openings (41b) is the same as the number of ice-making columns (31). At the ice-making position, each inrush flow opening (41b) faces a corresponding ice-making column (31), thereby preventing ice cubes formed on the ice-making columns (31) from containing bubbles.
An ice maker, which comprises an ice-making container (20), a refrigeration device (30), and an liquid transport assembly (40); and the ice-making container (20) is provided with an ice-making cavity (21) and an ice-making opening (22) exposing the ice-making cavity (21); the refrigeration device (30) comprises ice-making posts (31) at least partially extending into the ice-making cavity (21); the liquid transport assembly (40) comprises a liquid transport tube (41) in communication with the ice-making cavity (21), the liquid transport tube (41) being provided with surging water portion (41a) arranged in the ice-making cavity (21) and opposite the ice-making opening (22); the surging water portion (41a) is provided with a plurality of surging water ports (41b) in communication with the ice-making cavity (21), the plurality of surging water ports (41b) being uniformly distributed in the ice-making cavity (21); surging flows of water are formed in the ice-making container (20) by means of the plurality of surging water ports (41b) on the surging water portion (41a), ensuring that the ice formed on the ice-making posts (31) from water at different locations within the ice-making container (20) maintains consistent transparency, and improving the ice-making effect.
A refrigerator includes a top cover for the cooling chamber, an evaporator, a storage chamber and a cooling chamber located below the storage chamber, where at least a part of the top wall of the cooling chamber is formed on this top cover, and the evaporator is located inside the cooling chamber and fixedly connected to the top cover of the cooling chamber in a hanging manner. According to the refrigerator, by fixedly connecting the evaporator to the top cover of the cooling chamber in a hanging manner, the top cover is subjected to a downward force due to the gravity of the evaporator. This refrigerator avoids the bulging of the top cover upwards.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
The present application discloses a refrigeration apparatus, comprising a shelf assembly. The shelf assembly comprises a supporting frame, shelves, and a pivoting assembly; one shelf is pivotally connected to the supporting frame by means of the pivoting assembly; and when the shelf is turned, the shelf has a moving component moving towards the rear wall of a refrigerating compartment relative to the supporting frame. After the turning of the shelf is completed, the shelf can be closer to the rear wall of the refrigeration compartment.
The present application provides a refrigerator, comprising inner containers and heat insulation cover plates. Each inner container is opened forwards. Each heat insulation cover plate is arranged inside each inner container so as to define an evaporator chamber together with the rear wall of the inner container. The heat insulation cover plate further comprises a housing plate and a heat insulation and preservation plate; the housing plate defines a heat insulation space; the heat insulation and preservation plate is arranged in the heat insulation space; and a gap between the periphery of the heat insulation and preservation plate and the inner wall of the heat insulation space is filled with a heat insulation and preservation foam material. According to the present application, cold transferred to a storage compartment by the evaporator chamber by means of the heat insulation cover plate can be reduced.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
Provided in the present application are a refrigeration apparatus and a control method for the refrigeration apparatus. The refrigeration apparatus comprises a freezing compartment, a refrigeration system for providing cooling capacity for the freezing compartment, and a control system for controlling the refrigeration apparatus, wherein the refrigeration system is in communication connection with the control system; the refrigeration apparatus further comprises a cold water compartment, and a water storage component arranged in the cold water compartment; the cold water compartment is provided with an air inlet and an air outlet which are in communication with the freezing compartment, an air-intake damper configured to open and close the air inlet, and an air-discharge damper configured to open and close the air outlet; and the air-intake damper and the air-discharge damper are both in communication connection with the control system.
F25D 11/02 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators with cooling compartments at different temperatures
F25D 23/04 - DoorsCovers with special compartments, e.g. butter conditioners
F25D 23/12 - Arrangements of compartments additional to cooling compartmentsCombinations of refrigerators with other equipment, e.g. stove
F25D 17/08 - 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 using ducts
F25D 29/00 - Arrangement or mounting of control or safety devices
The present application provides a storage container and a refrigerator. The storage container comprises: a storage main body, a storage space being formed in the storage main body; and a magnetic field device, arranged inside the storage space and/or on the outer wall of the storage space so as to generate a magnetic field in the storage space, the magnetic field device comprising a first magnetic field generation member, a second magnetic field generation member and a magnetic conductive plate, and the first magnetic field generation member and the second magnetic field generation member being arranged on two sides of the magnetic conductive plate, respectively. The first magnetic field generation member and the second magnetic field generation member can generate a magnetic field acting on the storage space, and then the magnetic field acts on foodstuffs in the storage space, so that the fresh-keeping effect on the foodstuffs is improved.
F25D 25/00 - Charging, supporting, or discharging the articles to be cooled
F25D 17/04 - Arrangements for circulating cooling fluidsArrangements for circulating gas, e.g. air, within refrigerated spaces for circulating gas, e.g. by natural convection
F25D 11/00 - Self-contained movable devices associated with refrigerating machinery, e.g. domestic refrigerators
The present application discloses a built-in refrigeration device, comprising a housing, a door body, an automatic door opening mechanism, a main control board, and knock sensors electrically connected to the main control board. Each knock sensor comprises a sensor body, a fixing part configured to fix the sensor body to the housing, and a probe protruding from the front end of the housing. The probe comes into contact with the door body to collect a knock signal on the door body. A cable connecting the knock sensor to the main control board is not pulled and stretched in a door opening and closing process, abrasion of the cable is reduced, and the service life of the refrigeration device is prolonged.
QINGDAO HAIER SPECIAL REFRIGERATION ELECTRIC APPLIANCE CO., LTD. (China)
QINGDAO HAIER REFRIGERATOR CO., LTD (China)
HAIER SMART HOME CO., LTD. (China)
Inventor
Liu, Zhanzhan
Wang, Haijuan
Cheng, Xueli
Abstract
An insulating panel includes a vacuum insulation panel and insulating material. The vacuum insulation panel includes a core material and a coating material, wherein the core material provides an annular groove on one side, the coating material envelops the core material, and a vacuum is formed between the core material and the coating material; the insulating material is arranged in the annular groove enveloped by the coating material, the insulating material is located on the same plane as the vacuum insulation panel, and the thermal resistance of the insulating material is higher than the thermal resistance of the coating material. The disclosed insulating panel reduce the heat transfer to the edges and inside of the vacuum insulation panel through the insulating material. This reduction lowers the “thermal bridging effect” at the edges of the vacuum insulation panel, thereby achieving effective thermal insulation.
QINGDAO HAIER SMART TECHNOLOGY R & D CO., LTD. (China)
HAIER SMART HOME CO., LTD. (China)
Inventor
Li, Kang
Li, Huagang
Xia, Enpin
Dong, Yufeng
Wang, Changzhi
Abstract
A storage assembly, which comprises: a cabinet body (100), a door body (200), and a hinge assembly (300); the door body (200) is pivotally connected to an open side (10) of the cabinet body (100) by means of the hinge assembly (300); the hinge assembly (300) comprises a main shaft (31), an auxiliary shaft (32) used for guiding the rotation of the door body (200), and a main slot (21) and an auxiliary slot (22) respectively corresponding to the main shaft (31) and the auxiliary shaft (32); when the the door body (200) pivots, there is a stage in which the auxiliary shaft (32) moves along the trajectory of the linear auxiliary shaft (32) as a whole. Further provided is a refrigerator comprising the storage assembly. the door body of the storage assembly and the refrigerator stably pivots.
E05D 7/081 - Hinges or pivots of special construction for use in suspensions comprising two spigots placed at opposite edges of the wing, especially at the top and the bottom, e.g. trunnions the pivot axis of the wing being situated near one edge of the wing
E05D 11/00 - Additional features or accessories of hinges
E06B 3/50 - Arrangements of wings characterised by the manner of movementArrangements of movable wings in openingsFeatures of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
A storage device, comprising a box (100), a door (200) positioned at an opening side of the box (100), and a hinge assembly (300) rotatably connecting the door (200) to the box (100). When the door (200) closes the opening side, a direction from the center of the door (200) towards the box (100) is a first direction (F1), and a direction opposite to the first direction (F1) is a second direction (F2); and in the process of opening the door (200) by means of rotation, the hinge assembly (300) drives the door (200) to translate according to a preset trajectory, and the preset trajectory sequentially comprises a first translation stage at which the door (200) translates in the first direction (F1), and a second translation stage at which the door (200) translates in the second direction (F2). The storage device prevents the door from interfering with the box during the process of opening the door by means of rotation.
E05D 7/081 - Hinges or pivots of special construction for use in suspensions comprising two spigots placed at opposite edges of the wing, especially at the top and the bottom, e.g. trunnions the pivot axis of the wing being situated near one edge of the wing
E05D 11/00 - Additional features or accessories of hinges
E06B 3/50 - Arrangements of wings characterised by the manner of movementArrangements of movable wings in openingsFeatures of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
98.
HEATING METHOD, AND REFRIGERATING AND FREEZING APPARATUS
Disclosed are a heating method and a refrigerating and freezing apparatus (200) having a heating unit (100). The heating method comprises: controlling a heating unit (100) to operate to heat an object to be processed (150); if a heating suspension condition is met, recording a current heating parameter of the heating unit (100), and controlling the heating unit (100) to stop operating; and if a heating continuation condition is met, controlling the heating unit (100) to continue operating according to the recorded heating parameter. By means of recording the most recent heating parameter before the heating unit (100) stops heating, heating continues according to the recorded heating parameter after heating is resumed, thereby simplifying a control process, preventing a re-determined heating parameter from causing an object to be processed (150) to be excessively heated, shortening a heating time, and reducing unnecessary energy consumption.
QINGDAO HAIER SMART TECHNOLOGY R & D CO., LTD. (China)
HAIER SMART HOME CO., LTD. (China)
Inventor
Li, Kang
Xia, Enpin
Li, Huagang
Dong, Yufeng
Wang, Changzhi
Abstract
A storage assembly, which comprises: a cabinet body (100), a door body (200), and a hinge assembly (300); the door body (200) is pivotally connected to an open side (10) of the cabinet body (100) by means of the hinge assembly (300); the hinge assembly (300) comprises a main shaft (31), an auxiliary shaft (32) used for guiding the rotation of the door body (200), and a main slot (21) and an auxiliary slot (22) respectively corresponding to the main shaft (31) and the auxiliary shaft (32); at different stages of the opening process of the door body (200), the door body (200) exhibits different states of motion. Further provided is a refrigerator comprising the storage assembly. The storage assembly and the refrigerator can adapt to requirements of users at all stages of opening, improving the use experience of the user.
E05D 7/081 - Hinges or pivots of special construction for use in suspensions comprising two spigots placed at opposite edges of the wing, especially at the top and the bottom, e.g. trunnions the pivot axis of the wing being situated near one edge of the wing
E05D 11/00 - Additional features or accessories of hinges
E06B 3/50 - Arrangements of wings characterised by the manner of movementArrangements of movable wings in openingsFeatures of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
100.
NATURAL LANGUAGE UNDERSTANDING METHOD AND REFRIGERATOR
Disclosed in the present invention are a natural language understanding method and a refrigerator. The method comprises: obtaining a labeled text corresponding to text data; performing slot extraction on the labeled text, and performing matching on a plurality of pieces of extracted slot information on the basis of a preset slot database to obtain a plurality of matching results; and identifying the plurality of matching results and fusing same to obtain understanding result information. According to the method, the accuracy of understanding result information is improved, and the user experience is improved.
patents
