CN220250434U - Drawer assembly - Google Patents

Abstract

The application relates to refrigerator drawer technical field discloses a drawer assembly, include: drawer body and chain type partition. The drawer body defines a storage cavity therein; the chain type separating piece is movably arranged in the storage cavity; the chain type separating piece can deform to separate a plurality of independent storage spaces in the storage cavity. In this application, can simplify the process of operation chain formula separator separation storing space, improve storing space's separation efficiency, reduce cost improves user's experience.

Description

Drawer assembly

Technical Field

The application relates to the technical field of refrigerator drawers, in particular to a drawer assembly.

Background

The drawer component is an indispensable storage component in the refrigerator, and the drawer component can facilitate the taking and placing of articles, so that the cold leakage of the refrigerator during taking and placing of articles is reduced. Refrigerator drawers are mostly provided with a storage space, when stored articles are required to be stored in a classified mode, the drawers are generally required to be separated into a plurality of independent storage spaces by purchasing separation boxes, so that articles stored in the drawers are stored and tidied, the storage cost of users is improved, and experience is poor.

There is a drawer which can be separated at will in the related art, characterized by comprising: a drawer body having a receiving cavity; the division plate assembly is arranged in the drawer body and used for dividing the accommodating cavity into a plurality of accommodating spaces; and at least one separation hanging piece component which is hung on the separation plate component and used for separating the placement space into grids in independent space, and the size of the grids can be adjusted by moving the separation hanging piece component, wherein the separation plate component comprises a bottom plate and at least one inserting piece, the bottom plate is arranged at the bottom of the drawer body, a plurality of jacks are formed in the bottom plate, the inserting piece is detachably arranged on the bottom plate, a plug is arranged at one end, close to the bottom plate, of the inserting piece, and the plug is inserted into the jacks.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the space in the accommodating cavity is separated through the mode of inserting the inserting sheet and the bottom plate, the operation is more complicated, the cost is higher, and the user experience is lower.

It should be noted that the information disclosed in the foregoing background section is only for enhancing understanding of the background of the present application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides a drawer assembly to simplify the process of operating chain type partition piece separation storing space, improve the separation efficiency in storing space, reduce cost, improve user's experience.

In some embodiments, a drawer assembly, comprising: drawer body and chain type partition. The drawer body defines a storage cavity therein; the chain type separating piece is movably arranged in the storage cavity; the chain type separating piece can deform to separate a plurality of independent storage spaces in the storage cavity.

Alternatively, the chain type partition is composed of a plurality of partition plates rotatably connected to form a chain type partition structure.

Optionally, a side edge of each partition plate is provided with a first connecting piece, the other opposite side edge is provided with a second connecting piece, and the opposite side edges of the adjacent partition plates are rotationally connected through the first connecting piece and the second connecting piece.

Optionally, the first connector comprises: the first rotating shaft and the first shaft sleeve. The first rotating shaft is arranged in the upper area of one side edge of the partition plate; the first shaft sleeve is arranged in the lower area of one side edge of the partition plate; the second connector includes: the second sleeve and the second rotating shaft. The second sleeve is arranged along the other side edge of the partition plate; the second rotating shaft is arranged at the lower end of the second shaft sleeve; under the condition that adjacent partition plates are rotationally connected, the first rotating shaft is rotationally embedded into the second shaft sleeve, and the second rotating shaft is rotationally embedded into the first shaft sleeve.

Optionally, an installation space is formed between the first rotating shaft and the first shaft sleeve, and the second shaft sleeve and the second rotating shaft are installed in the installation space under the condition that the adjacent partition plates are rotationally connected.

Optionally, the first connector comprises: the third shaft sleeve, the fourth shaft sleeve, the third rotating shaft and the fourth rotating shaft. The third shaft sleeve is arranged in the upper area of one side edge of the partition plate; the fourth shaft sleeve is arranged in the lower area of one side edge of the partition plate; the upper end of the third rotating shaft is detachably embedded in the third shaft sleeve; the lower end of the fourth rotating shaft is detachably embedded in the fourth shaft sleeve; the second connector includes: and a fifth sleeve. The fifth shaft sleeve is arranged along the other side edge of the partition plate; under the condition that adjacent partition plates are rotationally connected, the lower end of the third rotating shaft is rotationally embedded at the upper end of the fifth shaft sleeve, and the upper end of the fourth rotating shaft is rotationally embedded at the lower end of the fifth shaft sleeve.

Optionally, a first damping shaft sleeve and a second damping shaft sleeve are sequentially sleeved on the third rotating shaft along the axial direction; under the condition that adjacent division plates are rotationally connected, the first damping shaft sleeve is fixedly connected with one division plate of the two division plates, and the second damping shaft sleeve is fixedly connected with the other division plate of the two division plates.

Optionally, a third damping shaft sleeve and a fourth damping shaft sleeve are sequentially sleeved on the fourth rotating shaft along the axial direction, and under the condition that adjacent partition plates are rotationally connected, the third damping shaft sleeve is fixedly connected with one partition plate of the two partition plates, and the fourth damping shaft sleeve is fixedly connected with the other partition plate of the two partition plates.

Optionally, the chain type partition is vertically arranged in the storage cavity, and the height of the chain type partition in the vertical direction is smaller than or equal to the height of the drawer body.

Optionally, the interior of the chain divider is formed with a cavity.

The drawer assembly provided by the embodiment of the disclosure can realize the following technical effects:

through set up chain formula separator in the storing intracavity that the drawer body prescribes a limit to, chain formula separator can take place deformation to separate out a plurality of storing spaces and carry out the storing in storing intracavity portion. The user selectively changes the shape and the position of the chain type separating piece according to different storage requirements, so that the chain type separating piece separates storage spaces with different shapes and different sizes, and the storage requirements are better met. Because chain formula separator is the integral type structure of activity, only need change its shape and position when the operation can to simplified the process of operation chain formula separator separation storing space, improved the separation efficiency in storing space, the cost is reduced has improved user's experience.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:

FIG. 1 is an exploded view of a drawer assembly provided in accordance with an embodiment of the present disclosure;

FIG. 2 is a schematic illustration of a drawer assembly provided in accordance with an embodiment of the present disclosure;

FIG. 3 is a schematic view of another drawer assembly provided by an embodiment of the present disclosure;

FIG. 4 is a schematic view of a chain divider provided by an embodiment of the present disclosure;

FIG. 5 is a schematic view of another chain divider provided by an embodiment of the present disclosure;

fig. 6 is a schematic structural view of a partition plate provided in an embodiment of the present disclosure.

Reference numerals:

100. a drawer body; 110. a storage cavity; 111. a storage space; 200. chain type partition pieces; 210. a partition plate; 300. a first connector; 310. a first rotating shaft; 320. a first sleeve; 330. an installation space; 340. a third sleeve; 350. a fourth sleeve; 360. a third rotating shaft; 361. a first damping sleeve; 362. a second damping sleeve; 370. a fourth rotating shaft; 371. a third damping sleeve; 372. a fourth damping sleeve; 400. a second connector; 410. a second sleeve; 420. a second rotating shaft; 430. and a fifth sleeve.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged where appropriate in order to describe the presently disclosed embodiments. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In the embodiments of the present disclosure, the azimuth or positional relationship indicated by the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", etc. is based on the azimuth or positional relationship shown in the drawings. These terms are used primarily to better describe embodiments of the present disclosure and embodiments thereof and are not intended to limit the indicated device, element, or component to a particular orientation or to be constructed and operated in a particular orientation. Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the embodiments of the present disclosure will be understood by those of ordinary skill in the art in view of the specific circumstances.

In addition, the terms "disposed," "connected," and "fixed" are to be construed broadly. For example, "connected" may be in a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the embodiments of the present disclosure may be understood by those of ordinary skill in the art according to specific circumstances.

The term "plurality" means two or more, unless otherwise indicated.

It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.

1-6, in some embodiments, a drawer assembly includes: a drawer body 100 and a chain divider 200. The drawer body 100 defines a storage cavity 110 therein; the chain type partition 200 is movably arranged in the storage cavity 110; wherein the chain divider 200 is capable of deforming to separate a plurality of independent storage spaces 111 within the storage cavity 110.

By adopting the drawer assembly provided by the embodiment of the disclosure, the chain type partition 200 is arranged in the storage cavity 110 defined by the drawer body 100, and the chain type partition 200 can deform, so that a plurality of storage spaces 111 are partitioned inside the storage cavity 110 for storage. The user selectively changes the shape and the position of the chain type separator 200 according to different storage requirements, so that the chain type separator separates storage spaces 111 with different shapes and different sizes, and the storage requirements are better met. Because the chain type separator 200 is of a movable integrated structure, the shape and the position of the chain type separator 200 are only required to be changed during operation, so that the process of operating the chain type separator 200 to separate the storage space 111 is simplified, the separation efficiency of the storage space 111 is improved, the cost is reduced, and the user experience is improved.

Optionally, the drawer body 100 has a rectangular body structure, and the storage cavity 110 defined therein has a rectangular cavity structure. Like this, the drawer body 100 of cuboid form structure is better adapted to the use of refrigerator, and the chain type separator 200 can be rationally placed to rectangular storing chamber 110, and the chain type separator 200 of being convenient for can improve space utilization when placing articles such as food material to the separation of storing chamber 110.

For example, when the drawer assembly is applied to a refrigerator, the drawer body 100 is slidably disposed in a freezing chamber or a refrigerating chamber of the refrigerator, a user puts articles such as food materials into the storage chamber 110 of the drawer body 100 for storage, and when the articles need to be stored in a classified manner, the chain type separator 200 is manually operated to change the shape and the position, a plurality of independent storage spaces 111 are partitioned in the storage chamber 110, and different types of articles are placed in the different storage spaces 111.

Alternatively, the chain type partition 200 is vertically disposed in the storage cavity 110, and the height of the chain type partition 200 in the vertical direction is less than or equal to the height of the drawer body 100. Thus, since the chain type partitioning member 200 partitions the plurality of storage spaces 111 in the storage chamber 110, it is necessary to vertically arrange the chain type partitioning member 200. In order to prevent the upper end of the chain type partitioning member 200 from protruding out of the upper side of the drawer body 100, which affects the assembly of the drawer body 100 in a refrigerator, the height of the chain type partitioning member 200 is set to be less than or equal to the height of the drawer body 100, so that the normal use of the drawer assembly is ensured while the chain type partitioning member 200 partitions the storage space 111 within the storage cavity 110.

Specifically, the height of the chain type partition 200 in the vertical direction is equal to four fifths of the height of the drawer body 100. In this way, the chain type partition piece 200 can reasonably partition a plurality of storage spaces 111 in the storage cavity 110, so that the storage amount of the storage spaces 111 is increased, and the drawer assembly can be ensured to be assembled in the refrigerator for normal use.

Alternatively, the interior of the chain divider 200 is formed with a cavity. In this way, the hollow inside the chain type separator 200 can reduce the efficiency of heat conduction, thereby reducing heat exchange between adjacent storage spaces 111 through the chain type separator 200, and further improving the sorting effect.

Alternatively, the chain type partition 200 is composed of a plurality of partition plates 210 rotatably connected to form a chain type partition structure. In this way, the chain type separating member 200 formed by rotating and connecting the plurality of separating plates 210 has better integrity, and the user can more easily operate the chain type separating member to deform to separate the storage spaces 111 with different sizes and different positions, so that the process of operating the chain type separating member 200 to separate the storage spaces 111 is simplified, and the separation efficiency of the storage spaces 111 is improved. And the chain type partition piece 200 can form a support by itself while separating a plurality of storage spaces 111, and other support matching structures are not required, so that the cost is reduced.

Specifically, each partition plate 210 is internally formed with a cavity.

Specifically, the partition plate 210 has a rectangular plate-like structure. In this way, the chain structure formed by the rotation connection of the plurality of partition plates 210 having the rectangular plate-like structure can be better adapted to the height of the storage cavity 110, thereby better dividing the internal space of the storage cavity 110 into the plurality of storage spaces 111.

Specifically, the plurality of partition plates 210 are all vertically disposed in the storage cavity 110, and the long edges of the partition plates 210 are vertically disposed. In this way, the height of the chain type separation structure formed by the plurality of separation plates 210 is adapted to the height of the storage cavity 110, so that the storage amount of the storage space 111 separated by the plurality of separation plates 210 is increased, and the storage requirement of a user is better met.

Specifically, the height of the long side of the partition plate 210 is four fifths of the height of the storage chamber 110. Thus, since the height of the chain type partitioning member 200 is four fifths of the height of the storage chamber 110, and the chain type partitioning member 200 is composed of the plurality of partitioning plates 210, the long side height of the partitioning plates 210 is set to four fifths of the height of the storage chamber 110.

Alternatively, the long sides of the plurality of partition plates 210 are rotatably connected to form a chain type structure. In this way, the height of the chain type partition 200 composed of the plurality of partition plates 210 is adapted to the storage chamber 110, increasing the storage amount of the partitioned storage space 111.

Alternatively, one side of each partition plate 210 is provided with a first connector 300, the other opposite side is provided with a second connector 400, and the opposite sides of adjacent partition plates 210 are rotatably connected by the first connector 300 and the second connector 400. Thus, by providing the first and second connection members 300 and 400 at opposite sides of the separation plates 210, respectively, when the sides of the adjacent separation plates 210 are rotatably connected, the first connection member 300 at one side of one separation plate 210 is rotatably connected with the second connection member 400 at the other side of the other separation plate 210. Thereby realizing the rotational connection of the sides of the separation plates 210, improving the rotational connection stability of the adjacent separation plates 210, and thus improving the stability of the chain type separation member 200 composed of a plurality of separation plates 210.

Specifically, the first connector 300 is provided at one long side of each partition plate 210, and the second connector 400 is provided at the other long side. Thus, since the separation plates 210 have a rectangular plate-like structure and the long sides of the adjacent separation plates 210 are rotatably connected, the first connector 300 and the second connector 400 are provided at both long sides of each separation plate 210, respectively. When the adjacent separation plates 210 are rotationally connected, the opposite long sides of the two separation plates 210 are rotationally connected through the first connecting piece 300 and the second connecting piece 400, so that the connection area of the adjacent separation plates 210 can be increased, the stability of rotational connection is improved, and the separation height of the chain type separation piece 200 formed by the plurality of separation plates 210 can be ensured.

As shown in connection with fig. 4, in one embodiment, the first connector 300 includes: a first shaft 310 and a first sleeve 320. The first rotating shaft 310 is disposed at an upper region of one side of the partition plate 210; the first shaft sleeve 320 is disposed at a lower region of one side of the partition plate 210; the second connector 400 includes: a second hub 410 and a second shaft 420. The second sleeve 410 is disposed along the other side of the partition plate 210; the second rotating shaft 420 is disposed at the lower end of the second sleeve 410; in the case where adjacent partition plates 210 are rotatably connected, the first shaft 310 is rotatably inserted into the second shaft sleeve 410, and the second shaft 420 is rotatably inserted into the first shaft sleeve 320. Thus, by providing the first rotating shaft 310 and the first shaft sleeve 320 on one side of the partition plate 210, and providing the second rotating shaft 420 and the second shaft sleeve 410 on the other side of the partition plate 210, when the sides of the adjacent partition plates 210 are rotationally connected through the first connecting piece 300 and the second connecting piece 400, the first rotating shaft 310 is embedded into the second shaft sleeve 410, and the second rotating shaft 420 is embedded into the first rotating shaft 310, so that the stability of rotational connection is improved, and the risk of disengaging the adjacent partition plates 210 is reduced. And the first rotating shaft 310 and the first shaft sleeve 320 are respectively arranged at the upper and lower regions of one side edge of the partition plate 210, so that the upper and lower regions of the side edge of the partition plate 210 are respectively provided with a connecting support, and the stability of the rotating connection of the adjacent partition plates 210 is further improved.

Specifically, the first shaft 310 is disposed in an upper region of one side of the partition plate 210, the first shaft sleeve 320 is disposed in a lower region of one side of the partition plate 210, the second shaft sleeve 410 is disposed along the other side of the partition plate 210, and the second shaft 420 is disposed at a lower end of the second shaft sleeve 410.

Alternatively, an installation space 330 is formed between the first shaft 310 and the first shaft sleeve 320, and the second shaft sleeve 410 and the second shaft 420 are installed in the installation space 330 with the adjacent separation plates 210 rotatably coupled. In this way, the installation space 330 is formed between the first rotation shaft 310 and the first shaft sleeve 320, and the second shaft sleeve 410 and the second rotation shaft 420 can be inserted into the installation space 330 when the adjacent separation plates 210 are rotatably connected, so that the first connection member 300 and the second connection member 400 of the adjacent separation plates 210 are formed as a whole, reducing the gap between the adjacent separation plates 210, and thus improving the separation effect of the chain type separation member 200.

Optionally, the radial sidewalls of the first sleeve 320 and the second sleeve 410 are provided with embedded notches. Thus, when the adjacent partition plates 210 are connected, the first rotation shaft 310 is inserted into the second shaft sleeve 410 from the insertion notch of the second shaft sleeve 410, and the second rotation shaft 420 is inserted into the first shaft sleeve 320 from the insertion notch of the first shaft sleeve 320, so that the assembly between the partition plates 210 is facilitated.

As shown in connection with fig. 5 and 6, in another embodiment, the first connector 300 includes: a third shaft sleeve 340, a fourth shaft sleeve 350, a third rotation shaft 360, and a fourth rotation shaft 370. The third shaft sleeve 340 is disposed at an upper region of one side of the partition plate 210; the fourth shaft sleeve 350 is disposed at a lower region of one side of the partition plate 210; the upper end of the third rotating shaft 360 is detachably embedded in the third shaft sleeve 340; the lower end of the fourth rotating shaft 370 is detachably embedded in the fourth shaft sleeve 350; the second connector 400 includes: and a fifth sleeve 430. The fifth sleeve 430 is disposed along the other side of the partition plate 210; in the case where adjacent partition plates 210 are rotatably connected, the lower end of the third rotating shaft 360 is rotatably embedded in the upper end of the fifth shaft sleeve 430, and the upper end of the fourth rotating shaft 370 is rotatably embedded in the lower end of the fifth shaft sleeve 430. In this way, the third shaft sleeve 340, the fourth shaft sleeve 350, the third rotating shaft 360 and the fourth rotating shaft 370 are disposed at one side of the partition plate 210, the fifth shaft sleeve 430 is disposed at the other side of the partition plate 210, when the adjacent side of the partition plate 210 is rotationally connected through the first connecting member 300 and the second connecting member 400, the lower end of the third rotating shaft 360 is embedded into the upper end of the fifth shaft sleeve 430, and the upper end of the fourth rotating shaft 370 is embedded into the lower end of the fifth shaft sleeve 430, thus completing the rotational installation of the first connecting member 300 and the second connecting member 400 and improving the connection stability of the adjacent partition plate 210. The upper end of the third rotating shaft 360 is detachably embedded in the third shaft sleeve 340, the lower end of the fourth rotating shaft 370 is detachably embedded in the fourth shaft sleeve 350, so that the third rotating shaft 360 and the fourth rotating shaft 370 can be independently detached, and when one of the third shaft sleeve 340, the third rotating shaft 360, the fourth shaft sleeve 350 and the fourth rotating shaft 370 is damaged, only damaged parts are required to be independently replaced, the whole sleeve replacement is not required, and the maintenance cost is reduced. And the third shaft sleeve 340 and the fourth shaft sleeve 350 are respectively arranged at the upper and lower regions of one side of the partition plate 210, so that the upper and lower regions of the side of the partition plate 210 are respectively provided with a connection support, and the stability of the rotation connection of the adjacent partition plates 210 is further improved.

Specifically, the third sleeve 340 and the third rotating shaft 360 are both positioned at an upper region of one side long side of the separation plate 210, and the fourth sleeve 350 and the fourth rotating shaft 370 are both positioned at a lower region of one side long side of the separation plate 210; the fifth sleeve 430 is disposed along the other long side of the partition plate 210.

Optionally, an installation space 330 is formed between the third shaft sleeve 340 and the fourth shaft sleeve 350, and the third rotation shaft 360, the fourth rotation shaft 370 and the fifth shaft sleeve 430 are embedded in the installation space 330 when the adjacent separation plates 210 are rotatably connected. In this way, the first and second connection members 300 and 400 of the adjacent partition plates 210 are formed as a unit, and the gap between the adjacent partition plates 210 is reduced, thereby improving the separation effect of the chain type partition 200.

Optionally, a first damping shaft sleeve 361 and a second damping shaft sleeve 362 are sequentially sleeved on the third rotating shaft 360 along the axial direction; in the case of the rotational connection of the adjacent separation plates 210, the first damping bushing 361 is fixedly connected to one separation plate 210 of the two separation plates 210, and the second damping bushing 362 is fixedly connected to the other separation plate 210 of the two separation plates 210. In this way, the first damping shaft sleeve 361 and the second damping shaft sleeve 362 are sequentially sleeved on the third rotating shaft 360, when two adjacent partition plates 210 are rotationally connected, the first damping shaft sleeve 361 and the second damping shaft sleeve 362 are utilized to generate rotational damping, so that damping effect is generated on the adjacent partition plates 210 at the connection position of the third shaft sleeve 340, the third rotating shaft 360 and the fifth shaft sleeve 430, and relative rotation is not easy to occur between the adjacent partition plates 210, thereby improving the overall stability of the chain type partition member 200, and the chain type partition member 200 can maintain the deformed shape.

Optionally, in the two adjacent partition boards 210, a first mounting groove is formed on a side edge of the partition board 210 corresponding to the first damping shaft sleeve 361, a first mounting arm is formed on a side wall of the first damping shaft sleeve 361, and one end of the first mounting arm is fixedly arranged in the first mounting groove, so that the first damping shaft sleeve 361 is fixedly connected with the corresponding partition board 210; the side of the partition plate 210 corresponding to the second damping shaft sleeve 362 is provided with a second mounting groove, the side wall of the second damping shaft sleeve 362 is provided with a second mounting arm, and one end of the second mounting arm is fixedly arranged in the second mounting groove, so that the second damping shaft sleeve 362 is fixedly connected with the corresponding partition plate 210.

Optionally, a third damping shaft sleeve 371 and a fourth damping shaft sleeve 372 are sequentially sleeved on the fourth rotating shaft 370 along the axial direction, and in the case that the adjacent partition plates 210 are rotationally connected, the third damping shaft sleeve 371 is fixedly connected with one partition plate 210 of the two partition plates 210, and the fourth damping shaft sleeve 372 is fixedly connected with the other partition plate 210 of the two partition plates 210. In this way, the third damping shaft sleeve 371 and the fourth damping shaft sleeve 372 are sequentially sleeved on the fourth rotating shaft 370, when two adjacent partition plates 210 are rotationally connected, the third damping shaft sleeve 371 and the fourth damping shaft sleeve 372 are matched to further generate rotational damping, so that the adjacent partition plates 210 generate damping effect at the connection positions of the fourth shaft sleeve 350, the fourth rotating shaft 370 and the fifth shaft sleeve 430, the overall stability of the chain type partition piece 200 is further improved, and the chain type partition piece 200 can keep the deformed shape.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A drawer assembly, comprising:

a drawer body (100) defining a storage cavity (110) therein;

the chain type separating piece (200) is movably arranged in the storage cavity (110);

wherein the chain divider (200) is deformable to divide a plurality of independent storage spaces (111) within the storage cavity (110).

2. The drawer assembly of claim 1, wherein the drawer assembly,

the chain type partition (200) is composed of a plurality of partition plates (210) rotatably connected to form a chain type partition structure.

3. The drawer assembly of claim 2, wherein the drawer assembly,

one side of each partition plate (210) is provided with a first connecting piece (300), the other opposite side is provided with a second connecting piece (400), and the opposite sides of the adjacent partition plates (210) are rotationally connected through the first connecting piece (300) and the second connecting piece (400).

4. The drawer assembly of claim 2, wherein the drawer assembly,

the first connector (300) includes:

a first rotating shaft (310) arranged at the upper region of one side of the partition plate (210);

a first sleeve (320) disposed in a lower region of one side of the partition plate (210);

the second connector (400) comprises:

a second sleeve (410) disposed along the other side of the partition plate (210);

the second rotating shaft (420) is arranged at the lower end of the second sleeve (410);

wherein, under the condition that adjacent division plates (210) are rotationally connected, the first rotating shaft (310) is rotationally embedded in the second shaft sleeve (410), and the second rotating shaft (420) is rotationally embedded in the first shaft sleeve (320).

5. The drawer assembly of claim 4, wherein the drawer is configured to receive a drawer,

an installation space (330) is formed between the first shaft (310) and the first shaft sleeve (320), and the second shaft sleeve (410) and the second shaft (420) are installed in the installation space (330) under the condition that adjacent partition plates (210) are rotatably connected.

6. The drawer assembly of claim 2, wherein the drawer assembly,

the first connector (300) includes:

a third sleeve 340 disposed at an upper region of one side of the partition plate 210;

a fourth shaft sleeve (350) arranged in the lower region of one side of the partition plate (210);

the upper end of the third rotating shaft (360) is detachably embedded in the third shaft sleeve (340);

a fourth rotating shaft (370), the lower end of which is detachably embedded in the fourth shaft sleeve (350);

the second connector (400) comprises:

a fifth sleeve (430) disposed along the other side of the partition plate (210);

under the condition that adjacent partition plates (210) are rotationally connected, the lower end of the third rotating shaft (360) is rotationally embedded at the upper end of the fifth shaft sleeve (430), and the upper end of the fourth rotating shaft (370) is rotationally embedded at the lower end of the fifth shaft sleeve (430).

7. The drawer assembly of claim 6, wherein the drawer is configured to receive a drawer,

a first damping shaft sleeve (361) and a second damping shaft sleeve (362) are sequentially sleeved on the third rotating shaft (360) along the axial direction; under the condition that adjacent partition plates (210) are rotationally connected, a first damping shaft sleeve (361) is fixedly connected with one partition plate (210) of the two partition plates (210), and a second damping shaft sleeve (362) is fixedly connected with the other partition plate (210) of the two partition plates (210).

8. The drawer assembly of claim 7, wherein the drawer is configured to receive a drawer,

and a third damping shaft sleeve (371) and a fourth damping shaft sleeve (372) are sequentially sleeved on the fourth rotating shaft (370) along the axial direction, and under the condition that adjacent partition plates (210) are rotationally connected, the third damping shaft sleeve (371) is fixedly connected with one partition plate (210) of the two partition plates (210), and the fourth damping shaft sleeve (372) is fixedly connected with the other partition plate (210) of the two partition plates (210).

9. The drawer assembly of any one of claims 1 to 8, wherein,

the chain type partition piece (200) is vertically arranged in the storage cavity (110), and the height of the chain type partition piece (200) in the vertical direction is smaller than or equal to the height of the drawer body (100).

10. The drawer assembly of any one of claims 1 to 8, wherein,

a cavity is formed in the chain type partition (200).