A wardrobe with built-in rotary clothes storing mechanism

With its built-in rotating storage mechanism, the garments can be automatically extended, rotated for display, and height adjusted, solving the problems of fixed space and inconvenient operation in traditional wardrobes, and improving user experience and display effect.

CN224387024UActive Publication Date: 2026-06-23YIGAO HOME FURNISHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YIGAO HOME FURNISHING CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Traditional wardrobes have fixed hanging rods that cannot be moved or rotated, making it inconvenient to display and retrieve clothes, resulting in a poor user experience. This is especially true for commercial displays, where the clothes are less visually appealing and space is underutilized.

Method used

The design incorporates a built-in rotating garment storage mechanism, which uses telescopic and lifting components. A servo motor drives the turntable to rotate, and combined with magnetic hangers, it enables automatic extension, rotation display, and height adjustment of garments. The entire process is automated through electric control.

Benefits of technology

It improves the space utilization and display effect of clothing, makes clothing observation more intuitive, and is simple and efficient to operate. It is suitable for commercial display and home use, and solves the problems of fixed space and inconvenient operation of traditional wardrobes.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to wardrobe technical field, and disclose a kind of wardrobe of built-in rotary clothes storage mechanism, cabinet body inside is provided with a rotary clothes storage room and two side cabinets, rotary clothes storage room inside slidingly is provided with inner vertical plate, and the front surface of inner vertical plate is slidably connected with top plate, and the front surface of inner vertical plate is provided with lifting assembly that pushes top plate longitudinal sliding, and the bottom of rotary clothes storage room is provided with telescopic component that pushes inner vertical plate horizontal sliding;Top plate is installed with rotary clothes storage mechanism.The wardrobe of built-in rotary clothes storage mechanism, by the cooperation of telescopic component and lifting assembly, the automatic extension and height adjustment of rotary clothes storage mechanism are realized, effectively solve the problem that traditional wardrobe space is fixed, clothes is stacked, so that different length of clothes can be reasonably hung, significantly improve space utilization, adopt rotary clothes storage mechanism design, by servo motor drive carousel overall rotation, cooperate with micro speed reducer motor and drive single clothes hanger autorotation, realize the omni-directional dynamic display of clothes.
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Description

Technical Field

[0001] This utility model relates to the field of wardrobe technology, specifically a wardrobe with a built-in rotating storage mechanism. Background Technology

[0002] Traditional wardrobes typically employ a fixed structure, with static hanging rods, shelves, or drawers inside for hanging or folding clothes. The hanging rods are generally horizontal and fixed, with clothes hanging directly on them, while shelves and drawers are used for folding and storage. While this structure is simple and practical, it lacks flexibility and cannot be dynamically adjusted according to the type of clothing or the user's needs.

[0003] The existing wardrobe structure presents significant shortcomings in clothing display and retrieval. Because the hanging rods are fixed and cannot be moved or rotated, users must manually rummage through the garments when selecting them, making it difficult to quickly view the entire garment. Longer items, in particular, tend to pile up and become compressed, affecting both aesthetics and usability. Furthermore, traditional wardrobes lack intelligent features and space-optimized design. Clothes can only be stored statically, unable to rotate for display or automatically adjust their position. This results in poor visual appeal for commercial displays and requires frequent manual rearranging in home use. The cramped interior space also restricts the movement of clothing, leading to inconvenience and a poor user experience.

[0004] Therefore, we propose a wardrobe with a built-in rotating storage mechanism to solve the problems mentioned above. Utility Model Content

[0005] This invention provides a wardrobe with a built-in rotating storage mechanism, which can solve the problem in the prior art where the hanging rods, partitions or drawers inside the wardrobe are fixed in position, used for static hanging or folding of clothes. Users need to manually flip through them when selecting clothes, making it difficult to quickly see the full picture of the clothes, resulting in insufficient display of clothes and affecting the convenience of taking and putting away clothes.

[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution:

[0007] A wardrobe with a built-in rotating storage mechanism includes a cabinet body. Inside the cabinet body, there is a rotating storage compartment and two side cabinets. The two side cabinets are symmetrically arranged on both sides of the rotating storage compartment. An inner vertical panel is slidably installed inside the rotating storage compartment. A top plate is slidably connected to the front of the inner vertical panel. A lifting component is provided on the front of the inner vertical panel to push the top plate to slide vertically. A telescopic component is provided at the bottom of the rotating storage compartment to push the inner vertical panel to slide horizontally. A rotating storage mechanism is installed on the top plate.

[0008] The lifting assembly includes a vertical slot on the front of the inner panel and a threaded column rotatably connected inside the vertical slot. One end of the top plate is threadedly connected to the threaded column, and a drive motor that drives the threaded column to rotate is fixedly installed on one end of the inner panel.

[0009] Preferably, the telescopic component includes a movable seat, which is vertically fixed to the bottom of the inner upright plate, and rollers are installed on both sides of the bottom of the sliding seat to support the sliding of the movable seat.

[0010] Preferably, a guide groove is provided in the middle of the bottom of the rotating storage room, and wheel grooves are provided on both sides of the guide groove. The rollers on both sides of the inner upright plate are set inside the corresponding wheel grooves.

[0011] Preferably, a second electric push rod is fixedly installed in the guide groove, a push plate is fixedly connected to the bottom of the movable seat, the telescopic end of the second electric push rod is fixedly connected to the push plate, and the push plate is slidably connected inside the guide groove.

[0012] Preferably, a secondary extension assembly is installed at the bottom of the top plate. The secondary extension assembly includes two T-slots formed on the bottom surface of the top plate and a sliding support rod that slides into the T-slots.

[0013] Preferably, there are two sets of sliding support rods, and a connecting plate is fixedly connected between the two sliding support rods. A first electric push rod is fixedly installed inside the top plate, and the telescopic end of the first electric push rod is fixedly connected to the inner side of the connecting plate.

[0014] Preferably, the rotating garment storage mechanism includes a support plate, which is fixedly connected to a sliding support rod. A servo motor is fixedly installed in the middle of the support plate. An annular hanging groove is provided on the bottom surface of the support plate. A turntable is rotatably connected below the support plate. A support ring is fixedly connected to the turntable. The support ring rotates in cooperation with the inside of the annular hanging groove. The rotating shaft of the servo motor is fixedly connected to the turntable.

[0015] Preferably, a control chamber is provided inside the turntable, a stepper motor is fixedly connected to the center of the control chamber, a conical gear disk is fixedly connected to the shaft of the stepper motor, multiple conical auxiliary gears are provided on the outer side of the conical gear disk, the multiple conical auxiliary gears are distributed in a circumferential array, a threaded rod is fixedly connected to the axial direction of the conical auxiliary gears, and a support seat for rotating the threaded rod is provided in the control chamber.

[0016] Preferably, each threaded rod is externally threaded with a sliding sleeve rod, and a directional groove is provided on the edge of the turntable, with the sliding sleeve rod slidably connected inside the directional groove.

[0017] Preferably, a miniature geared motor is installed at one end of the sliding sleeve rod outside the turntable. A magnetic chuck is fixedly connected to the shaft of the miniature geared motor. A magnetic ring is magnetically connected to the surface of the magnetic chuck, and the magnetic ring is fixedly connected to the clothes hanger.

[0018] Compared with the prior art, the beneficial effects achieved by this utility model are:

[0019] This utility model, through the cooperation of telescopic and lifting components, realizes the automatic extension and height adjustment of the rotating clothing storage mechanism, effectively solving the problems of fixed space and clothing stacking in traditional wardrobes, enabling clothes of different lengths to be hung reasonably, and significantly improving space utilization.

[0020] Adopting a rotating clothing storage mechanism, the turntable is driven to rotate as a whole by a servo motor, and individual hangers are driven to rotate by a micro geared motor, realizing a dynamic display of clothing from all directions. This completely changes the traditional static display method of wardrobes, making clothing observation more intuitive, and is especially suitable for commercial displays and high-end home decoration needs.

[0021] In addition, a secondary extension component is designed. The sliding support rod is pushed by the first electric push rod to extend along the T-slot, ensuring that the rotating clothing storage mechanism is fully extended and away from the cabinet, providing ample space for clothing display and avoiding the problem of poor display effect caused by space limitations in traditional wardrobes.

[0022] Furthermore, the hangers utilize a magnetic connection method, with magnetic plates and rings securing them in place. This ensures stable rotation during display and allows for quick retrieval and placement, making operation simple and efficient, eliminating the inconvenience of manual searching in traditional wardrobes. The entire system employs an electric control design, with multiple motors working in tandem to automate the entire process from storage and retrieval to display and organization, significantly enhancing the user experience while maintaining a compact storage space.

[0023] Furthermore, by using a radial adjustment mechanism inside the turntable, the stepper motor drives the conical gear system, which can intelligently adjust the spacing between the hangers to adapt to the display needs of different quantities and types of clothing. This further enhances the flexibility of use and solves the technical problems of traditional wardrobes in terms of space utilization, display effect, and ease of operation, realizing the improvement of wardrobe functions from static storage to dynamic interaction. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the front structure of the cabinet of this utility model;

[0025] Figure 2 This is a schematic diagram of the side sectional view of the cabinet of this utility model;

[0026] Figure 3 This is a schematic diagram of the installation structure of the rotating clothing storage mechanism of this utility model;

[0027] Figure 4 This is a schematic diagram of the inner vertical plate connection structure of this utility model;

[0028] Figure 5 This is a schematic diagram of the unfolded structure of the rotating clothing storage mechanism of this utility model;

[0029] Figure 6 This is a schematic diagram of the internal cross-sectional structure of the rotating clothing storage mechanism of this utility model.

[0030] The components include: 1. Cabinet body; 2. Rotating storage room; 3. Side cabinet; 4. Hanging rod; 51. Inner upright panel; 52. Vertical groove; 53. Threaded column; 54. Top plate; 55. T-slot; 56. Sliding support rod; 57. Connecting plate; 58. First electric push rod; 61. Moving seat; 62. Roller; 63. Wheel groove; 64. Second electric push rod; 65. Push plate; 66. Guide groove; 71. Support plate; 72. Servo motor; 73. Annular hanging groove; 74. Turntable; 75. Support ring; 81. Stepper motor; 82. Conical gear plate; 83. Conical secondary gear; 84. Threaded rod; 85. Sliding sleeve rod; 86. Directional slide groove; 91. Miniature geared motor; 92. Magnetic chuck; 93. Magnetic ring; 94. Clothes hanger. Detailed Implementation

[0031] The specific embodiments of the present invention will be described in detail below, but it should be understood that the scope of protection of the present invention is not limited to the specific embodiments.

[0032] Example 1:

[0033] Please see Figure 1-4 This utility model provides a technical solution:

[0034] A wardrobe with a built-in rotating storage mechanism includes a cabinet body 1. Inside the cabinet body 1 is a rotating storage compartment 2 and two side cabinets 3. Each side cabinet 3 has a hanging rod 4. The two side cabinets 3 are symmetrically arranged on both sides of the rotating storage compartment 2. An inner vertical panel 51 is slidably installed inside the rotating storage compartment 2. A top plate 54 is slidably connected to the front of the inner vertical panel 51. A lifting assembly is provided on the front of the inner vertical panel 51 to push the top plate 54 to slide longitudinally. A telescopic assembly is provided at the bottom of the rotating storage compartment 2 to push the inner vertical panel 51 to slide horizontally. The rotating storage mechanism is installed on the top plate 54, which supports the mechanism. The lifting assembly moves the top plate 54. The height of the rotating storage mechanism can be adjusted to facilitate hanging clothes of different lengths and to make it easy to put in and take out clothes. The inner panel 51 is pushed to slide inside the rotating storage room 2 by the telescopic component, so that the top plate 54 installed on the inner panel 51 and the rotating storage mechanism can be pushed out. When the rotating storage mechanism is pushed to the outside of the rotating storage room 2, the rotating storage mechanism can rotate and display the clothes for customers or other users to view and select the clothes; and it is convenient for customers to put in and take out clothes. After taking in and taking out clothes, the telescopic component pulls the inner panel 51 and the rotating storage mechanism back to store the clothes and save space.

[0035] The lifting assembly includes a vertical slot 52 on the front of the inner plate 51 and a threaded post 53 rotatably connected inside the vertical slot 52. One end of the inner side of the top plate 54 is threadedly connected to the threaded post 53, and a drive motor for driving the threaded post 53 to rotate is fixedly installed at one end of the inner plate 51.

[0036] In this design, when clothes need to be retrieved, placed, or displayed, the electric push rod in the telescopic component pushes the inner upright plate 51 to slide outward, causing the rotating storage mechanism to extend out of the cabinet 1. Simultaneously, the lifting component drives the threaded column 53 to rotate via a motor, causing the top plate 54 to move up and down to adjust the hanging height. After extension, the rotating storage mechanism can drive the turntable 74 to rotate as a whole via a servo motor 72, which, in conjunction with a micro-gear motor 91, drives individual hangers 94 to rotate, achieving a full-range display of clothing. After use, the entire system can automatically retract into the cabinet, offering both convenience and space saving. Firstly, the telescopic and height-adjustable structural design overcomes the limitations of fixed space and stacked clothing in traditional wardrobes. Furthermore, the rotating display function changes the static display method of traditional wardrobes, making clothing observation more intuitive. Electric control ensures ease of operation, avoiding the inconvenience of manual searching required in traditional wardrobes. This design combines intelligent adjustment with dynamic display, enhancing the practicality and user experience of the wardrobe.

[0037] Furthermore, the telescopic assembly includes a movable seat 61, which is vertically fixed to the bottom of the inner upright plate 51. Rollers 62 are installed on both sides of the bottom of the sliding seat, and the rollers 62 are used to support the sliding of the movable seat 61.

[0038] Furthermore, a guide groove 66 is provided in the middle of the bottom of the rotating storage room 2, and wheel grooves 63 are provided on both sides of the guide groove 66. The rollers 62 on both sides of the inner upright plate 51 are located inside the corresponding wheel grooves 63.

[0039] Furthermore, a second electric push rod 64 is fixedly installed in the guide groove 66, and a push plate 65 is fixedly connected to the bottom of the movable seat 61. The telescopic end of the second electric push rod 64 is fixedly connected to the push plate 65, and the push plate 65 is slidably connected inside the guide groove 66. The second electric push rod 64 pushes the push plate 65, causing the push plate 65 to drive the movable seat 61 to slide along the direction of the guide groove 66.

[0040] Furthermore, a secondary extension assembly is installed at the bottom of the top plate 54. The secondary extension assembly includes two T-slots 55 opened on the bottom surface of the top plate 54, and a sliding support rod 56 that slides with the T-slots 55. The secondary extension assembly can push the rotating clothing storage mechanism to slide and extend for a second time, so that the rotating clothing storage mechanism extends completely outside the rotating clothing storage room 2 and away from the inner upright plate 51, which facilitates the rotating clothing storage mechanism to rotate and display the clothes.

[0041] Furthermore, two sets of sliding support rods 56 are provided, and a connecting plate 57 is fixedly connected between the two sliding support rods 56. A first electric push rod 58 is fixedly installed inside the top plate 54. The telescopic end of the first electric push rod 58 is fixedly connected to the inner side of the connecting plate 57. The connecting plate 57 is pushed by the first electric push rod 58, and the connecting plate 57 drives the two sliding support rods 56 to slide along the T-slot 55.

[0042] In the above scheme, when clothing needs to be stored or retrieved, the telescopic component at the bottom of the rotating storage room 2 starts working. The second electric push rod 64 pushes the moving seat 61 to slide horizontally along the guide groove 66, causing the inner upright plate 51, the top plate 54 on it, and the rotating storage mechanism to move outward as a whole. At the same time, the drive motor in the lifting component drives the threaded column 53 to rotate, causing the top plate 54, which is threaded to it, to move up and down along the vertical groove 52 of the inner upright plate 51, thereby adjusting the hanging height to accommodate clothing of different lengths. When more display space is needed, the secondary extension component is activated, and the first electric push rod 58 pushes the connecting plate 57 to move, causing the sliding support rod 56 to extend outward along the T-slot 55, pushing the rotating storage mechanism further away from the inner upright plate 51. When displaying clothing, the servo motor 72 of the rotating storage mechanism drives the turntable 74 to rotate as a whole, while the micro reduction motor 91 drives the magnetic chuck 92 to make the individual hangers 94 rotate, realizing multi-angle display of clothing. After use, the components are retracted in reverse order, restoring the entire system to a compact storage state. The above solution facilitates the storage, retrieval, lifting, and rotation of clothing through electric telescopic, lifting, and rotating functions.

[0043] Example 2:

[0044] Please see Figure 4-6 Furthermore, in conjunction with Embodiment 1, the rotating garment storage mechanism includes a support plate 71, which is fixedly connected to a sliding support rod 56. A servo motor 72 is fixedly installed in the middle of the support plate 71. An annular hanging groove 73 is provided on the bottom surface of the support plate 71. A turntable 74 is rotatably connected below the support plate 71. A support ring 75 is fixedly connected to the turntable 74. The support ring 75 rotates and engages with the annular hanging groove 73. The rotating shaft of the servo motor 72 is fixedly connected to the turntable 74.

[0045] In the above scheme, the support plate 71 serves as a fixed base, and the servo motor 72 in its center directly drives the turntable 74 to rotate via a rotating shaft. The turntable 74 forms a rotating pair with the annular hanging groove 73 on the bottom surface of the support plate 71 through the support ring 75 on it, ensuring the smooth rotation of the turntable 74. When the servo motor 72 is working, it drives the entire turntable 74 and the clothes hanging on it to perform circular motion, realizing the function of displaying the clothes in a revolution.

[0046] Furthermore, a control chamber is provided inside the turntable 74. A stepper motor 81 is fixedly connected to the center of the control chamber. A conical gear disk 82 is fixedly connected to the shaft of the stepper motor 81. Multiple conical secondary gears 83 are arranged on the outer side of the conical gear disk 82 in a circumferential array. Threaded rods 84 are fixedly connected to the axial direction of the conical secondary gears 83. A support seat for rotating the threaded rods 84 is provided inside the control chamber. Each threaded rod 84 is externally threaded with a sliding sleeve rod 85. A directional groove 86 is opened on the edge of the turntable 74, and the sliding sleeve rod 85 is slidably connected inside the directional groove 86.

[0047] Inside the control room, a stepper motor 81 drives a conical gear disk 82 to rotate, which in turn drives multiple conical auxiliary gears 83 arranged in a circular array to rotate synchronously through meshing. Each conical auxiliary gear 83 drives a corresponding threaded rod 84 to rotate. With the support of the support base, the rotational motion of the threaded rod 84 is converted into the linear motion of the sliding sleeve rod 85 within the directional groove 86, thereby realizing the radial adjustment of the hanging position of the clothes hanger 94 and flexibly adjusting the display spacing according to the number of clothes.

[0048] Furthermore, a miniature geared motor 91 is installed at one end of the sliding sleeve 85 outside the turntable 74. A magnetic chuck 92 is fixedly connected to the shaft of the miniature geared motor 91, and a magnetic ring 93 is magnetically connected to the surface of the magnetic chuck 92. The magnetic ring 93 is fixedly connected to the hanger 94. The hanger 94 is attracted and fixed to the magnetic chuck 92 by the magnetic ring 93, which facilitates the taking and putting away of the hanger 94 and makes operation convenient. The miniature geared motor 91 drives the magnetic chuck 92 to rotate, thereby driving the hanger 94 to rotate, so that the clothes on the hanger 94 are displayed in a self-rotating manner.

[0049] Each sliding sleeve 85 has a miniature geared motor 91 mounted on its outer end that directly drives the magnetic chuck 92 to rotate. Through the magnetic connection between the magnetic chuck 92 and the magnetic ring 93 on the hanger 94, the hanger 94 and the clothes it hangs on rotate independently. This design not only realizes the function of displaying clothes by rotation, but also facilitates quick and easy loading and unloading of clothes through magnetic connection. It is easy to operate and provides a more three-dimensional display effect.

[0050] The working principle of this wardrobe with a built-in rotating storage mechanism is as follows:

[0051] Firstly, during the storage and retrieval preparation stage, when clothing needs to be stored or retrieved, the second electric push rod 64 at the bottom of the rotating storage compartment 2 is activated, pushing the push plate 65 to cause the moving seat 61 to slide horizontally along the guide groove 66. Through the cooperation of the roller 62 and the wheel groove 63, the inner upright plate 51 and the top plate 54 are smoothly extended outward. At the same time, the drive motor of the lifting component drives the threaded column 53 to rotate, causing the top plate 54 to move up and down along the vertical groove 52 of the inner upright plate 51, automatically adjusting to the optimal hanging height. If more display space is needed, the first electric push rod 58 pushes the connecting plate 57, causing the sliding support rod 56 to extend a second time along the T-slot 55, ensuring that the rotating storage mechanism is fully extended and away from the cabinet 1.

[0052] During the demonstration and operation phase, the servo motor 72 of the support plate 71 drives the turntable 74 to rotate as a whole, and achieves stable revolution through the rotating pair of the support ring 75 and the annular hanging groove 73; the stepper motor 81 in the control room drives multiple threaded rods 84 to rotate synchronously through the transmission system of the conical gear plate 82, so that the sliding sleeve rod 85 extends and retracts radially along the directional sliding groove 86, and intelligently adjusts the spacing of the clothes hangers 94; each micro reduction motor 91 independently drives the magnetic chuck 92 to rotate, and drives the clothes hanger 94 to rotate through the magnetic chuck ring 93, forming a three-dimensional display effect that combines revolution and rotation.

[0053] During the storage and reset phase, after use, each motor reverses its program: the sliding sleeve 85 returns to its initial position, the turntable 74 stops rotating, the secondary extension component retracts, and finally the telescopic component retracts the entire mechanism into the cabinet. The magnetic connection design ensures that the hanger 94 is easy to pick up and put down, and the entire process requires no manual intervention.

[0054] The above solution solves the problems of fixed space, limited display, and inconvenient operation of traditional wardrobes.

[0055] The above-disclosed embodiments are merely a few specific examples of the present invention. However, the embodiments of the present invention are not limited thereto, and any variations that can be conceived by those skilled in the art should fall within the protection scope of the present invention.

Claims

1. A wardrobe with a built-in rotating storage mechanism, comprising a cabinet body (1), characterized in that: The cabinet (1) is equipped with a rotating storage room (2) and two side cabinets (3) inside. The two side cabinets (3) are symmetrically arranged on both sides of the rotating storage room (2). An inner vertical panel (51) is slidably installed inside the rotating storage room (2). A top plate (54) is slidably connected to the front of the inner vertical panel (51). A lifting component that pushes the top plate (54) to slide longitudinally is provided on the front of the inner vertical panel (51). A telescopic component that pushes the inner vertical panel (51) to slide horizontally is provided at the bottom of the rotating storage room (2). A rotating storage mechanism is installed on the top plate (54). The lifting assembly includes a vertical slot (52) on the front of the inner plate (51) and a threaded column (53) rotatably connected inside the vertical slot (52). One end of the inner side of the top plate (54) is threadedly connected to the threaded column (53), and a drive motor for driving the threaded column (53) to rotate is fixedly installed at one end of the inner plate (51).

2. The wardrobe with a built-in rotating storage mechanism according to claim 1, characterized in that: The telescopic assembly includes a movable seat (61), which is vertically fixed to the bottom of the inner upright plate (51). Rollers (62) are installed on both sides of the bottom of the sliding seat, and the rollers (62) are used to support the sliding of the movable seat (61).

3. A wardrobe with a built-in rotating storage mechanism according to claim 2, characterized in that: The rotating storage room (2) has a guide groove (66) in the middle of the bottom, and wheel grooves (63) are provided on both sides of the guide groove (66). The rollers (62) on both sides of the inner upright plate (51) are located inside the corresponding wheel grooves (63).

4. A wardrobe with a built-in rotating storage mechanism according to claim 3, characterized in that: The guide groove (66) is fixedly installed with a second electric push rod (64), and the bottom of the movable seat (61) is fixedly connected with a push plate (65). The telescopic end of the second electric push rod (64) is fixedly connected to the push plate (65), and the push plate (65) is slidably connected inside the guide groove (66).

5. A wardrobe with a built-in rotating storage mechanism according to claim 1, characterized in that: The top plate (54) is equipped with a secondary extension assembly at its bottom. The secondary extension assembly includes two T-slots (55) opened on the bottom surface of the top plate (54) and a sliding support rod (56) that slides into the T-slots (55).

6. A wardrobe with a built-in rotating storage mechanism according to claim 4, characterized in that: Two sets of sliding support rods (56) are provided. A connecting plate (57) is fixedly connected between the two sliding support rods (56). A first electric push rod (58) is fixedly installed inside the top plate (54). The telescopic end of the first electric push rod (58) is fixedly connected to the inner side of the connecting plate (57).

7. A wardrobe with a built-in rotating storage mechanism according to claim 5, characterized in that: The rotating garment storage mechanism includes a support plate (71), which is fixedly connected to a sliding support rod (56). A servo motor (72) is fixedly installed in the middle of the support plate (71). An annular hanging groove (73) is provided on the bottom surface of the support plate (71). A turntable (74) is rotatably connected below the support plate (71). A support ring (75) is fixedly connected on the turntable (74). The support ring (75) rotates and engages with the annular hanging groove (73). The rotating shaft of the servo motor (72) is fixedly connected to the turntable (74).

8. A wardrobe with a built-in rotating storage mechanism according to claim 7, characterized in that: The turntable (74) has a control room inside. A stepper motor (81) is fixedly connected to the center of the control room. A conical gear disk (82) is fixedly connected to the shaft of the stepper motor (81). Multiple conical auxiliary gears (83) are arranged on the outside of the conical gear disk (82). The multiple conical auxiliary gears (83) are arranged in a circumferential array. A threaded rod (84) is fixedly connected to the axial direction of the conical auxiliary gears (83). A support seat for rotating the threaded rod (84) is provided in the control room.

9. A wardrobe with a built-in rotating storage mechanism according to claim 8, characterized in that: Each threaded rod (84) is externally threaded with a sliding sleeve rod (85), and the turntable (74) has a directional groove (86) on its edge, with the sliding sleeve rod (85) slidably connected inside the directional groove (86).

10. A wardrobe with a built-in rotating storage mechanism according to claim 9, characterized in that: A micro geared motor (91) is installed at one end of the sliding sleeve (85) outside the turntable (74). A magnetic chuck (92) is fixedly connected to the shaft of the micro geared motor (91). A magnetic ring (93) is magnetically connected to the surface of the magnetic chuck (92). The magnetic ring (93) is fixedly connected to the clothes hanger (94).