Suit humidifying device

By designing a humidification device for suits that includes a humidification component, a garment hanging unit, and a rotating component, the problems of cumbersome operation and poor adaptability of traditional suit humidification devices have been solved. This has enabled easy handling and uniform humidification of suits, expanding the range of applications.

CN224395224UActive Publication Date: 2026-06-23DALIAN YANGERTE GARMENTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DALIAN YANGERTE GARMENTS CO LTD
Filing Date
2025-08-15
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing humidifiers for suits are cumbersome to operate and difficult to adapt to different suit sizes, affecting their humidification effect.

Method used

A suit humidification device was designed, comprising a humidification component, a garment hanging unit, and a rotating component. The humidification component sprays water to humidify the suit, the garment hanging unit can directly hang the suit, and the height of the hanging component can be adjusted by an adaptation component to accommodate suits of different lengths, and the rotating component rotates the suit to humidify it evenly.

Benefits of technology

It achieves easy handling of suits and uniform humidification, expands the applicability of the humidification device, adapts to suits of different lengths, and improves the flexibility of use.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224395224U_ABST
    Figure CN224395224U_ABST
Patent Text Reader

Abstract

The utility model provides a suit humidifying device, including clothes hanging unit, clothes hanging unit sets up in the inside of partition net board, clothes hanging unit is used for hanging suit, clothes hanging unit includes center net cylinder, center net cylinder upper end is connected with humidifying subassembly rotation, center net cylinder side is connected with a plurality of mounting frame, every mounting frame inside all has the clothes hanging subassembly of sliding connection through adaptive component, center net cylinder lower extreme is connected with installation shell, installation shell bottom is connected with the output of rotary component, rotary component is connected in device outer frame shell inner chamber bottom, the utility model discloses utilize clothes hanging subassembly to be directly hung and hold the suit on the clothes hanger, make the taking and placing of suit very simple, fast, and through adaptive component can adjust the height of clothes hanging subassembly, to make clothes hanging subassembly can hang the suit of different length, expand the application scope of humidifying device.
Need to check novelty before this filing date? Find Prior Art

Description

TECHNICAL FIELD

[0001] The utility model relates to the field of clothing processing, especially a suit humidifying device. BACKGROUND

[0002] A suit is a kind of clothing with strict structure, classic style and well-fitted cutting, usually composed of a jacket, trousers (or a skirt), and sometimes a waistcoat (vest) as part of a three-piece suit. It is the first choice for formal occasions such as business, government affairs, and social events due to its formal, elegant, and appropriate characteristics. The selection of suit fabric is very particular, with common materials including wool, cashmere, blended fabric, and chemical fiber. Different fabrics have different textures, luster, and warmth retention properties, suitable for different seasons and occasions. The manufacturing process of a suit is complex and delicate, including cutting, sewing, ironing, and other links. High-quality suits usually use hand-sewing or semi-hand-sewing techniques to ensure perfect details. Suits are suitable for various formal occasions, such as business meetings, government activities, wedding celebrations, and social parties, with different requirements for style, color, and matching.

[0003] To address the adverse effects of dry environments on suit material and form, as well as daily maintenance and shaping, the suit needs to be humidified. In the Chinese utility model patent "Publication No. CN216998852U, Name: A humidifying device for making clothes", the combination of the over-humidifying bin, support, bottom plate, humidifier, first pipeline, conveying shaft, and second pipeline humidifies the clothes fitted on the clothing support. Through the cooperation of the motor, conveying shaft, first gear, second gear, rotating shaft, rotating disc, and connecting rod, the clothes are rotated 360 degrees, allowing complete humidification. However, the above-mentioned application requires the clothes to be worn on the clothing support, making the operation of putting on and taking off the clothes cumbersome. Moreover, the clothing support is difficult to adapt to different sizes of suits, affecting the overall form of the suit and resulting in poor humidification effect. UTILITY MODEL CONTENT

[0004] The technical problem to be solved by the utility model is to overcome the defects of the prior art, such as complicated operation and difficulty in adapting to different types of suits, and to provide a suit humidifying device.

[0005] The utility model solves the above technical problems through the following technical solutions:

[0006] The utility model provides a suit humidifying device, which comprises a device outer frame shell,

[0007] A partition net plate is connected to the inner wall of the device outer frame shell, and is used to separate the space in the device outer frame shell

[0008] A humidification component is disposed in the area between the outer frame of the device and the partition mesh plate. The humidification component is used to spray water to humidify the space inside the outer frame of the device and the partition mesh plate.

[0009] A garment hanging unit is disposed inside the partition mesh panel and is used to hang suits.

[0010] The clothes hanging unit includes a central mesh cylinder, the upper end of which is rotatably connected to a humidifying component. Multiple mounting brackets are connected to the side of the central mesh cylinder, and a hanging component is slidably connected to the inner side of each mounting bracket through an adaptation component.

[0011] The lower end of the central mesh cylinder is connected to an installation shell, the bottom of which is connected to the output end of the rotating component, and the rotating component is connected to the bottom of the inner cavity of the outer frame shell of the device.

[0012] In this technical solution, water is sprayed into the outer frame of the device by the humidification component to humidify the suits placed inside the outer frame. The suits placed on the hanger can be directly hung by the hanging component, making it extremely convenient and quick to take the suits out and put them away. Furthermore, the height of the hanging component can be adjusted by the adaptation component, so that the hanging component can hang suits of different lengths, thus expanding the applicability of the humidification device.

[0013] Preferably, the humidification component includes a water spray humidification pump, which is connected to the top of the outer frame of the device, and the water inlet of the water spray humidification pump is detachably connected to the water storage and supply equipment.

[0014] The outlet of the water spray humidification pump is connected to a transfer box, which is connected to the inner wall of the top surface of the outer frame of the device. The bottom of the transfer box is connected to a central spray pipe, which is rotatably connected to the top surface of the central mesh cylinder.

[0015] The transfer box is connected to a number of edge spray pipes on its side, and the end of the edge spray pipe away from the transfer box is connected to the inner wall of the bottom surface of the outer frame of the device.

[0016] In this technical solution, the humidification component can humidify the suit inside the outer frame of the device.

[0017] Preferably, the adaptation component includes an adaptation stud, the top end of which is rotatably connected to the inner wall of the top surface of the mounting bracket, and the bottom end of which is rotatably connected to the bottom surface of the mounting bracket.

[0018] The surface of the adaptive stud is threaded with a lifting plate, and one side of the lifting plate is connected to the adaptive component.

[0019] In this technical solution, the height of the hanging component can be adjusted using an adaptive component.

[0020] Preferably, a plurality of anti-deviation rails are connected between the inner wall of the top surface and the inner wall of the bottom surface of the mounting frame, and the surface of the anti-deviation rails is slidably connected through the lifting plate.

[0021] In this technical solution, the movement trajectory of the lifting plate can be limited by using an anti-deviation track.

[0022] Preferably, the hanging assembly includes a hanging rod, one end of which is connected to one side of the lifting plate, and an adjusting collar is slidably sleeved on the surface of the hanging rod;

[0023] The bottom of the adjusting collar is rotatably connected to a hook via a rotating connecting seat.

[0024] In this technical solution, the suit can be hung using a hanging component.

[0025] Preferably, the rotating component includes a rotational power source connected to the bottom of the inner cavity of the outer frame of the device, and the output end of the rotational power source is connected to the bottom of the mounting housing.

[0026] In this technical solution, the rotating component allows the central mesh cylinder and hanging component to be rotated, thus facilitating the rotation of the suit.

[0027] Preferably, a protective ring plate is provided on the outside of the rotary power source, and the bottom of the protective ring plate is connected to the bottom of the inner cavity of the outer frame shell of the device;

[0028] The top surface of the protective ring plate is rotatably connected to multiple supporting balls, which are in contact with the bottom surface of the mounting housing.

[0029] In this technical solution, the protective ring plate and supporting ball bearings can be used to support the mounting shell, making the mounting shell and other structures more stable when rotating.

[0030] Preferably, the bottom end of the adapting stud is connected to the rotary locking assembly, and the rotary locking assembly is disposed in the inner cavity of the mounting housing;

[0031] The top surface of the mounting housing has multiple rotating holes. The bottom end of the adapting stud extends into the inner cavity of the mounting housing through the rotating holes and is rotatably connected to the inner wall of the bottom surface of the mounting housing. The surface of the adapting stud is rotatably connected to the top surface of the mounting housing through the rotating holes.

[0032] In this technical solution, the rotary lock assembly and the synchronization control assembly are protected by an enclosure.

[0033] Preferably, the rotary locking assembly includes a locking gear and a locking rack, each of the adapting stud surfaces is connected to a locking gear, and a locking rack is provided on the side of the locking gear. The locking gear and the locking rack engage when they are in contact.

[0034] An eccentric wheel is provided on the side of the locking rack away from the rotary locking assembly. The eccentric wheel is connected to the surface of the rotating shaft. The two ends of the rotating shaft are rotatably connected to the top and bottom of the inner cavity of the mounting housing, respectively.

[0035] Both sides of the locking rack are connected to sliding guide plates, and both sides of the locking rack are provided with anti-detachment guide posts. The surface of the anti-detachment guide posts is slidably connected to the sliding guide plates.

[0036] One end of the anti-detachment guide post is connected to the connecting plate, which is connected to the inner wall of the mounting housing. An elastic reset member is connected between the connecting plate and the sliding guide plate, and the elastic reset member is sleeved on the surface of the anti-detachment guide post.

[0037] In this technical solution, the adaptive component can be locked by the rotary locking assembly, thereby increasing the strength of the hanging component and making it easier to hang heavy suits.

[0038] Preferably, all of the rotating shafts are connected to a synchronization control assembly, which includes a central gear and a plurality of side gears meshing with the central gear on its side, the side gears being connected to the surface of the rotating shafts;

[0039] The central gear is connected to the output end of the control power source, and the control power source is connected to the inner wall of the bottom surface of the mounting housing.

[0040] In this technical solution, a synchronous control component can be used to drive multiple rotary lock components to operate synchronously.

[0041] Based on common knowledge in the field, the above-mentioned preferred conditions can be combined arbitrarily to obtain various preferred embodiments of this utility model.

[0042] The positive and progressive effects of this utility model are as follows:

[0043] This invention uses a humidifying component to spray water into the outer frame of the device to humidify the suit placed inside the outer frame. With the blocking effect of the partition mesh and the central mesh cylinder, the humidifying component will not spray water directly onto the suit, avoiding excessive water contact in some parts of the suit and causing over-humidification. At the same time, in conjunction with the rotating component and other structures, the suit is rotated, making the humidification of the suit more even.

[0044] Furthermore, the hanging component allows for the direct hanging of suits placed on hangers, making it extremely convenient and quick to take off and put away suits. The height of the hanging component can also be adjusted by the adaptation component, allowing it to hang suits of different lengths and expanding the applicability of the humidifier.

[0045] Furthermore, the height of each hanging component can be adjusted individually, allowing the humidifier to hold suits of different lengths at a time, making the humidifier more flexible in use. Attached Figure Description

[0046] Figure 1 This is a schematic diagram of the structure of the suit humidification device according to an embodiment of the present invention.

[0047] Figure 2 for Figure 1 The diagram shows the overall front cross-sectional structure of the suit humidifier.

[0048] Figure 3 for Figure 1 The diagram shows a top-down cross-sectional view of the overall structure of the suit humidifier.

[0049] Figure 4 for Figure 1 The diagram shows the three-dimensional structure of the garment hanging unit of the suit humidifier. Figure 1 .

[0050] Figure 5 for Figure 4 The diagram shows the three-dimensional structure of the garment hanging unit of the suit humidifier. Figure 2 .

[0051] Figure 6 for Figure 4 A three-dimensional structural diagram of the mounting bracket, adaptation components, and hanging components of the suit humidifier shown.

[0052] Figure 7 for Figure 1 The diagram shows the three-dimensional structure of the suit humidifier, including the adapting stud, the rotary locking assembly, and the synchronization control assembly. Figure 1 .

[0053] Figure 8 for Figure 7 The diagram shows the three-dimensional structure of the suit humidifier, including the adapting stud, the rotary locking assembly, and the synchronization control assembly. Figure 2 .

[0054] Figure 9 for Figure 1 The diagram shows a three-dimensional structure of the humidification component of the suit humidification device.

[0055] Explanation of reference numerals in the attached figures

[0056] 1. Device outer frame;

[0057] 2. Separating mesh panel;

[0058] 3. Humidification components; 31. Water spray humidification pump; 32. Transfer box; 33. Center spray pipe; 34. Edge spray pipe;

[0059] 4. Central mesh cylinder;

[0060] 5. Mounting bracket;

[0061] 6. Adaptive components; 61. Adaptive studs; 62. Lifting plate; 63. Anti-deviation track;

[0062] 7. Hanging assembly; 71. Hanging rod; 72. Adjusting collar; 73. Hook; 74. Rotary connecting seat;

[0063] 8. Install the outer casing;

[0064] 9. Rotating assembly; 91. Rotation power source; 92. Protective ring plate; 93. Supporting ball;

[0065] 10. Rotary lock assembly; 101. Locking gear; 102. Locking rack; 103. Eccentric wheel; 104. Rotating shaft; 105. Sliding guide plate; 106. Anti-detachment guide post; 107. Connecting plate; 108. Elastic reset component;

[0066] 11. Synchronization control component; 111. Central gear; 112. Side gear; 113. Control power source;

[0067] 12. Moving wheel set. Detailed Implementation

[0068] The present invention will be further illustrated by way of embodiments below, but the present invention is not limited to the scope of the embodiments described herein.

[0069] Figures 1 to 9 The diagram shown is a structural schematic of an embodiment of the suit humidification device of this utility model. The suit humidification device includes an outer frame 1.

[0070] The bottom of the outer frame 1 of the device is connected to multiple sets of movable wheels 12.

[0071] The use of the movable wheel set 12 makes it easy to move the outer frame 1 and other structures of the device, making the movement of the humidification device simpler and faster.

[0072] The partition mesh 2 is connected to the inner wall of the outer frame shell 1 of the device, and the partition mesh 2 is used to divide the space inside the outer frame shell 1 of the device.

[0073] Humidification component 3 is disposed in the area between the outer frame shell 1 and the partition mesh plate 2 of the device. The humidification component 3 is used to spray water to humidify the space inside the outer frame shell 1 and the partition mesh plate 2 of the device.

[0074] A garment hanging unit is provided inside the partition mesh 2 and is used to hang suits.

[0075] The clothes hanging unit includes a central mesh cylinder 4, the upper end of which is rotatably connected to the humidifying component 3. Multiple mounting brackets 5 are connected to the side of the central mesh cylinder 4, and each mounting bracket 5 has a hanging component 7 slidably connected to its inner side via an adaptation component 6.

[0076] The lower end of the central mesh cylinder 4 is connected to the mounting shell 8, the bottom of the mounting shell 8 is connected to the output end of the rotating component 9, and the rotating component 9 is connected to the bottom of the inner cavity of the outer frame shell 1 of the device.

[0077] The mesh structure on the separating mesh plate 2 and the central mesh cylinder 4 allows water mist to pass through.

[0078] In this technical solution, water is sprayed into the outer frame 1 of the device by the humidifying component 3 to humidify the suit placed inside the outer frame 1. The suit placed on the hanger can be directly hung by the hanging component 7, making it extremely convenient and quick to take the suit out and put it in. Furthermore, the height of the hanging component 7 can be adjusted by the adapting component 6, so that the hanging component 7 can hang suits of different lengths, thus expanding the applicability of the humidifying device.

[0079] The humidification component 3 includes a water spray humidification pump 31, which is connected to the top of the outer frame 1 of the device, and the water inlet of the water spray humidification pump 31 is detachably connected to the water storage and supply equipment.

[0080] The outlet of the water spray humidification pump 31 is connected to a transfer box 32, which is connected to the inner wall of the top surface of the outer frame shell 1 of the device. The bottom of the transfer box 32 is connected to a central spray pipe 33, which is rotatably connected to the top surface of the central mesh cylinder 4.

[0081] The transfer box 32 is connected to a plurality of edge spray pipes 34 on its side, and the end of the edge spray pipe 34 away from the transfer box 32 is connected to the inner wall of the bottom surface of the outer frame shell 1 of the device.

[0082] In this technical solution, the humidification component 3 can humidify the suit inside the outer frame 1 of the device.

[0083] In use, connect the inlet end of the water spray humidification pump 31 to the water storage and supply equipment, and then use the water spray humidification pump 31 to pump water into the transfer box 32, and then into the central spray pipe 33 and the edge spray pipe 34. Then, use the central spray pipe 33 to spray water into the central mesh cylinder 4, and use the edge spray pipe 34 to spray water into the area between the outer frame shell 1 and the partition mesh plate 2, so that the water diffuses in the inner cavity of the outer frame shell 1, thereby humidifying the suit inside the outer frame shell 1.

[0084] The adaptation component 6 includes an adaptation stud 61, the top end of which is rotatably connected to the inner wall of the top surface of the mounting bracket 5, and the bottom end of which is rotatably connected to the bottom surface of the mounting bracket 5.

[0085] The surface of the adaptation stud 61 is threaded with a lifting plate 62, and one side of the lifting plate 62 is connected to the adaptation component 6.

[0086] In this technical solution, the height of the hanging component 7 can be adjusted using the adaptive component 6.

[0087] Multiple anti-deviation rails 63 are connected between the inner wall of the top surface and the inner wall of the bottom surface of the mounting frame 5, and the surface of the anti-deviation rails 63 is slidably connected to the lifting plate 62.

[0088] In this technical solution, the movement trajectory of the lifting plate 62 can be limited by the anti-deviation rail 63.

[0089] In use, the adaptation stud 61 is rotated according to the length of the suit, thereby driving the lifting plate 62 to move along the anti-deviation track 63, which in turn drives the hanging component 7 to move in the same direction, adjusting the height of the hanging component 7 so that the hanging component 7 can hang suits of different lengths.

[0090] The hanging assembly 7 includes a hanging rod 71, one end of which is connected to one side of the lifting plate 62, and an adjusting collar 72 is slidably sleeved on the surface of the hanging rod 71;

[0091] The bottom of the adjusting collar 72 is rotatably connected to a hook 73 via a rotating connecting seat 74.

[0092] In this technical solution, the suit can be hung by the hanging component 7.

[0093] The top surface of the hanging rod 71 has multiple locking grooves.

[0094] In use, the adjusting collar 72 is moved upward, and then the adjusting collar 72 is moved along the hanging rod 71. The adjusting collar 72 can be moved above a locking groove. Then the hanging rod 71 is released. At this time, under the gravity of the adjusting collar 72 and other structures, the top surface of the adjusting collar 72 falls into the locking groove, thereby locking the lateral position of the adjusting collar 72.

[0095] Through the above process, the positions of the adjusting collar 72 and the rotating connecting seat 74 can be adjusted as needed, increasing the flexibility during use.

[0096] The rotating connecting seat 74 consists of an anti-detachment shaft and a rotating sleeve. The rotating sleeve is rotatably connected to the anti-detachment shaft. The top end of the rotating sleeve is connected to the bottom of the adjusting ring 72, and the bottom end of the anti-detachment shaft is connected to the top end of the hook 73.

[0097] When in use, hook 73 can drive the anti-slip shaft to rotate inside the rotating sleeve, thereby adjusting the orientation of hook 73 so that the suit can be hung on hook 73.

[0098] The rotating component 9 includes a rotating power source 91, which is connected to the bottom of the inner cavity of the outer frame shell 1 of the device, and the output end of the rotating power source 91 is connected to the bottom of the mounting shell 8.

[0099] In this technical solution, the rotating component 9 can rotate the central mesh cylinder 4 and the hanging component 7, thereby facilitating the rotation of the suit.

[0100] A protective ring plate 92 is provided on the outside of the rotary power source 91, and the bottom of the protective ring plate 92 is connected to the bottom of the inner cavity of the outer frame shell 1 of the device;

[0101] The top surface of the protective ring plate 92 is rotatably connected to a plurality of supporting balls 93, and the supporting balls 93 are in contact with the bottom surface of the mounting housing 8.

[0102] In this technical solution, the protective ring plate 92 and the supporting ball 93 can be used to support the mounting shell 8, making the mounting shell 8 and other structures more stable when rotating.

[0103] After the suit is hung on the hanging assembly 7, the rotating power source 91 drives the mounting shell 8 and the mounting frame 5 to rotate, thereby causing the suit to rotate and making the humidification of the suit more even.

[0104] The bottom end of the adapting stud 61 is connected to the rotary locking assembly 10, which is disposed in the inner cavity of the mounting housing 8;

[0105] The top surface of the mounting housing 8 has multiple rotating holes. The bottom end of the adapting stud 61 extends into the inner cavity of the mounting housing 8 through the rotating holes and is rotatably connected to the inner wall of the bottom surface of the mounting housing 8. The surface of the adapting stud 61 is rotatably connected to the top surface of the mounting housing 8 through the rotating holes.

[0106] In this technical solution, the mounting housing 8 is used to protect the rotary lock assembly 10 and the synchronization control assembly 11.

[0107] The rotary locking assembly 10 includes a locking gear 101 and a locking rack 102. Each of the adapting studs 61 is connected to a locking gear 101 on its surface. A locking rack 102 is provided on the side of the locking gear 101. The locking gear 101 and the locking rack 102 engage when they are in contact.

[0108] An eccentric wheel 103 is provided on the side of the locking rack 102 away from the rotary locking assembly 10. The eccentric wheel 103 is connected to the surface of the rotating shaft 104. The two ends of the rotating shaft 104 are rotatably connected to the top and bottom of the inner cavity of the mounting housing 8, respectively.

[0109] Both sides of the locking rack 102 are connected to sliding guide plates 105, and both sides of the locking rack 102 are provided with anti-detachment guide posts 106. The surface of the anti-detachment guide post 106 is slidably connected to the sliding guide plate 105.

[0110] One end of the anti-detachment guide post 106 is connected to the connecting plate 107, the connecting plate 107 is connected to the inner wall of the mounting housing 8, and an elastic reset member 108 is connected between the connecting plate 107 and the sliding guide plate 105. The elastic reset member 108 is sleeved on the surface of the anti-detachment guide post 106.

[0111] In this technical solution, the adapting component 6 can be locked by the rotary locking component 10, thereby increasing the strength of the hanging component 7 and making it easier to hang heavy suits.

[0112] When the adaptation stud 61 rotates, it drives the locking gear 101 to rotate. After the adaptation stud 61 is adjusted, the center gear 111 drives the rotating shaft 104 to rotate, thereby driving the eccentric wheel 103 to rotate. When the eccentric wheel 103 rotates, it moves the locking gear 101, so that the locking rack 102 and the locking gear 101 are in close contact, thus engaging.

[0113] During this process, the eccentric wheel 103 moves, causing the sliding guide plate 105 to move in the same direction as the anti-detachment guide column 106. At this time, under the action of the elastic reset member 108, the locking rack 102 is always in close contact with the eccentric wheel 103.

[0114] When it is necessary to rotate the adaptation stud 61, the locking state can be released by using the opposite method to move the locking rack 102 away from the locking gear 101.

[0115] The multiple rotating shafts 104 are all connected to the synchronization control component 11. The synchronization control component 11 includes a central gear 111, and the central gear 111 is meshed with multiple side gears 112 on its side. The side gears 112 are connected to the surface of the rotating shafts 104.

[0116] The central gear 111 is connected to the output end of the control power source 113, and the control power source 113 is connected to the inner wall of the bottom surface of the mounting housing 8.

[0117] In this technical solution, the synchronous control component 11 can be used to synchronously drive multiple rotary lock components 10 to operate.

[0118] In use, the control power source 113 drives the central gear 111 to rotate, thereby synchronously driving multiple side gears 112 to rotate. When the side gears 112 rotate, they drive the corresponding rotating shafts 104 to rotate.

[0119] The rotary power source 91 and the control power source 113 are motor sets or other devices that can output rotary kinetic energy.

[0120] While specific embodiments of this utility model have been described above, those skilled in the art should understand that these are merely illustrative examples, and the scope of protection of this utility model is defined by the appended claims. Those skilled in the art can make various changes or modifications to these embodiments without departing from the principles and essence of this utility model, but all such changes and modifications fall within the scope of protection of this utility model.

Claims

1. A humidifier for suits, comprising an outer frame (1), characterized in that, The suit humidifier also includes a partition mesh (2), which is connected to the inner wall of the outer frame (1) of the device. The partition mesh (2) is used to divide the space inside the outer frame (1) of the device. Humidifying component (3) is disposed in the area between the outer frame shell (1) of the device and the partition mesh plate (2). The humidifying component (3) is used to spray water to humidify the space inside the outer frame shell (1) of the device and the partition mesh plate (2). A garment hanging unit is disposed inside the partition mesh (2) and is used to hang suits. The clothes hanging unit includes a central mesh cylinder (4), the upper end of which is rotatably connected to the humidifying component (3), and multiple mounting brackets (5) are connected to the side of the central mesh cylinder (4). Each mounting bracket (5) has a hanging component (7) slidably connected to its inner side via an adaptation component (6). The lower end of the central mesh cylinder (4) is connected to the mounting shell (8), the bottom of the mounting shell (8) is connected to the output end of the rotating component (9), and the rotating component (9) is connected to the bottom of the inner cavity of the outer frame shell (1) of the device.

2. The suit humidifier as described in claim 1, characterized in that: The humidification component (3) includes a water spray humidification pump (31), which is connected to the top of the outer frame (1) of the device, and the water inlet of the water spray humidification pump (31) is detachably connected to the water storage and supply equipment. The outlet of the water spray humidification pump (31) is connected to a transfer box (32), which is connected to the inner wall of the top surface of the outer frame shell (1) of the device. The bottom of the transfer box (32) is connected to a central spray pipe (33), which is rotatably connected to the top surface of the central mesh cylinder (4). The transfer box (32) is connected to a plurality of edge spray pipes (34) on its side. The end of the edge spray pipe (34) away from the transfer box (32) is connected to the inner wall of the bottom surface of the outer frame shell (1) of the device.

3. The suit humidifier as described in claim 1, characterized in that: The adaptation component (6) includes an adaptation stud (61), the top end of which is rotatably connected to the inner wall of the top surface of the mounting bracket (5), and the bottom end of which is rotatably connected to the bottom surface of the mounting bracket (5). The surface of the adaptation stud (61) is threaded with a lifting plate (62), and one side of the lifting plate (62) is connected to the adaptation component (6).

4. The suit humidifier as described in claim 3, characterized in that: Multiple anti-deviation rails (63) are connected between the inner wall of the top surface and the inner wall of the bottom surface of the mounting bracket (5), and the surface of the anti-deviation rails (63) is slidably connected to the lifting plate (62).

5. The suit humidifier as described in claim 1, characterized in that: The hanging assembly (7) includes a hanging rod (71), one end of which is connected to one side of the lifting plate (62), and an adjusting collar (72) is slidably sleeved on the surface of the hanging rod (71); The bottom of the adjusting collar (72) is rotatably connected to a hook (73) via a rotating connecting seat (74).

6. The suit humidifier as described in claim 1, characterized in that: The rotating component (9) includes a rotating power source (91), which is connected to the bottom of the inner cavity of the outer frame shell (1) of the device, and the output end of the rotating power source (91) is connected to the bottom of the mounting shell (8).

7. The suit humidifier as described in claim 6, characterized in that: A protective ring plate (92) is provided on the outside of the rotary power source (91), and the bottom of the protective ring plate (92) is connected to the bottom of the inner cavity of the outer frame shell (1) of the device; The top surface of the protective ring plate (92) is rotatably connected to a plurality of supporting balls (93), and the supporting balls (93) are in contact with the bottom surface of the mounting shell (8).

8. The suit humidifier as described in claim 3, characterized in that: The bottom end of the adapting stud (61) is connected to the rotary locking assembly (10) in a transmission connection, and the rotary locking assembly (10) is disposed in the inner cavity of the mounting housing (8); The top surface of the mounting housing (8) is provided with multiple rotating holes. The bottom end of the adapting stud (61) extends into the inner cavity of the mounting housing (8) through the rotating holes and is rotatably connected to the inner wall of the bottom surface of the mounting housing (8). The surface of the adapting stud (61) is rotatably connected to the top surface of the mounting housing (8) through the rotating holes.

9. The suit humidifier as described in claim 8, characterized in that: The rotary locking assembly (10) includes a locking gear (101) and a locking rack (102). Each of the adapting studs (61) is connected to a locking gear (101) on its surface. A locking rack (102) is provided on the side of the locking gear (101). The locking gear (101) and the locking rack (102) engage when they are in contact. An eccentric wheel (103) is provided on the side of the locking rack (102) away from the rotary locking assembly (10). The eccentric wheel (103) is connected to the surface of the rotating shaft (104). The two ends of the rotating shaft (104) are rotatably connected to the top and bottom of the inner cavity of the mounting housing (8), respectively. The locking rack (102) is connected to sliding guide plates (105) on both sides, and anti-detachment guide posts (106) are provided on both sides of the locking rack (102). The surface of the anti-detachment guide post (106) is slidably connected to the sliding guide plate (105). One end of the anti-detachment guide post (106) is connected to the connecting plate (107), the connecting plate (107) is connected to the inner wall of the mounting housing (8), and an elastic reset member (108) is connected between the connecting plate (107) and the sliding guide plate (105). The elastic reset member (108) is sleeved on the surface of the anti-detachment guide post (106).

10. The suit humidifier as described in claim 9, characterized in that: Multiple rotating shafts (104) are connected to a synchronous control assembly (11) for transmission. The synchronous control assembly (11) includes a central gear (111), and multiple side gears (112) are meshed on the side of the central gear (111). The side gears (112) are connected to the surface of the rotating shafts (104). The central gear (111) is connected to the output end of the control power source (113), and the control power source (113) is connected to the inner wall of the bottom surface of the mounting housing (8).