CN220587836U

CN220587836U - Storage cabinet with multiple compartments

Info

Publication number: CN220587836U
Application number: CN202322037243.XU
Authority: CN
Inventors: 孙绍斌; 杜成刚; 周星中; 李继超; 宋雨威
Original assignee: Qingdao Hisense Commercial Cold Chain Co Ltd
Current assignee: Qingdao Hisense Commercial Cold Chain Co Ltd
Priority date: 2023-07-31
Filing date: 2023-07-31
Publication date: 2024-03-15
Anticipated expiration: 2033-07-31

Abstract

The utility model provides a locker with a plurality of compartments. The cabinet comprises a cabinet body and an inner container, wherein the inner container is arranged in the cabinet body, at least two compartments are formed in the inner container, and the two compartments are distributed along the height direction of the cabinet body; the baffle is connected in the inner bag, and the baffle is used for separating two adjacent compartments, and the baffle includes: at least one fixing plate fixedly connected to the side wall of the liner, wherein the fixing plate is provided with at least one ventilation opening so that the air flow in two adjacent compartments is communicated through the ventilation openings; the rotary plate is arranged at the ventilation opening and is rotationally connected with the fixed plate, and the rotary plate rotates to close or open the ventilation opening; when the partition plate is in an open state, the rotating plate partially shields or does not shield the ventilation opening, so that air flows in two adjacent compartments circulate through the ventilation opening; when the partition plate is in a closed state, the ventilation openings are all shielded by the rotary plate, so that the ventilation openings are closed, and two adjacent compartments are isolated.

Description

Storage cabinet with multiple compartments

Technical Field

The utility model relates to the technical field of household appliances, in particular to a locker with a plurality of compartments.

Background

Along with the wide application of the storage cabinet, people have more temperature control demands on the storage cabinet, and sometimes the storage is required to be carried out under different temperature areas.

The locker with a plurality of compartments can meet the demands of people for articles to be placed at different storage temperatures. The cabinet comprises a cabinet body, wherein an inner container is arranged in the cabinet body, at least two compartments are formed in the inner container, the temperature ranges in different compartments are different, and the different compartments are used for storing foods or beverages with different temperature requirements.

The compartments are arranged along the height direction of the cabinet body, and two adjacent compartments are separated by a partition plate. In the use process of the storage cabinet, when the set temperature ranges in two adjacent compartments are the same, the two compartments need to be communicated.

In the prior art, when two adjacent compartments are to be communicated, a partition plate having a partition function needs to be detached to allow air flow between the two compartments. The user need take out beverage or food on the layer frame on the baffle entirely, just can dismantle the baffle, and operation rule is loaded down with trivial details, brings bad experience for user's use.

Disclosure of Invention

The present utility model solves at least one of the technical problems in the related art to a certain extent.

For this purpose, the present application aims to provide a locker with a plurality of compartments, wherein the partition plate comprises a fixed plate and a rotating plate, the fixed plate is fixedly connected to the side wall of the liner, and at least one ventilation opening is arranged on the fixed plate, so that the air flows in two adjacent compartments are communicated through the ventilation openings; the rotor plate is located ventilation opening part, rotates between rotor plate and the fixed plate to be connected, and the rotor plate rotates in order to close or open ventilation opening, and the user rotates the rotor plate in order to open ventilation opening to make the air current in two compartments can free flow, need not demolish layer frame or baffle from the inner bag, easy and simple to handle.

A locker having a plurality of compartments according to the present application, comprising:

a cabinet body in which a storage space is formed;

the top plate and the base are respectively connected to the top and the bottom of the cabinet body, and the extending direction of the cabinet body between the top plate and the base is the height direction of the cabinet body;

the inner container is arranged in the cabinet body, at least two compartments are formed in the inner container, and the two compartments are distributed along the height direction of the cabinet body;

the baffle, in the baffle connection inner bag, the baffle is used for separating two adjacent compartments, the baffle includes:

At least one fixing plate fixedly connected to the side wall of the liner, wherein the fixing plate is provided with at least one ventilation opening so that the air flow in two adjacent compartments is communicated through the ventilation openings;

the rotary plate is arranged at the ventilation opening and is rotationally connected with the fixed plate, and the rotary plate rotates to close or open the ventilation opening;

the partition has at least an open state and a closed state:

when the partition plate is in an open state, the rotating plate partially shields or does not shield the ventilation opening, so that air flows in two adjacent compartments circulate through the ventilation opening;

when the partition plate is in a closed state, the rotary plate completely shields the ventilation opening, so that the ventilation opening is closed, and two adjacent compartments are isolated.

a cabinet body in which a storage space is formed;

at least one rotating part rotatably connected with the fixed plate, the rotating part rotating to close or open the ventilation opening;

the movement track of the rotating part is a curve, and the shape and the size of the rotating part are matched with the shape and the size of the ventilation opening.

In some embodiments of the present application, the projection of the ventilation opening onto the top plate is fan-shaped, the projection of the rotating plate onto the top plate is fan-shaped, and the size and shape of the rotating plate are matched with the size and shape of the ventilation opening so that the rotating plate completely shields the ventilation opening when the partition is in the closed state.

In some embodiments of the present application, the center of the ventilation opening and the center of the rotation plate are projected on the top plate to overlap, and the central angle corresponding to the ventilation opening is the same as the central angle corresponding to the rotation plate.

In some embodiments of the present application, the ventilation openings have at least two, the rotating plates have at least two, the two ventilation openings are symmetrically arranged, and the single rotating plate is arranged at the single ventilation opening, so that the single rotating plate can close the single ventilation opening.

In some embodiments of the present application, the rotary plate is provided with a handle, the handle is disposed on a side surface of the rotary plate extending along a height direction of the cabinet body, the handle is in a long strip shape, and at least part of the handle is disposed outside the ventilation opening.

In some embodiments of the present application, the fixing plate is provided with at least two positioning columns, the distance between the positioning columns and the center of the rotating plate is L1, and the distance between one end of the handle, which is far away from the center of the rotating plate, and the center of the rotating plate is L2, where L1 is less than or equal to L2, so that the handle is limited to rotate between the two positioning columns.

In some embodiments of the present application, a circular area is provided on the fixing plate, a sector is provided in the circular area, and the sector is of a hollow structure; the ventilation opening is arranged between the fan-shaped parts;

when the partition is in an open state, the rotating plate moves into the sector.

In some embodiments of the present application, the projection of the ventilation opening onto the ceiling is fan-shaped and the projection of the rotation portion onto the ceiling is fan-shaped.

In some embodiments of the present application, a circular area is provided on the fixing plate, a sector is provided in the circular area, and the sector is of a hollow structure; the ventilation openings are arranged between the fan-shaped parts, and when the partition board is in an open state, the rotating part moves into the fan-shaped parts.

The application has at least the following positive effects:

the utility model provides a locker with a plurality of compartments. The cabinet comprises a cabinet body and an inner container, wherein the inner container is arranged in the cabinet body, at least two compartments are formed in the inner container, and the two compartments are distributed along the height direction of the cabinet body; the baffle is connected in the inner bag, and the baffle is used for separating two adjacent compartments, and the baffle includes: at least one fixing plate fixedly connected to the side wall of the liner, wherein the fixing plate is provided with at least one ventilation opening so that the air flow in two adjacent compartments is communicated through the ventilation openings; the rotary plate is arranged at the ventilation opening and is rotationally connected with the fixed plate, and the rotary plate rotates to close or open the ventilation opening; when the partition plate is in an open state, the rotating plate partially shields or does not shield the ventilation opening, so that air flows in two adjacent compartments circulate through the ventilation opening; when the partition plate is in a closed state, the ventilation openings are all shielded by the rotary plate, so that the ventilation openings are closed, and two adjacent compartments are isolated. When the temperature ranges in the two compartments are different, for example, cold air is required to be blown into one compartment, and hot air is required to be blown into the other compartment, the user can rotate the rotating plate to enable the rotating plate to completely shield the ventilation opening, so that the two compartments are isolated, and the two compartments can be used for cooling or heating separately. When the temperature ranges of the two compartments are the same, for example, when both compartments need to blow cold air or hot air, the user rotates the rotating plate to open the ventilation opening, so that the air flow in the two compartments can flow freely, the shelf or the partition plate does not need to be removed from the liner, and the operation is simple.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a view of the appearance of a locker having a plurality of compartments according to a first embodiment of the present application;

FIG. 2 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a first embodiment of the present application;

FIG. 3 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in an open state according to a first embodiment of the present application;

FIG. 4 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a first embodiment of the present application;

FIG. 5 is a schematic view of a bulkhead removal rail of a locker having a plurality of compartments according to a first embodiment of the application;

FIG. 6 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a first embodiment of the present application;

FIG. 7 is a cross-sectional view taken along A-A in FIG. 6;

FIG. 8 is a view of the appearance of a locker having a plurality of compartments according to a second embodiment of the present application;

FIG. 9 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a second embodiment of the present application;

FIG. 10 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in an open state according to a second embodiment of the present application;

FIG. 11 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a second embodiment of the present application;

FIG. 12 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in a closed state according to a second embodiment of the present application;

FIG. 13 is a split view of a bulkhead of a locker having a plurality of compartments according to a second embodiment of the application;

FIG. 14 is a view of the appearance of a locker having a plurality of compartments according to a third embodiment of the present application;

FIG. 15 is a schematic view of a bulkhead of a locker having a plurality of compartments in a closed state according to a third embodiment of the disclosure;

FIG. 16 is a schematic illustration of a bulkhead of a locker having a plurality of compartments in an open state according to a third embodiment of the disclosure;

FIG. 17 is a schematic view of a bulkhead of a locker having a plurality of compartments in another view according to the third or fourth embodiment of the present application in a closed state;

FIG. 18 is a schematic view of a bulkhead of a locker having a plurality of compartments in another view according to the third or fourth embodiment of the present application in a closed state;

FIG. 19 is a schematic view of a locker having a plurality of compartments according to a fifth embodiment of the present application;

FIG. 20 is a schematic view of a removable duct cover of a locker having a plurality of compartments according to a fifth embodiment of the present application;

FIG. 21 is a front view of a locker having a plurality of compartments according to a fifth embodiment of the present application;

FIG. 22 is a B-B cross-sectional view of FIG. 21;

FIG. 23 is a schematic illustration of a locker having a plurality of compartments according to a sixth embodiment of the present application;

FIG. 24 is a C-C cross-sectional view of FIG. 23;

in the above figures: 100. a storage cabinet; 11. a cabinet body; 111. a taking and placing port; 112. a back plate; 12. a top plate; 13. a base; 14. an inner container; 15. a compartment; 11. 151, a first compartment; 152. a second compartment; 16. an air duct cover plate; 16. a layer rack; 2. a partition plate; 21. a fixing plate; 211. a ventilation opening; 2111. a first ventilation opening; 2112. a second ventilation opening; 212. positioning columns; 22. a moving plate; 221. the front side of the movable plate; 222. a handle; 223. a recessed portion; 224. a first moving plate; 225. a second moving plate; 226. a lower bottom surface of the movable plate; 23. a track; 231. a fixed rail; 232. a sliding rail; 2321. a blocking portion; 24. a connecting strip; 25. a rotation shaft; 26. a rotating plate; 27. a rotating part; 28. a circular region; 281. a sector; 3. a first heat exchanger; 31. a first heat exchange space; 41. a first cold air duct; 42. the second cold air duct; 43. an air outlet; 44. a hot air duct; 51. a heater; 52. a heating fan; 61. a first damper; 62. and a second damper.

Detailed Description

The present utility model will be specifically described below by way of exemplary embodiments. It is to be understood that elements, structures, and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.

In the description of the present utility model, it should be understood that the orientations or positional relationships indicated by the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., are based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

The terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second" or the like may include one or more such features, either explicitly or implicitly.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

Referring to fig. 1-7, the present application provides a locker 100 having a plurality of compartments 15. The locker 100 includes a locker body 11 and a door body, a storage space is formed in the locker body 11, a delivery opening is provided at a front side of the storage space, and a user can store or take out articles in the storage space through the delivery opening. The door body is rotatably connected with the cabinet body 11 and is used for opening or closing the throwing opening of the storage space.

A plurality of compartments 15 are arranged in the cabinet 11, and one compartment 15 can be correspondingly provided with a door body or a plurality of door bodies. In some embodiments, two compartments 15 are arranged up and down in the cabinet 11, each compartment 15 is correspondingly provided with a door body, and the two door bodies are separated by the partition plate 2.

The cabinet 11 comprises a top plate 12 and a base 13, and further comprises a back plate 112, a first cabinet 11 wall and a second cabinet 11 wall which are connected between the top plate 12 and the base 13, wherein the back plate 112 is arranged opposite to the door, and the first cabinet 11 wall and the second cabinet 11 wall are respectively positioned on the left side and the right side of the cabinet 100.

The first direction is defined as the height direction of the locker 100 between the top plate 12 and the base 13, and the first direction is also the up-down direction. The second direction is defined as the width direction of the locker 100 between the wall of the first cabinet 11 and the wall of the second cabinet 11, and the second direction is also the left-right direction. The third direction is defined as the length direction of the locker 100 between the back plate 112 and the door, and the third direction is also the front-rear direction of the locker 100.

The cabinet 11 may take the form of a refrigeration device according to the prior art, and the cabinet 11 is provided with a refrigeration system, wherein the refrigeration system comprises a compressor, a condenser, a throttling device, an evaporator and other components, and the cabinet 100 comprises the compressor, the condenser, an expansion valve and the evaporator, and performs a refrigeration cycle through the compressor, the condenser, the expansion valve and the evaporator. The refrigeration cycle includes a compression process, a condensation process, an expansion process, and an evaporation process, and provides cold or heat to the compartment 15 through an endothermic or exothermic process of the refrigerant, thereby achieving temperature regulation of the compartment 15.

The compressor compresses the refrigerant gas into a high-temperature and high-pressure state and discharges the compressed refrigerant gas, and the discharged refrigerant gas flows into the condenser. The condenser condenses the compressed high-temperature and high-pressure gaseous refrigerant into a liquid refrigerant, and heat is released to the surrounding environment through the condensation process.

The liquid refrigerant flowing out of the condenser enters an expansion valve, and the expansion valve expands the liquid refrigerant in a high-temperature and high-pressure state condensed in the condenser into a low-pressure liquid refrigerant. The low-pressure liquid refrigerant flowing out of the expansion valve enters the evaporator, and when the liquid refrigerant flows through the evaporator, the heat absorbed by the liquid refrigerant evaporates into low-temperature low-pressure refrigerant gas, and the refrigerant gas in a low-temperature low-pressure state returns to the compressor. The evaporator may achieve a cooling effect by exchanging heat with a material to be cooled using latent heat of evaporation of a refrigerant.

A heater is also provided in the cabinet 11 to heat the air to raise the temperature in the compartment 15. An air outlet and an air return opening are arranged in the cabinet body 11, and cold air or hot air can be blown out from the air outlet.

A partition plate 2 is also arranged in the cabinet 11, and the partition plate 2 is used for separating two adjacent compartments 15.

When the partition board 2 is in the closed state, the heater is electrified, the heater is positioned on one side of the partition board 2, the heater can only heat the air in the compartment 15 where the heater is positioned, but can not heat the air in the other compartment 15, and the partition board 2 divides the cabinet 11 into a refrigerating compartment 15 and a heating compartment 15. Cool air blown out by the refrigerating system is blown into the compartment 15 without the heater through the air outlet, and after the cool air exchanges heat with objects in the compartment 15, the cool air returns to the evaporator from the air return port for circulating refrigeration.

The middle beam frame is arranged on the inner side wall of the liner 14, the partition plate 2 is connected with the middle beam frame, specifically, the middle beam frame can be fixed in the cabinet 11 by adopting independent components, or the middle beam frame can be integrally formed in the liner 14, and the layer frame 16 is detachably connected with the middle beam frame.

The locker 100 having a plurality of compartments 15 can satisfy the needs of people for articles to be placed at different storage temperatures. The locker 100 with a plurality of compartments 15 comprises a locker body 11, wherein an inner container 14 is arranged in the locker body 11, at least two compartments 15 are formed in the inner container 14, the temperature ranges in different compartments 15 are different, and different compartments 15 are used for storing foods or beverages with different temperature requirements.

The plurality of compartments 15 are arranged along the height direction of the cabinet 11, and two adjacent compartments 15 are separated by the partition plate 2. In the use of the locker 100, when the temperature ranges set in the adjacent two compartments 15 are the same, the two compartments 15 need to be communicated.

In the actual use of the locker 100, if the user needs to use both compartments 15 for refrigerating articles, the partition plate 2 needs to be removed to allow the air flow between the two compartments 15 to be in a circulating state. In the compartment 15 located above, a shelf 16 is often provided, and when the shelf 16 is located closer to the partition 2, the user needs to remove the shelf 16 and the food or beverage on the partition 2, and remove the shelf 16 before removing the partition 2. The user takes much time to remove the article and disassemble the shelves 16 and the partition boards 2, which is inconvenient for the user.

Hereinafter, embodiments of the present application will be described in detail with reference to fig. 1 to 24.

The partition plate 2 is connected in the inner container 14, the partition plate 2 is used for separating two adjacent compartments 15, the partition plate 2 comprises at least two fixing plates 21, the fixing plates 21 are fixedly connected to the side wall of the inner container 14, the two fixing plates 21 are distributed along the height direction of the cabinet 11, and an installation space is formed between the two fixing plates 21.

The partition plate 2 further comprises at least one moving plate 22, the moving plate 22 is slidably connected to the side wall of the liner 14, the moving plate 22 is disposed between the two fixed plates 21, and the moving plate 22 can move relative to the two fixed plates 21. When the moving plate 22 moves, the ventilation opening 211 can be opened or the ventilation opening 211 can be closed.

The partition 2 has at least an open state and a closed state. When the partition plate 2 is in the open state, the moving plate 22 is in the first position with a large distance between the front side edge of the partition plate 2 and the door body, so that the partition plate 2 opens the ventilation opening 211 located on the front side of the moving plate 22 to circulate the air flow in the two adjacent compartments 15 through the ventilation opening 211. At this time, the temperatures in the two compartments 15 are in the same temperature control region, and the two compartments 15 are simultaneously in a cooling state or a heating state.

When the partition plate 2 is in the closed state, the moving plate 22 is in the second position so that the partition plate 2 closes the ventilation opening 211 to isolate between two adjacent compartments 15, and the air flow cannot flow from one compartment 15 to the other compartment 15. At this time, the temperature ranges required to be reached in the two compartments 15 are different, one of the two compartments 15 is in a cooling/heating state or one is in a cooling/heating state, and the other is in a normal temperature state, so that the two compartments 15 can store articles in different temperature ranges, respectively.

The moving plate 22 is located closer to the door body than when the moving plate 22 is located in the second position, the ventilation opening 211 is opened in the partition plate 2 when the moving plate 22 is located in the first position, and the partition plate 2 completely insulates the two compartments 15 when the moving plate 22 is located in the second position, and closes the ventilation opening 211.

Compared with the prior art, the partition board 2 of the present application comprises the fixed boards 21 and the movable boards 22, wherein the fixed boards 21 are at least two, the movable board 22 is at least one, one movable board 22 is connected in the space between the two fixed boards 21, the movable board 22 can slide relative to the fixed boards 21, a user can directly slide the movable board 22 to open or close the ventilation opening 211, when the user moves the movable board 22 backwards to the first position, the ventilation opening 211 is opened, the upper and lower compartments 15 can be directly ventilated, so that the temperature ranges in the upper and lower compartments 15 are consistent, the ventilation of the upper and lower compartments 15 can be realized without detaching the partition board 2 from the liner 14, and the user can realize the ventilation or the non-ventilation of the two compartments 15 by only sliding the movable board 22 forwards and backwards.

Alternatively, the partition plate 2 includes a rail 23, the rail 23 includes a fixed rail 231 and a sliding rail 232, the fixed plate 21 is connected to the fixed rail 231, the moving plate 22 is connected to the sliding rail 232, and the moving plate 22 is connected to the sliding rail 232. It should be noted that, the track 23 is an integrally formed structure, the track 23 is an injection molded piece, and the relative position between the fixed track 231 and the sliding track 232 is kept fixed, so that the track of each movement of the moving plate 22 is the same during the moving process, and the probability of collision between the moving plate 22 and the fixed plate 21 is reduced.

The cabinet body 11 is provided with a picking and placing opening 111, the cabinet body 11 further comprises a back plate 112 opposite to the picking and placing opening 111, the extending direction of the cabinet body 11 between the picking and placing opening 111 and the back plate 112 is the length direction of the cabinet body 11, the fixed rail 231 extends along the length direction of the cabinet body 11, and the sliding rail 232 extends along the length direction of the cabinet body 11.

When the partition plate 2 is in the closed state, the moving plate 22 is closer to the door body than the fixed plate 21, and the user can directly contact the moving plate 22 to conveniently push the moving plate 22 to close or open the ventilation opening 211.

The moving plate 22 may include a moving plate front side 221 adjacent to the door body, the moving front side extending in the height direction of the cabinet 11, and the moving plate front side 221 and the sliding rail 232 together forming the ventilation opening 211.

Optionally, the handle 222 is disposed on the moving plate 22, and the moving plate 22 includes a moving plate lower bottom 226 near the base 13, where the moving plate lower bottom 226 protrudes toward the base 13 to form the handle 222.

The upper surface of the moving plate 22 is a planar structure, a user can place food or drink to be stored on the upper surface of the moving plate 22, a protruding handle 222 is arranged on the lower bottom surface of the moving plate 22, the user can extend hands below the moving plate 22 to contact the handle 222, and the user pulls the handle 222 to push the moving plate 22, so that the operation is convenient.

Optionally, a gap is formed between the moving plate 22 and the fixed plate 21, and the storage cabinet 100 further includes a sealing strip disposed in the gap between the moving plate 22 and the fixed plate 21. The sealing strip can seal the gap between the movable plate 22 and the fixed plate 21, and when the partition plate 2 is in a closed state, the sealing strip can isolate the air flow in the two compartments 15 from flowing from the gap between the movable plate 22 and the fixed plate 21, so that the effect of isolating the air flow between the two compartments 15 of the partition plate 2 is better.

The sliding rail 232 may be provided with a blocking portion 2321, and a side of the moving plate 22, which is close to the sliding rail 232, is provided with a recess 223, where the blocking portion 2321 is cooperatively connected with the recess 223, so that the moving plate 22 is in a stationary state when in the second position.

The user can hold the handle 222 to push the moving plate 22 backward to the second position, so that the recess 223 on the side surface of the moving plate 22 is matched with the blocking part 2321, and the moving plate 22 is in the second position without shaking at will, so that the ventilation opening 211 is opened, and the airflows in the two compartments 15 can circulate each other.

The sliding rail 232 is further provided with a fixing portion, and when the moving plate 22 is at the first position, the fixing portion is connected with the recess 223, so that the moving plate 22 is fixed at the first position, and the partition plate 2 can isolate two adjacent compartments 15 and cannot move back and forth.

The locker 100 according to the present embodiment includes a liner 14, a plurality of compartments 15 are formed in the liner 14, at least two compartments 15 are formed in the liner 14, and the two compartments 15 are arranged along the height direction of the cabinet 11. The partition 2 is connected in the inner container 14, the partition 2 being adapted to separate two adjacent compartments 15, the partition 2 having at least an open or a closed state.

The partition plate 2 includes a rail 23, a fixed plate 21, and a moving plate 22. The track 23 is fixedly connected with the liner 14, a fixed track 231 and a sliding track 232 are arranged on the track 23, the fixed track 231 is provided with at least two layers, and the sliding track 232 is arranged between the two layers of fixed tracks 231.

The fixing plates 21 are connected with the fixing rails 231, the fixing plates 21 at least comprise two, a single fixing plate 21 is connected with the single-layer fixing rail 231, and the two fixing plates 21 are connected on the two fixing rails 231. The fixing plate 21 is fixedly connected with the liner 14 through a fixing rail 231. The moving plate 22 is connected to the sliding rail 232, the moving plate 22 is capable of sliding with respect to the sliding rail 232, and the moving plate 22 slides between the two fixed plates 21 to open or close the ventilation opening 211.

The fixed rail 231 and the sliding rail 232 are respectively elongated, and the length of the fixed rail 231 extending in the longitudinal direction thereof is not greater than the length of the sliding rail 232 extending in the longitudinal direction thereof, so that the moving plate 22 can move in the front-rear direction along the sliding rail 232. The moving plate 22 slides along the sliding rail 232 to open or close the ventilation opening 211 to circulate or block the air flow between two adjacent compartments 15.

Alternatively, both the fixed plate 21 and the sliding plate are subjected to foaming treatment so that the fixed plate 21 and the sliding plate have good heat insulation effect, thereby enabling the heat exchange between the upper and lower compartments 15 to be less when the partition plate 2 is in the closed state. The rail 23 is provided with a plurality of screw holes, and the rail 23 and the liner 14 are fixed in the screw holes by penetrating the screws.

Example two

The second embodiment differs from the first embodiment in that the separator 2 is different in structure.

Referring to fig. 8-13, a partition 2 is connected in the liner 14, the partition 2 serving to separate two adjacent compartments 15. The partition plate 2 includes at least one fixed plate 21 and at least two moving plates 22.

The fixing plate 21 is fixedly connected with the inner container 14 and cannot move with the inner container 14. The two movable plates 22 are slidably connected with the liner 14, the two movable plates 22 are respectively arranged on two opposite sides of the fixed plate 21, the two movable plates 22 are simultaneously positioned on the upper side or the lower side of the fixed plate 21, and the two movable plates 22 can move forwards or backwards relative to the fixed plate 21.

The partition plate 2 further comprises at least two connecting strips 24, wherein two ends of each connecting strip 24 are respectively connected to two movable plates 22, namely, one end of each connecting strip 24 is connected to one movable plate 22, and the other end of each connecting strip 24 is connected to the other movable plate 22. When one of the moving plates 22 is moved, the connecting bar 24 can drive the other moving plate 22 to move.

The partition plate 2 further comprises a rotating shaft 25, the two connecting strips 24 are rotatably connected with the same rotating shaft 25, and the rotating shaft 25 is arranged in the middle of the connecting strips 24.

The structures of the two connection bars 24 are identical, and the rotation shaft 25 is provided at the same position of the two identical connection bars 24. The two connecting bars 24 are connected between the two moving plates 22, when a user moves one of the moving plates 22, one end of the two connecting bars 24 moves, and since the middle part of the connecting bar 24 is connected with the rotating shaft 25, the connecting bar 24 rotates around the rotating shaft 25, so that the other end of the connecting bar 24 drives the other moving plate 22 to move.

Because the shapes and the sizes of the two connecting bars 24 are consistent, and when a user moves one of the moving plates 22, the two connecting bars 24 are driven to rotate, so that the two connecting bars 24 can drive the other moving plate 22 to move, and the requirement that only one moving plate 22 needs to be moved to move the other moving plate 22 is met.

The partition 2 has at least an open state and a closed state. When the partition plate 2 is in the open state, the two moving plates 22 are in the first position such that the partition plate 2 opens the ventilation openings 211, and the two ventilation openings 211 are provided on both sides of the moving plates 22, respectively, such that the air flows in the two adjacent compartments 15 circulate through the ventilation openings 211.

When the partition 2 is in the closed state, the two moving plates 22 are in the second position so that the partition 2 closes the ventilation opening 211 to isolate between the two adjacent compartments 15. The moving plate 22 is in the first position closer to the fixed plate 21 than the moving plate 22 is in the second position.

When the two moving plates 22 are in the first position, a ventilation opening 211 is formed between the moving plate 22 close to the back plate 112 and the liner 14, a ventilation opening 211 is formed between the moving plate 22 close to the door body and the door body, and air flow can flow from the two ventilation openings 211, so that air flow can flow in the upper chamber 15 and the lower chamber 15.

Compared with the prior art, the partition plate 2 of the present embodiment includes at least two moving plates 22 and at least one fixed plate 21, the two moving plates 22 are respectively disposed at two sides of the fixed plate 21, and the two moving plates 22 are connected by the connecting bar 24, when one of the moving plates 22 is moved, the connecting bar 24 rotates about the rotation axis 25 to drive the other moving plate 22 to move, the two moving plates 22 can open or close the two ventilation openings 211, so that the two compartments 15 above and below the partition plate 2 can be ventilated through the ventilation openings 211, and a user only pushes the moving plate 22 close to the door body, and the other moving plate 22 can move under the action of the connecting bar 24, so that the user can conveniently open or close the ventilation openings 211, and the air flow communication between the two compartments 15 can be realized without disassembling the shelves 16 and the partition plate 2, which is convenient to operate.

When the partition plate 2 is in the closed state, at least one moving plate 22 is closer to the door body than the fixed plate 21, and the user can directly contact the moving plate 22, so that the user can conveniently push the moving plate 22 to close or open the ventilation opening 211.

Optionally, the cabinet 11 is provided with a picking and placing port 111, and the cabinet 11 further includes a back plate 112 opposite to the picking and placing port 111.

The moving plate 22 includes a first moving plate 224 adjacent to the back plate 112, a first ventilation opening 2111 is formed between a side of the first moving plate 224 adjacent to the back plate 112 and the sliding rail 232, and a second ventilation opening 2112 is formed between a side of the second moving plate 225 adjacent to the access opening 111 and the sliding rail 232.

The first moving plate 224 and the second moving plate 225 are connected by the connecting strip 24, so that one of the first moving plate 224 and the second moving plate 225 can drive the other moving plate 22 to move, and the first ventilation opening 2111 and the second ventilation opening 2112 can be simultaneously opened, so that air flow can circulate on both sides of the fixed plate 21, and the air flow can flow more uniformly.

Optionally, the handle 222 is disposed on the moving plate 22, and the moving plate 22 includes a moving plate lower bottom 226 near the base 13, where the moving plate lower bottom 226 protrudes toward the base 13 to form the handle 222. The handle 222 is provided on the moving plate 22 adjacent to the door body.

According to the locker 100, the locker comprises a locker body 11 and an inner container 14, wherein a storage space is formed in the locker body 11, the inner container 14 is arranged in the locker body 11, at least two compartments 15 are formed in the inner container 14, and the two compartments 15 are distributed along the height direction of the locker body 11.

Baffle 2 is connected in the liner 14, the baffle 2 is used for separating two adjacent compartments 15, and the baffle 2 comprises a track 23, a fixed plate 21 and a movable plate 22. The track 23 is fixedly connected with the liner 14, at least one fixed track 231 and at least two sliding tracks 232 are arranged on the track 23, the two sliding tracks 232 are arranged on two sides of the fixed track 231, one sliding track 232 is close to the back plate 112, and the other sliding track 232 is close to the door body.

The fixed plate 21 is connected with the fixed rail 231, the fixed plate 21 is fixedly connected with the liner 14 through the fixed rail 231, the number of the movable plates 22 is at least two, the single movable plate 22 is connected with the single sliding rail 232, and the movable plate 22 can move along the sliding rail 232.

The projected partial areas of the two sliding rails 232 on the top plate 12 do not overlap, so that the movement trajectories of the two moving plates 22 have at least partial areas that do not overlap, and when the two moving plates 22 move along the two sliding rails 232, the two moving plates 22 move in opposite directions to open the different ventilation openings 211. The two moving plates 22 slide along the sliding rails 232 to open or close the ventilation openings 211 to circulate or block the air flow between the two adjacent compartments 15.

Example III

The third embodiment differs from the first embodiment in the structure of the separator 2.

Referring to fig. 14-18, the present embodiment provides a locker 100 having a plurality of compartments 15, which includes a cabinet 11, a top plate 12, a base 13, and a liner 14, wherein a storage space is formed in the cabinet 11, and the top plate 12 and the base 13 are respectively connected to the top and the bottom of the cabinet 11.

The inner container 14 is arranged in the cabinet 11, at least two compartments 15 are formed in the inner container 14, and the two compartments 15 are arranged along the height direction of the cabinet 11. The partition plate 2 is connected in the inner container 14, the partition plate 2 being used for separating two adjacent compartments 15, the partition plate 2 comprising at least one fixing plate 21 and at least one rotating plate 26.

The fixing plate 21 is fixedly connected to the side wall of the liner 14, and at least one ventilation opening 211 is formed in the fixing plate 21, so that air flows in two adjacent compartments 15 are communicated through the ventilation opening 211, the fixing plate 21 plays a role in separating the two compartments 15, and when the ventilation opening 211 is opened, the air flows in the two compartments 15 can flow through the ventilation opening 211 in the fixing plate 21.

At least one rotating plate 26 is provided at the ventilation opening 211, the rotating plate 26 is rotatably connected with the fixed plate 21, the rotating plate 26 is rotated to close or open the ventilation opening 211, the rotating plate 26 can rotate relative to the fixed plate 21 to rotate the rotating plate 26 to open the ventilation opening 211, and an opening area of the ventilation opening 211 can be controlled to control a flow amount of the air flow between the two compartments 15.

The partition plate 2 has at least two states of an open state and a closed state.

When the partition plate 2 is in the opened state, the rotation plate 26 partially shields or does not shield the ventilation opening 211 so that the air flow in the two adjacent compartments 15 is circulated through the ventilation opening 211, and the temperature control ranges of the two compartments 15 are the same. When the partition plate 2 is in the closed state, the rotary plate 26 entirely shields the ventilation opening 211 so that the ventilation opening 211 is closed, thereby isolating two adjacent compartments 15, and the air flow of the two compartments 15 cannot circulate through the partition plate 2, and the two compartments 15 are separately controlled in temperature.

Compared with the prior art, the partition board 2 of the present embodiment includes the rotary plate 26 and the fixed plate 21, the ventilation opening 211 is provided on the fixed plate 21, and the size and shape of the rotary plate 26 are matched with the shape and size of the ventilation opening 211, so that the rotary plate 26 can be completely opened or completely cover the ventilation opening 211. When the user needs to blow cold air in one compartment 15 and hot air in the other compartment 15, for example, when the temperature ranges in the two compartments 15 are different, the user can rotate the rotating plate 26 so that the rotating plate 26 completely shields the ventilation opening 211, thereby isolating the two compartments 15, and the two compartments 15 can be separately cooled or heated. When the user needs the same temperature range of the two compartments 15, for example, when both compartments 15 need to blow cold air or blow hot air, the user rotates the rotating plate 26 to open the ventilation opening 211, so that the air flow in the two compartments 15 can flow freely, and the shelf 16 or the partition plate 2 does not need to be detached from the liner 14, so that the operation is simple and convenient, and the method has obvious improvement compared with the prior art.

Alternatively, the projection of the ventilation opening 211 on the top plate 12 is in the shape of a fan, the projection of the rotary plate 26 on the top plate 12 is in the shape of a fan, and the size and shape of the rotary plate 26 are matched with those of the ventilation opening 211, so that the rotary plate 26 completely shields the ventilation opening 211 when the partition 2 is in the closed state.

The fan-shaped ventilation opening 211 is matched with the fan-shaped rotating plate 26, so that the appearance of the ventilation opening 211 is more attractive, and when in production, a manufacturer can design the shape and the size of the rotating plate 26 according to the ventilation opening 211 conveniently.

The center of the ventilation opening 211 and the center of the rotary plate 26 are projected on the top plate 12 to overlap, so that the rotary plate 26 is conveniently arranged according to the shape and the size of the ventilation opening 211 during production, the central angle corresponding to the ventilation opening 211 is the same as the central angle corresponding to the rotary plate 26, and the installation is convenient, so that the installation position of the rotary plate 26 is defined, and the installation process is simpler.

Alternatively, at least two ventilation openings 211 are provided, at least two rotation plates 26 are provided, and the two ventilation openings 211 are symmetrically arranged, so that the air flow can flow in the two compartments 15 from the two ventilation openings 211, thereby making the air flow more uniform, and when the partition plate 2 is just switched from the closed state to the open state, the air flow flows in the symmetrical two ventilation openings 211, so that the air flow can be rapidly spread, thereby making the temperature in the two compartments 15 more rapidly reach the uniform state.

The single rotary plate 26 is provided at the single ventilation opening 211 such that the single rotary plate 26 can close the single ventilation opening 211, and a user can flexibly adjust the number of the opened ventilation openings 211 and the ventilation area of the opened ventilation openings 211 as needed.

The rotary plate 26 may be provided with a handle 222, the handle 222 is disposed on a side surface of the rotary plate 26 extending along the height direction of the cabinet 11, the handle 222 is long, and at least part of the handle 222 is disposed outside the ventilation opening 211, so as to facilitate a user to hold the handle 222 to rotate the rotary plate 26, and the operation is convenient.

At least two positioning columns 212 are arranged on the fixed plate 21, the distance between the positioning columns 212 and the center of the circle of the rotating plate 26 is L1, the distance between one end, far away from the center of the circle of the rotating plate 26, of the handle 222 and the center of the circle of the rotating plate 26 is L2, and L1 is less than or equal to L2, so that the handle 222 is limited to rotate between the two positioning columns 212.

Specifically, the two positioning posts 212 are used for limiting the rotation angle of the handle 222, so that the handle 222 rotates within a preset angle, the probability of continuously switching between the open state and the closed state due to the mistaken touching of the handle 222 is reduced, the state of the partition board 2 is more stable, and the operation of a user is facilitated.

A circular area 28 is arranged on the fixed plate 21, a fan-shaped part 281 is arranged in the circular area 28, and the fan-shaped part 281 is of a hollow structure; ventilation openings 211 are also provided in the circular region 28, and ventilation openings 211 are provided between sectors 281. When the partition board 2 is in the open state, the user rotates the rotating board 26, and the rotating board 26 moves into the fan-shaped portion 281 to open the ventilation opening 211, at this time, the rotating board 26 does not shield the ventilation opening 211, so that the space of the partition board 2 is fully utilized, and the appearance is more attractive.

Example IV

The fourth embodiment differs from the third embodiment in that the separator 2 includes a rotating portion 27.

Referring to fig. 14-18, the present embodiment provides a locker 100 having a plurality of compartments 15, including a partition plate 2, the partition plate 2 being coupled in a liner 14, the partition plate 2 for separating two adjacent compartments 15, the partition plate 2 including at least one fixed plate 21 and at least one rotating portion 27.

At least one fixing plate 21 is fixedly connected to the side wall of the inner container 14, and at least one ventilation opening 211 is formed in the fixing plate 21 so that the air flows in the adjacent two compartments 15 are communicated through the ventilation openings 211. At least one rotating portion 27 is rotatably connected to the fixing plate 21, and the rotating portion 27 rotates to close or open the ventilation opening 211.

The movement trace of the rotating part 27 is a curve, and the shape and size of the rotating part 27 are matched with those of the ventilation opening 211.

It should be noted that, the rotating portion 27 may have any structure other than a plate, and the rotating portion 27 may have an irregular shape such as a box shape, a block shape, or the like, so long as the structure capable of completely shielding the at least one ventilation opening 211 is within the scope of the present application.

Alternatively, the projection of the ventilation opening 211 on the top plate 12 is fan-shaped, and the projection of the rotation part 27 on the top plate 12 is fan-shaped, so that the rotation part 27 is conveniently provided according to the size and shape of the ventilation opening 211.

A circular area 28 is arranged on the fixed plate 21, a fan-shaped part 281 is arranged in the circular area 28, and the fan-shaped part 281 is of a hollow structure; the ventilation openings 211 are arranged between the fan-shaped parts 281, when the partition board 2 is in the open state, the rotating parts 27 move into the fan-shaped parts 281 to reduce the space occupied by the rotating parts 27, and the partition board 2 is cut and in the open state, so that the ventilation openings 211 are more attractive to observe.

Example five

Referring to fig. 19 to 22, the fifth embodiment is the same as the first embodiment in that the structure and positional relationship of the duct and the damper are different.

In some lockers, a partition is arranged between different compartments, and no ventilation opening is arranged on the partition. When two compartments need to be refrigerated or heated simultaneously, the partition board separating the two compartments needs to be removed to realize the communication of the two compartments, so that the operation is complex, and inconvenience is brought to the use of users. In other lockers, set up a baffle that has the vent in the locker, just can realize the ventilation with the vent is opened, generally need overturn baffle or push-and-pull baffle, but this can lead to the baffle unable article of placing in the vent department of baffle when opening the vent, and the user needs to remove the article of the vent department of baffle in advance, and the operation is also more loaded down with trivial details.

The present embodiment provides a locker having a plurality of compartments. The locker includes the cabinet body, is formed with the storage space in the cabinet body, and the locker still includes roof and base, and roof and base are connected respectively at the top and the bottom of the cabinet body, and the cabinet body is the direction of height of the cabinet body at the extending direction between roof and the base.

The inner container is arranged in the cabinet body, a first compartment 151 and a second compartment 152 are formed in the inner container, and the first compartment 151 and the second compartment 152 are vertically arranged. The first compartment 151 is directly connected to a space where the evaporator is located, and the evaporator can supply cold to the first compartment 151, thereby cooling the first compartment 151. The heater 51 is provided in the second chamber 152, and when the heater 51 is turned on, the second chamber 152 is heated, so that the temperature in the second chamber 152 can be quickly raised.

The baffle is located between two adjacent compartments, and the baffle is foaming setting, does not set up the vent on the baffle, and the user can be directly put the article in the optional position of baffle.

The sealing strip is connected to the end face of the partition board, which is close to the door body, and when the door body is closed, the sealing strip can isolate the gap between the partition board and the door body. When the upper and lower compartments are in a refrigerating state and a heating state respectively, the partition plate and the sealing strip can have good sealing effect, so that the circulation of air flow in the upper and lower compartments is blocked by the partition plate and the sealing strip.

The refrigerating system is arranged in the cabinet and comprises a first heat exchanger 3, when the refrigerating system is in a refrigerating working condition, the first heat exchanger 3 serves as an evaporator, the refrigerant flows in the evaporator to release cold energy, the first heat exchanger 3 is arranged in a first heat exchange space 31 formed in the cabinet, and the evaporator releases the cold energy to gas flowing out of the first heat exchange space 31.

The first cold air duct 41 is disposed in the first compartment 151, the first cold air duct 41 is connected with the first heat exchange space 31, at least a partial area of the first cold air duct 41 extends along the height direction of the cabinet body, and at least one air outlet 43 is disposed on the first cold air duct 41. The cold air flow flowing out of the first heat exchanging space 31 directly flows into the first cold air duct 41 and flows out of the first air outlet 43 into the first compartment 151 to circularly cool the first compartment 151.

The second cold air duct 42 is disposed in the second compartment 152, the second cold air duct 42 is communicated with the first cold air duct 41, at least a partial area of the second cold air duct 42 extends along the height direction of the cabinet body, and the second cold air duct 42 is provided with at least one air outlet 43. The air flow in the second cool air duct 42 flows out from the air outlet 43 into the second compartment 152, so that the temperature in the second compartment 152 is reduced.

The first air door 61 is disposed between the second cool air duct 42 and the first cool air duct 41, and specifically, the first air door 61 can cut off or open a junction of the first cool air duct 41 and the second cool air duct 42. The first cool air duct 41 communicates with the second cool air duct 42 when the first damper 61 is in the open state, and the first cool air duct 41 does not communicate with the second cool air duct 42 when the first damper 61 is in the closed state.

Compared with the prior art, the cabinet of this embodiment is provided with two compartments, the first compartment 151 is directly communicated with the first heat exchange space 31 provided with the evaporator, when the evaporator works, the first compartment 151 is in a refrigerating state, the second compartment 152 is internally provided with the heater 51, and when the heater 51 works, the second compartment 152 is in a heating state. When the first compartment 151 and the second compartment 152 need to be refrigerated, the technical scheme of overturning or moving the partition plates is adopted in the prior art to realize ventilation between the first compartment 151 and the second compartment 152, and the cabinet of the embodiment opens the first air door 61, so that air flow in the first compartment 151 flows into the second compartment 152 through the first air door 61, and therefore cold air flow flows in the first compartment 151 and the second compartment 152, any movement or overturning of the partition plates is not needed, any area on the partition plates can be used for placing articles, and articles on the partition plates do not need to be moved.

Alternatively, the two compartments include a first compartment 151 and a second compartment 152, the second compartment 152 is provided with a heater 51 and a heating fan 52, the second compartment 152 is also provided with a hot air duct 44, and the heater 51 is arranged in the hot air duct 44. Specifically, the heater 51 may be configured as a coil, the heater 51 is turned on to release heat from the coil, the heating fan 52 rotates to blow hot air into the heating air duct, and the heating air duct is provided with a plurality of air outlets 43, and the hot air is blown into the second compartment 152 from the plurality of air outlets 43.

Alternatively, at least two first cold air channels 41 are provided, two first cold air channels 41 are arranged at intervals, and a first air door 61 is arranged between one first cold air channel 41 and one second cold air channel 42.

The bottoms of the two first cold air channels 41 are communicated, an air inlet is arranged at the bottom of each of the two first cold air channels 41, at least one air inlet is arranged, the air inlet is communicated with the first heat exchange space 31, so that air flow blown out of the first heat exchange space 31 enters the air inlet, and the air flow is divided into two paths to enter the two first cold air channels 41 respectively.

When the first damper 61 is opened, the cold air flowing out of the top end of the first cold air duct 41 connected to the first damper 61 flows through the first damper 61 into the second cold air duct 42, so that the cold air can smoothly flow into the second compartment 152.

Alternatively, the second cool air duct 42 is provided with a plurality of air outlets 43 arranged along the height direction of the cabinet body, so that the air flow is blown out from the plurality of air outlets 43 into the second compartment 152. The air is blown into the second compartment 152 from the air outlets 43 with different heights, so that the cold air flow can be diffused in the second compartment 152 more uniformly, the temperature in the second compartment 152 is uniformly distributed, and the cold air flow in the embodiment is blown out from the air outlets 43 with different heights, so that the cold air flow can be diffused in the second compartment 152 more uniformly, and the method has obvious progress compared with the prior art.

Optionally, a second air door 62 is disposed on the partition, and the second air door 62 is disposed in a region of the partition near the pick-and-place opening. The second damper 62 is opened and closed simultaneously with the first damper 61, and the cold air flow in the first compartment 151 is blown out from the first damper 61 to the second compartment 152, and returned from the second damper 62 to the first compartment 151, thereby forming a cycle.

Alternatively, the second compartment 152 is provided with an air duct cover 16, the second cold air duct 42 is disposed in a space between the air duct cover 16 and the inner container, the air duct cover 16 is provided with a second air door 62, and the second air door 62 is communicated with the first compartment 151 and the second compartment 152.

The locker further comprises a controller connected with the first air door 61 and the second air door 62, wherein the controller controls the opening or closing of the first air door 61 according to the instruction input by a user on the panel, and controls the opening or closing of the second air door 62 according to the input instruction. The controller is connected to the heater 51, and can control the start and stop of the heater 51.

When the first compartment 151 and the second compartment 152 are both in a cooling state, the controller outputs a signal to drive the first air door 61 to open and drive the second air door 62 to open, so that the first cold air duct 41 is communicated with the second cold air duct 42, and cold air flowing in the first heat exchange space 31 at the bottom after being cooled by the evaporator flows into the first cold air duct 41, the first air door 61, the second cold air duct 42 and the second air door 62 in sequence, so that cold air circulation is formed in the second compartment 152.

When the first compartment 151 is in a cooling state and the second compartment 152 is in a heating state, the controller outputs a signal to drive the first air door 61 to close and drive the second air door 62 to close, so that the first cold air duct 41 and the second cold air duct 42 are isolated, and air flows in the first compartment 151 and the second compartment 152 can be isolated.

Example six

The basic principle of the sixth embodiment is the same as that of the fifth embodiment, except that the positions and the number of the air ducts and the air doors of the sixth embodiment are different. Referring to fig. 23-24, the present embodiment provides a locker with multiple compartments, in which the upper and lower compartments are configured to allow or isolate air flow through the upper and lower compartments by switching the state of the air door, so that only a part of the air door needs to be opened when the upper and lower compartments need to be cooled at the same time, and the partition plate does not need to be turned over or moved.

The locker includes the cabinet body, is formed with the storage space in the cabinet body, and the locker still includes roof and base, and roof and base are connected respectively at the top and the bottom of the cabinet body, and the cabinet body is the direction of height of the cabinet body at the extending direction between roof and the base.

The baffle is located between two adjacent compartments, and the baffle is foaming setting, does not set up the vent on the baffle, and the user can be directly put the article in the optional position of baffle. The sealing strip is connected to the end face of the partition board, which is close to the door body, and when the door body is closed, the sealing strip can isolate the gap between the partition board and the door body. When the upper and lower compartments are in a refrigerating state and a heating state respectively, the partition plate and the sealing strip can have good sealing effect, so that the circulation of air flow in the upper and lower compartments is blocked by the partition plate and the sealing strip.

The second cold air channels 42 are disposed in the second partition chamber 152, at least part of the areas extend along the height direction of the partition cabinet, at least two partition second cold air channels 42 are provided, and at least one air outlet 43 is provided in a single partition second cold air channel 42. Both the two second cold air channels 42 can deliver cold air into the second compartment 152, the diffusion of the cold air in the second compartment 152 is more uniform, and the two second cold air channels 42 can deliver larger air quantity, so that the interior of the second compartment 152 is rapidly reduced. When one of the second cool air ducts 42 is damaged, the other second cool air duct 42 can be continuously used, so that the cool air is transferred from the first compartment 151 to the second compartment 152 more stably.

The hot air duct 44 is disposed in the second compartment 152 and is in communication with the space in which the partition heater 51 is disposed, so that the air flowing through the surface of the partition heater 51 flows out from the inside of the partition hot air duct 44, and the partition hot air duct 44 is disposed between the two partition second cold air ducts 42, so that the hot air duct 44 is disposed closer to the symmetry axis of the inner container, and thus the hot air can be more uniformly dispersed to both sides of the second compartment 152 when the hot air is blown out from the hot air duct 44.

The first damper 61 is provided between the partition second cool air duct 42 and the partition first cool air duct 41, and the partition first damper 61 is opened or closed to communicate or isolate the partition first cool air duct 41 with the second cool air duct 42.

Compared with the prior art, the cabinet of this embodiment is provided with two compartments, the first compartment 151 is directly communicated with the first heat exchange space 31 provided with the evaporator, when the evaporator works, the first compartment 151 is in a refrigerating state, the second compartment 152 is internally provided with the heater 51, and when the heater 51 works, the second compartment 152 is in a heating state. When the first compartment 151 and the second compartment 152 need to be cooled, the technical scheme of turning or moving the partition plates is adopted in the prior art to realize ventilation between the first compartment 151 and the second compartment 152, the cabinet of the embodiment opens the first air door 61, so that air flow in the first compartment 151 flows into the second compartment 152 through the first air door 61, and thus cold air flows in the first compartment 151 and the second compartment 152, two second cold air channels 42 are provided, and the two second cold air channels 42 are arranged at intervals, so that the cold air flow in the second compartment 152 is more uniformly diffused, and the hot air channel 44 is arranged between the two second cold air channels 42, so that hot air can be blown in alignment with the central position of the second compartment 152, and thus the hot air can be uniformly diffused. When the locker of this embodiment is in need of upper and lower room together refrigeration, need not do arbitrary removal or upset to the baffle, arbitrary region on the baffle all can place article, need not remove the article on the baffle, convenient operation has obvious progress compared prior art.

Alternatively, the two second cool air ducts 42 are symmetrically disposed about the symmetry axis of the rear sidewall of the inner container, and the air outlets 43 on the second cool air ducts 42 are symmetrically disposed about the symmetry axis of the rear sidewall of the inner container, so that cool air blown out from the two second cool air ducts 42 can be relatively uniformly dispersed in the second compartment 152.

Alternatively, the symmetry axis of the hot air duct 44 coincides with the symmetry axis of the rear sidewall of the inner container, and the symmetry axis of the air outlet 43 of the hot air duct 44 coincides with the symmetry axis of the rear sidewall of the inner container. The hot air blown from the hot air duct 44 is directly blown to the center of the second compartment 152 and is spread toward the left and right sides, so that the hot air duct 44 can be uniformly spread in the second compartment 152, thereby making the temperature in the second compartment 152 reach a uniform level.

The first cold air duct 41 has at least two, two first cold air ducts 41 are connected with two second cold air ducts 42 in a one-to-one correspondence manner, the first air door 61 has two, the bottoms of the two first cold air ducts 41 are communicated, the bottoms of the two first cold air ducts 41 are provided with air inlets, the air inlets are communicated with the first heat exchange space 31, so that air flow blown out from the first heat exchange space 31 enters the air inlets, and the air flow is divided into two paths to enter the two first cold air ducts 41 respectively, so that each second cold air duct 42 can be stably butted with the air flow in the first cold air duct 41.

Specifically, the two first cold air channels 41 extend in the vertical direction, the top end of at least one first cold air channel 41 is connected to the first air door 61, and when the first air door 61 is opened, the cold air flow flowing out of the top end of the first cold air channel 41 connected to the first air door 61 flows through the first air door 61 into the second cold air channel 42, so that the cold air flow can smoothly flow into the second compartment 152.

Optionally, the locker further comprises a second air door 62, the second air door 62 is provided on the partition or on the duct cover 16 in the first compartment 151, and the second air door 62 is opened to communicate the second compartment 152 with the first compartment 151.

Alternatively, a plurality of air outlets 43 are arranged along the height direction of the cabinet body on the single second cold air duct 42, so that air flows are blown out from the plurality of air outlets 43 into the first compartment 151.

Alternatively, the hot air duct 44 is provided with a plurality of air outlets 43, and the plurality of air outlets 43 are arranged on the hot air duct 44 along the height direction of the cabinet body, so that the air flow in the hot air duct 44 is blown out from the plurality of air outlets 43 into the first compartment 151.

The foregoing is merely illustrative embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present utility model, and the utility model should be covered. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims

1. A locker having a plurality of compartments, comprising:

a cabinet body in which a storage space is formed;

the baffle, the baffle is connected in the inner bag, the baffle is used for separating two adjacent the compartment, the baffle includes:

the fixing plate is fixedly connected to the side wall of the inner container, and is provided with at least one ventilation opening so that air flows in two adjacent compartments are communicated through the ventilation openings;

the partition has at least an open state and a closed state:

when the partition plate is in an open state, the rotating plate partially shields or does not shield the ventilation opening so as to enable air flows in two adjacent compartments to circulate through the ventilation opening;

When the partition plate is in a closed state, the rotary plate completely shields the ventilation opening so as to close the ventilation opening, thereby isolating two adjacent compartments.

2. The locker of claim 1, wherein the vent opening is fan-shaped in projection onto the top plate and the rotating plate is fan-shaped in projection onto the top plate, the size and shape of the rotating plate matching the size and shape of the vent opening such that the rotating plate completely obstructs the vent opening when the partition is in the closed position.

3. The locker with a plurality of compartments according to claim 2, wherein the center of the ventilation opening is overlapped with the center of the rotation plate projected on the top plate, and the center angle corresponding to the ventilation opening is the same as the center angle corresponding to the rotation plate.

4. A locker with multiple compartments according to claim 1, 2 or 3, wherein said ventilation openings are at least two, said rotation plates are at least two, said two ventilation openings are symmetrically arranged, and a single rotation plate is arranged at a single ventilation opening, so that a single rotation plate can close a single ventilation opening.

5. The locker with a plurality of compartments according to claim 1 or 2, wherein a handle is provided on the rotating plate, the handle is provided on a side surface of the rotating plate extending in a height direction of the locker body, the handle is elongated, and the handle is at least partially provided outside the ventilation opening.

6. The locker with a plurality of compartments according to claim 5, wherein the fixing plate is provided with at least two positioning posts, the distance between the positioning posts and the center of the rotating plate is L1, and the distance between the end of the handle away from the center of the rotating plate and the center of the rotating plate is L2, L1 is less than or equal to L2, so that the handle is limited to rotate between the two positioning posts.

7. The locker with a plurality of compartments according to claim 1, wherein a circular area is arranged on the fixing plate, a fan-shaped part is arranged in the circular area, and the fan-shaped part is of a hollow structure; the ventilation openings are arranged between the fan-shaped parts;

8. A locker having a plurality of compartments, comprising:

A cabinet body in which a storage space is formed;

the motion track of the rotating part is a curve, and the shape and the size of the rotating part are matched with the shape and the size of the ventilation opening.

9. The locker of claim 8, wherein said vent opening is fan-shaped in projection onto said top plate and said swivel is fan-shaped in projection onto said top plate.

10. The locker of claim 8 or 9, wherein the fixing plate is provided with a circular area, and a sector part is arranged in the circular area and is of a hollow structure; the ventilation openings are arranged between the fan-shaped parts, and when the partition plate is in an open state, the rotating part moves into the fan-shaped parts.