An electric drawer cabinet

Abstract

The utility model belongs to furniture technical field discloses a kind of electric drawer cabinet, including cabinet, drawer, drive structure and flow roll door.The cabinet is separately provided with first receiving cavity and second receiving cavity, and the drawer is slidably arranged in the cabinet along the first horizontal direction, the drive structure is arranged in the cabinet, and the drive structure is used to drive the drawer to slide along the first horizontal direction;The flow roll door is slidably arranged on the cabinet, and one end is connected to the drawer, and the flow roll door has the closed state of being blocked in the second receiving cavity and the open state of not blocking the second receiving cavity.When the drive structure drives the drawer to pull open, the flow roll door is adjusted to the open state, and the articles in the drawer and the articles in the second receiving cavity can be taken at the same time, without manually pushing and pulling the drawer, it is convenient, fast and labor-saving and safe, and at the same time, the situation that the second receiving cavity cannot be opened due to too many articles in the second receiving cavity will not occur.No need to install handle or reserve operation groove outside the drawer, the neatness and simplicity of the appearance of the drawer cabinet can be improved.

Description

Technical Field

[0001] This utility model relates to the field of furniture technology, and in particular to an electric drawer cabinet. Background Technology

[0002] As a common piece of furniture or storage device, drawer cabinets are widely used in various settings such as homes, offices, and laboratories to categorize or store items, thereby improving space utilization and overall aesthetics.

[0003] Traditional drawer chests rely primarily on purely mechanical structures for opening and closing. They use sliding rails to support the drawers, requiring users to manually push and pull them. This is laborious and inconvenient, especially when the drawers are full, the items are heavy, or the rails are poorly lubricated. Furthermore, manual pushing and pulling can easily lead to finger injuries if excessive force is used or if the user is not focused, posing a particular danger to children. Utility Model Content

[0004] The purpose of this utility model is to provide an electric drawer cabinet that enables intelligent drawer pulling, making it more convenient and safer.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] An electric drawer cabinet is provided, comprising:

[0007] The cabinet is divided into a first storage compartment and a second storage compartment.

[0008] A drawer is slidably disposed in the cabinet along a first horizontal direction. The drawer has a closed state where it is fully located within the first storage cavity and an open state where it is partially located within the first storage cavity.

[0009] A drive structure is disposed in the cabinet, and the drive structure is used to drive the drawer to slide along the first horizontal direction;

[0010] A sliding roller door is slidably mounted on the cabinet and connected at one end to the drawer. The sliding roller door has a closed state that blocks the second storage cavity and an open state that does not close the second storage cavity.

[0011] When the drawer is in the pulled-out state, the rolling door is in the open state;

[0012] When the drawer is in the closed state, the rolling door is in the closed state.

[0013] As an optional solution for electric drawer cabinets, the outer wall of the drawer is provided with a toothed rack extending along the first horizontal direction;

[0014] The driving structure includes:

[0015] The drive mechanism is located in the cabinet.

[0016] A gear, which is connected to the output end of the drive mechanism and meshes with the rack;

[0017] Driven by the drive mechanism, the gear rotates around the second horizontal direction to drive the rack and the drawer to slide along the first horizontal direction;

[0018] The first horizontal direction is perpendicular to the second horizontal direction.

[0019] As an optional solution for electric drawer cabinets, the drawer is provided with a rack on each of its two outer walls along the second horizontal direction; two drive structures are provided, and the gears of the two drive structures mesh with the two racks in a one-to-one correspondence.

[0020] As an optional feature of the electric drawer cabinet, the electric drawer cabinet also includes a lighting structure, which is disposed within the cabinet body.

[0021] As an optional feature of the electric drawer cabinet, the lighting structure includes:

[0022] A light strip is installed in the cabinet and electrically connected to the drive structure, which is connected to the power supply component;

[0023] The connecting assembly includes a first connector, a second connector, and an insulating plate. The first connector is conductively connected to the light strip, the second connector is conductively connected to the drive structure, and the insulating plate is inserted into the cabinet. The insulating plate has a separated state that is separated from the first connector and the second connector, and an inserted state that is inserted between the first connector and the second connector.

[0024] In the separated state, the light strip is lit; in the inserted state, the light strip is turned off.

[0025] As an optional solution for electric drawer cabinets, the connecting assembly also includes an elastic element, the cabinet body has a through hole for accommodating the first connecting element and the second connecting element, and the insulating insert is inserted into the side wall of the through hole;

[0026] The through hole is provided with an abutting surface, and the elastic element abuts against the abutting surface and the first connecting element;

[0027] Alternatively, an abutment is fixed inside the through hole, and the elastic member abuts between the abutment and the first connecting member.

[0028] As an optional solution for electric drawer cabinets, the outer wall of the insulating insert plate is provided with an operating section.

[0029] As an optional solution for the electric drawer cabinet, the cabinet body includes:

[0030] The base plate rests against the supporting foundation;

[0031] Two side plates are respectively disposed on opposite sides of the base plate, and the driving structure is disposed on the side plates;

[0032] A partition plate is spaced apart above the bottom plate and connected between the two side plates;

[0033] The base plate, the partition plate, and the two side plates enclose the first storage cavity;

[0034] The partition plate and the two side plates enclose the second storage cavity.

[0035] As an optional solution for the electric drawer cabinet, the two side panels are provided with grooves on the side facing each other, and the two sides of the rolling door are slidably disposed in the corresponding two grooves.

[0036] As an optional solution for electric drawer cabinets, the slide includes a first slot, a second slot, a third slot and a fourth slot connected in sequence. The first slot and the third slot are spaced apart in the vertical direction and both extend in the first horizontal direction. The second slot and the fourth slot are spaced apart in the first horizontal direction and both extend in the vertical direction.

[0037] The connection points between the first and second slots, the second and third slots, and the third and fourth slots all extend along an arc-shaped path.

[0038] The beneficial effects of this utility model are:

[0039] This utility model provides an electric drawer cabinet. When the drawer is pulled out by the drive mechanism, the rolling door is also opened, allowing simultaneous access to items inside both the drawer and the second storage compartment. This eliminates the need for manual pushing or pulling of the drawer, making it convenient, quick, and effortless, while also being safer. Furthermore, it prevents the second storage compartment from becoming too full to open. Additionally, the elimination of exposed handles or pre-drilled operating grooves on the drawer exterior enhances the cabinet's neat and simple appearance. Attached Figure Description

[0040] Figure 1 This is a schematic diagram of the overall structure of the electric drawer cabinet provided in a specific embodiment of this utility model;

[0041] Figure 2 This is an exploded view of the electric drawer cabinet provided in the specific embodiments of this utility model;

[0042] Figure 3 This is a front view of the electric drawer cabinet provided in a specific embodiment of this utility model;

[0043] Figure 4 yes Figure 3 Sectional view of AA in the middle;

[0044] Figure 5 yes Figure 4 A magnified view of a section at point B in the middle.

[0045] In the picture:

[0046] 1. Cabinet body; 11. First storage cavity; 12. Second storage cavity; 13. Through hole; 14. Abutment piece;

[0047] 15. Base plate;

[0048] 16. Side panel; 160. Slide groove; 161. First groove; 162. Second groove; 163. Third groove; 164. Fourth groove; 165. Snap-fit ​​groove;

[0049] 17. Divider;

[0050] 18. Side cabinet; 180. Clearance hole; 181. Storage board; 182. Receiving chamber; 183. Storage slot; 184. Mounting slot;

[0051] 2. Drawer; 21. Pinion rack;

[0052] 3. Drive structure; 31. Drive mechanism; 32. Gear;

[0053] 4. Roller shutter; 41. Sliding rod;

[0054] 5. Lighting structure; 51. Light strip; 52. Connecting assembly; 521. First connector; 522. Second connector; 523. Insulating insert; 524. Elastic element; 525. Operating part. Detailed Implementation

[0055] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, the accompanying drawings show only the parts relevant to the present invention, not the entire structure.

[0056] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "connected," "linked," and "fixed" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0057] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0058] In the description of this embodiment, the terms "upper," "lower," "right," etc., refer to the orientation or positional relationship shown in the accompanying drawings. They are used only for ease of description and simplification of operation, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. In addition, the terms "first" and "second" are only used for distinction in description and have no special meaning.

[0059] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments.

[0060] like Figures 1 to 5As shown, this embodiment provides an electric drawer cabinet, including a cabinet body 1, a drawer 2, a drive structure 3, and a rolling door 4. The cabinet body 1 has a first storage cavity 11 and a second storage cavity 12 spaced apart. The drawer 2 is slidably mounted on the cabinet body 1 along a first horizontal direction. The drawer 2 has a closed state where it is fully within the first storage cavity 11 and an open state where it is partially within the first storage cavity 11. The drive structure 3 is mounted on the cabinet body 1 and is used to drive the drawer 2 to slide along the first horizontal direction. The rolling door 4 is slidably mounted on the cabinet body 1, with one end connected to the drawer 2. The rolling door 4 has a closed state where it is completely within the second storage cavity 12 and an open state where it is not completely within the second storage cavity 12. When the drawer 2 is pulled open under the drive of the drive structure 3, the rolling door 4 is opened, allowing simultaneous access to items in both the drawer 2 and the second storage cavity 12 without manual pushing or pulling of the drawer 2. This is convenient, quick, and labor-saving, and relatively safe. Furthermore, it prevents the second storage cavity 12 from being too full to open. In addition, there is no need to install exposed handles or reserve operating grooves on the outside of drawer 2, which can improve the neatness and simplicity of the drawer cabinet's appearance.

[0061] Specifically, a start / stop button (not shown in the figure) is provided on the surface of the cabinet 1. The start / stop button is connected to the drive structure 3 and is used to control the start and stop of the drive structure 3.

[0062] Optionally, the electric drawer cabinet may also be equipped with a controller connected to the drive structure 3, which can be used to control advanced functions such as fully opening, half opening, position memory or electronic locking of the drawer 2; the controller is an existing device in the field, and its specific structure and principle are based on existing technology and will not be described in detail here.

[0063] Optionally, such as Figure 2 As shown, the outer wall of drawer 2 is provided with a rack 21 extending along a first horizontal direction; the drive structure 3 includes a drive mechanism 31 and a gear 32. The drive mechanism 31 is disposed on the cabinet 1, and the gear 32 is connected to the output end of the drive mechanism 31 and meshes with the rack 21. Driven by the drive mechanism 31, the gear 32 rotates around a second horizontal direction to drive the rack 21 and drawer 2 to slide along the first horizontal direction, which is perpendicular to the second horizontal direction. The meshing transmission between the gear 32 and the rack 21 has high positioning accuracy, no slippage, and can withstand a large load. Even if the items inside drawer 2 are heavy, drawer 2 can still be opened or closed. In addition, the structure of gear 32 and rack 21 is relatively simple, making it easy to install and integrate.

[0064] Specifically, in this embodiment, the gear 32 is rotatably mounted on the cabinet 1 around the second horizontal direction. The cabinet 1 has a mounting hole for accommodating the gear 32, which makes the spatial layout more reasonable. The mounting hole can also provide a limiting and protective function for the gear 32. In other embodiments, the gear 32 can also be rotatably mounted in the first storage cavity 11. The gear 32 is only connected to the output end of the drive mechanism 31.

[0065] For example, the drive mechanism 31 is a motor commonly used in the art.

[0066] Furthermore, drawer 2 is provided with a rack 21 on each of its two outer walls along the second horizontal direction, and two drive structures 3 are provided. The gears 32 of the two drive structures 3 mesh with the two racks 21 in a one-to-one correspondence. The two drive structures 3 drive the drawer 2 to slide simultaneously, which can ensure the smooth and stable sliding of drawer 2.

[0067] Optionally, continue to refer to Figure 2 The electric drawer cabinet also includes a lighting structure 5, which is installed on the cabinet body 1. Specifically, in this embodiment, the lighting structure 5 is installed on the outer wall of the cabinet body 1. On the one hand, it can effectively illuminate the area around the cabinet body 1, and the clear outline of the cabinet body 1 can effectively remind users to avoid the cabinet body 1, thereby reducing the risk of legs or other parts of the body bumping into the cabinet body 1, making it easier for users to walk or find things safely; on the other hand, when the lighting structure 5 is lit, it can visually reduce the bulkiness of the cabinet body 1, making the space appear more transparent, increasing the interest and modernity of the space.

[0068] Furthermore, referring to Figures 3 to 5 The lighting structure 5 includes a light strip 51 and a connecting assembly 52. ​​The light strip 51 is disposed on the cabinet 1 and electrically connected to the drive structure 3, which is connected to the power supply component. The connecting assembly 52 includes a first connector 521, a second connector 522, and an insulating insert 523. The first connector 521 is electrically connected to the light strip 51, and the second connector 522 is electrically connected to the drive structure 3. The insulating insert 523 has a separated state, which is separated from the first connector 521 and the second connector 522, and an inserted state, which is inserted between the first connector 521 and the second connector 522. In the separated state, the light strip 51 can be lit; in the inserted state, the light strip 51 can be turned off. Users can flexibly adjust the lighting or turning off of the light strip 51 according to their needs to improve the user experience. For example, the light strip 51 is ring-shaped, and both the first connector 521 and the second connector 522 are made of conductive material. The power supply component is a power source disclosed in the prior art, such as a battery.

[0069] Specifically, the light strip 51 has two power supply circuits. First, when the power supply component supplies power to the drive mechanism 31, and the drive mechanism 31 establishes a conductive connection with the power supply component, the light strip 51 also establishes a conductive connection with the power supply component. In this case, if the insulating plate 523 is separated between the first connector 521 and the second connector 522, the light strip 51 will light up. If the insulating plate 523 is inserted between the first connector 521 and the second connector 522, the light strip 51 will turn off. Second, the light strip 51 is also connected to a battery. When the power supply component is not supplying power to the drive mechanism 31, i.e., the drive mechanism 31 has not established a conductive connection with the power supply component, power can be supplied to the light strip 51 through the battery. The lighting or turning off of the light strip 51 can then be controlled by adjusting the position of the insulating plate 523. Specifically, a power button is provided on the surface of the cabinet 1, which is used to control whether the battery is conductively connected to the light strip 51. Users can choose to have the light strip 51 light up simultaneously when drawer 2 is opened, or they can choose to control the light strip 51 to light up independently when drawer 2 is not opened, making the usage more flexible and diverse.

[0070] For example, in this embodiment, both the first connector 521 and the second connector 522 are hemispherical with an arc-shaped outer wall, which can provide a guiding function for the insertion of the insulating insert 523, so as to facilitate the insertion of the insulating insert 523.

[0071] Furthermore, continue to refer to Figure 5 The connecting assembly 52 also includes an elastic element 524. The cabinet 1 has a through hole 13 for accommodating the first connecting member 521 and the second connecting member 522, and an insulating insert 523 is inserted into the side wall of the through hole 13. The inner wall of the through hole 13 has an abutment surface, and the elastic element 524 abuts against the abutment surface and the first connecting member 521; alternatively, an abutment member 14 is fixed inside the through hole 13, and the elastic element 524 abuts against the abutment member 14 and the first connecting member 521. With this configuration, when the insulating insert 523 is pulled out from between the first connecting member 521 and the second connecting member 522, the first connecting member 521 can stably abut against the second connecting member 522 under the elastic force of the elastic element 524, ensuring the electrical continuity of the light strip 51. For example, the elastic element 524 is a spring made of insulating material, such as a rubber spring or a plastic spring.

[0072] Specifically, in this embodiment, an abutment 14 is fixedly provided inside the through hole 13, and the abutment 14 is sleeved on the wire. In other embodiments, an abutment surface may also be provided inside the through hole 13.

[0073] Optionally, the outer wall of the insulating insert 523 is provided with an operating part 525 to facilitate the user's movement of the insulating insert 523. Specifically, in this embodiment, the operating part 525 is a pull ring.

[0074] Optionally, such as Figure 2As shown, the cabinet 1 includes a base plate 15, partition plates 17, and two side plates 16. The base plate 15 abuts against a supporting foundation, and the two side plates 16 are located on opposite sides. A drive structure 3 is disposed on the side plates 16. The partition plates 17 are spaced apart above the base plate 15 and connected between the two side plates 16. The base plate 15, partition plates 17, and two side plates 16 enclose a first storage cavity 11, and the partition plates 17 and two side plates 16 enclose a second storage cavity 12. The structure is simple, easy to manufacture, and economical. The supporting foundation can be an indoor floor or a tabletop or other supporting surface.

[0075] Furthermore, continue to refer to Figure 2 The cabinet body 1 also includes two side cabinets 18, which are spaced apart along a second horizontal direction on the side of the two side panels 16 facing away from each other. The lighting structure 5 is installed on the side cabinet 18. A clearance hole 180 is provided on the side of the side cabinet 18 closest to the side panel 16. The clearance hole 180 is used to allow the drive mechanism 31 to pass through, that is, the side cabinet 18 covers the drive mechanism 31. On the one hand, it can provide a certain degree of protection for the drive mechanism 31, and on the other hand, it can improve the overall neatness and aesthetics of the drawer cabinet.

[0076] Specifically, such as Figure 3 and Figure 4 As shown, a storage panel 181 is provided inside the side cabinet 18, which divides the side cabinet 18 into a receiving chamber 182 and a storage slot 183. The drive mechanism 31 extends into the receiving chamber 182 through the clearance hole 180. The storage slot 183 can be used to store items to increase storage space. A mounting groove 184 is provided on the inner peripheral wall of the storage slot 183, and the light strip 51 is embedded in the mounting groove 184 to prevent the items placed in the storage slot 183 from interfering with the light strip 51.

[0077] More specifically, a dustproof plate (not shown in the figure) is provided at the mounting slot 184. The dustproof plate is made of transparent material, which can protect the light strip 51 from dust while not hindering the lighting effect of the light strip 51.

[0078] Furthermore, referring to Figure 2 Each of the two side panels 16 has a groove 160 on the side facing each other. The two sides of the rolling door 4 are slidably set in the corresponding two grooves 160 to provide guidance for the sliding of the rolling door 4 and ensure the smoothness and accuracy of the sliding of the rolling door 4.

[0079] Furthermore, continue to refer to Figure 2The slide rail 160 includes a first groove 161, a second groove 162, a third groove 163, and a fourth groove 164 connected in sequence. The first groove 161 and the third groove 163 are spaced apart vertically and both extend along a first horizontal direction; the second groove 162 and the fourth groove 164 are spaced apart along the first horizontal direction and both extend vertically. The connection points between the first groove 161 and the second groove 162, the second groove 162 and the third groove 163, and the third groove 163 and the fourth groove 164 all extend along an arc-shaped path. This arrangement ensures the smoothness of the sliding door 4 along the slide rail 160 during the sliding of the drawer 2, effectively preventing the sliding door 4 from getting stuck and unable to slide.

[0080] Optionally, the rolling door 4 includes sliding rods 41 arranged side by side. The two ends of the sliding rods 41 are slidably installed in the sliding grooves 160 of the two side panels 16. The number of sliding rods 41 can be flexibly adjusted according to the size of the drawer cabinet, and assembly is convenient. In addition, if individual sliding rods 41 are damaged, they can be replaced individually without the need to completely dismantle and replace the entire rolling door 4, which is economical.

[0081] Specifically, a protective cloth is provided on the inside of the rolling door 4 to prevent items in the drawer 2 and the second storage cavity 12 from scratching the rolling door 4, and to prevent dust from entering the second storage cavity 12 through the gaps between the sliding rods 41. For example, the protective cloth is made of velvet, and the velvet surface is delicate, which can effectively prevent the rolling door 4 from being scratched.

[0082] Furthermore, a rolling element (not shown in the figure) is provided at the end of the slide rod 41, and the rolling element is rolled within the slide groove 160. This arrangement converts the sliding friction at the end of the slide rod 41 into rolling friction, making the switching of the rolling door 4 smoother and less strenuous. For example, the rolling element is a roller.

[0083] Optionally, such as Figure 2 As shown, each of the two side panels 16 has a snap-fit ​​groove 165 extending along the first horizontal direction on its opposite side. The two ends of the divider 17 along the second horizontal direction are snapped into the two snap-fit ​​grooves 165 respectively. Under its own weight, the divider 17 can be stably snapped into the snap-fit ​​grooves 165. If the items placed in the drawer 2 are too tall, the divider 17 can also be pulled out along the first horizontal direction to connect the first storage cavity 11 and the second storage cavity 12 to store large items.

[0084] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating the present utility model, and are not intended to limit the implementation of the present utility model. Those skilled in the art can make various obvious changes, readjustments, and substitutions without departing from the protection scope of this utility model. It is neither necessary nor possible to exhaustively describe all embodiments here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of the claims of this utility model.

Claims

1. An electric drawer cabinet, characterized in that, include: The cabinet (1) is provided with a first storage cavity (11) and a second storage cavity (12) spaced apart; The drawer (2) is slidably disposed in the cabinet (1) along the first horizontal direction. The drawer (2) has a closed state that is entirely located in the first storage cavity (11) and an open state that is partially located in the first storage cavity (11). A drive structure (3) is disposed on the cabinet (1), and the drive structure (3) is used to drive the drawer (2) to slide along the first horizontal direction; A sliding roller door (4) is slidably mounted on the cabinet (1) and one end is connected to the drawer (2). The sliding roller door (4) has a closed state that blocks the second storage cavity (12) and an open state that does not close the second storage cavity (12). When the drawer (2) is in the pulled-out state, the rolling door (4) is in the open state; When the drawer (2) is in the closed state, the rolling door (4) is in the closed state.

2. The electric drawer cabinet according to claim 1, characterized in that, The drawer (2) has a toothed rack (21) extending along the first horizontal direction on its outer wall; The driving structure (3) includes: A drive mechanism (31) is disposed in the cabinet (1); Gear (32), the gear (32) is connected to the output end of the drive mechanism (31) and meshes with the rack (21); Driven by the drive mechanism (31), the gear (32) rotates around the second horizontal direction to drive the rack (21) and the drawer (2) to slide along the first horizontal direction; The first horizontal direction is perpendicular to the second horizontal direction.

3. The electric drawer cabinet according to claim 2, characterized in that, The drawer (2) is provided with a rack (21) on each of its two outer walls along the second horizontal direction; there are two drive structures (3), and the gears (32) of the two drive structures (3) mesh with the two racks (21) in a one-to-one correspondence.

4. The electric drawer cabinet according to claim 1, characterized in that, The electric drawer cabinet also includes a lighting structure (5), which is disposed on the cabinet body (1).

5. The electric drawer cabinet according to claim 4, characterized in that, The lighting structure (5) includes: A light strip (51) is disposed on the cabinet (1) and electrically connected to the drive structure (3), the drive structure (3) being connected to the power supply component; The connecting assembly (52) includes a first connector (521), a second connector (522), and an insulating plate (523). The first connector (521) is electrically connected to the light strip (51), the second connector (522) is electrically connected to the driving structure (3), and the insulating plate (523) is inserted into the cabinet (1). The insulating plate (523) has a separated state that is separated from the first connector (521) and the second connector (522), and an inserted state that is inserted between the first connector (521) and the second connector (522). In the separated state, the light strip (51) is lit; in the inserted state, the light strip (51) is turned off.

6. The electric drawer cabinet according to claim 5, characterized in that, The connecting component (52) further includes an elastic element (524), the cabinet (1) has a through hole (13) for accommodating the first connecting component (521) and the second connecting component (522), and the insulating insert (523) is inserted into the side wall of the through hole (13). The through hole (13) is provided with an abutting surface, and the elastic member (524) abuts against the abutting surface and the first connecting member (521); Alternatively, an abutment (14) may be fixed inside the through hole (13), and the elastic member (524) may abut between the abutment (14) and the first connecting member (521).

7. The electric drawer cabinet according to claim 5, characterized in that, An operating part (525) is provided on the outer wall of the insulating plug plate (523).

8. The electric drawer cabinet according to claim 1, characterized in that, The cabinet (1) includes: The base plate (15) rests against the supporting foundation; Two side plates (16) are respectively disposed on opposite sides of the bottom plate (15), and the driving structure (3) is disposed on the side plate (16); A partition plate (17) is spaced above the bottom plate (15) and connected between the two side plates (16); The base plate (15), the partition plate (17), and the two side plates (16) enclose the first storage cavity (11); The partition plate (17) and the two side plates (16) enclose the second storage cavity (12).

9. The electric drawer cabinet according to claim 8, characterized in that, The two side panels (16) are provided with grooves (160) on the side facing each other, and the two sides of the rolling door (4) are slidably disposed in the corresponding two grooves (160).

10. The electric drawer cabinet according to claim 9, characterized in that, The slide (160) includes a first groove (161), a second groove (162), a third groove (163) and a fourth groove (164) connected in sequence. The first groove (161) and the third groove (163) are spaced apart in the vertical direction and both extend in the first horizontal direction. The second groove (162) and the fourth groove (164) are spaced apart in the first horizontal direction and both extend in the vertical direction. The connection points of the first groove (161) and the second groove (162), the connection points of the second groove (162) and the third groove (163), and the connection points of the third groove (163) and the fourth groove (164) all extend along an arc-shaped path.

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