Intelligent drying storage wardrobe
By introducing a circular track and sensor monitoring system into the wardrobe, the drying components are dynamically adjusted, solving the problems of uneven drying of clothes and high energy consumption. This achieves uniform drying of clothes and energy-saving effects, meeting diverse needs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN KANAS SMART HOME CO LTD
- Filing Date
- 2025-06-05
- Publication Date
- 2026-06-05
AI Technical Summary
Traditional wardrobes often suffer from problems such as clothes not being completely dried or excessive humidity leading to dampness, mold, and odors. Furthermore, the fixed direction of hot air blowing results in uneven drying in certain areas, high energy consumption, and a lack of zoned design for small items of clothing, making it impossible to dynamically adjust the drying intensity and temperature.
A smart drying and storage wardrobe has been designed. It uses a circular track to drive the hook slots to rotate in a circular manner. Combined with temperature and humidity sensors to monitor the status of the clothes, it dynamically adjusts the start and stop of the drying components and the air temperature. It can handle hanging clothes and small items in separate areas and supports custom drying modes.
It achieves uniform heating of clothes from multiple angles, reduces drying time and energy consumption, avoids cross-contamination, improves user experience and energy-saving effect, and meets diverse drying needs.
Smart Images

Figure CN224320408U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of smart home technology, and in particular to a smart drying and storage wardrobe. Background Technology
[0002] Traditional wardrobes often result in damp, moldy, and smelly clothes due to incomplete drying or excessively high humidity. Existing solutions mostly use fixed hot air devices, such as built-in hot air blowers, to reduce humidity throughout the wardrobe. However, the hot air is blown in a fixed direction, causing clothes near the air outlet to be over-dried while those further away are under-dried, especially for densely hung clothes. They also require continuous heating of the entire space, resulting in high energy consumption and an inability to target specific damp areas. Furthermore, they lack separate drying zones for small items like underwear, requiring manual operation of storage components. Finally, they cannot dynamically adjust drying intensity and temperature based on seasonal changes, clothing condition, or user needs. Utility Model Content
[0003] The purpose of this invention is to solve the problems mentioned above and provide an intelligent drying and storage wardrobe.
[0004] A smart drying and storage wardrobe, including
[0005] The cabinet includes an upper cabinet and a lower cabinet; the upper cabinet and the lower cabinet are separated by a partition inside the cabinet; a movable component is provided at the top of the upper cabinet; a hook groove is provided on the movable component; a first drying component is provided at the bottom of the inner side of the upper cabinet; a first measuring component is provided on the inner side wall of the upper cabinet; a cabinet door is provided at the front of the upper cabinet.
[0006] The lower cabinet includes a pull-out box; a second drying component is provided on the top of the inner side wall of the lower cabinet; a second measuring component is provided on the top of the inner side of the lower cabinet;
[0007] The controller is located on the outside of the cabinet door; the controller is electrically connected to the moving component, the first drying component, the second drying component, the first measuring component, and the second measuring component.
[0008] Furthermore, the movable component includes a mounting member located at the top of the upper cabinet; the mounting member is configured as an elliptical structure; the side wall of the mounting member is provided with an annular mounting groove; the bottom of the mounting groove is provided with a movable track; the movable track can rotate cyclically around the mounting member along the mounting groove; a first power motor is provided inside the mounting member; the output end of the first power motor is connected to the movable track for transmission; and the hook slot array is arranged on the movable track.
[0009] Furthermore, a hook hole is provided in the middle of the hook groove.
[0010] Furthermore, the first drying assembly includes a first heating air box located on the upper part of the outer side wall of the cabinet and a first air outlet at the bottom of the inner side of the upper cabinet; a first air inlet is provided on the front side of the first heating air box; the first heating air box is connected to the air outlet through a pipe.
[0011] Furthermore, the first air outlet array is configured as multiple groups; the first air outlet is arranged vertically upwards.
[0012] Furthermore, the second drying component includes a second heating air box located at the bottom of the outer wall of the cabinet; a second air inlet is provided on the front side of the second heating air box; and a second air outlet is provided in the array connecting the second heating air box and the lower cabinet.
[0013] Furthermore, a second power box is provided on both outer side walls of the cabinet; the second power box is located on the front side of the outer side wall of the lower cabinet; a wheel is provided at the output end of the second power box; the wheel is located at the top of the inner side wall of the lower cabinet; a groove is provided on the edge of the pull-out box; the wheel abuts against the groove to push the pull-out box to move;
[0014] The second power box is electrically connected to the controller.
[0015] Furthermore, the first and second measuring components are configured as a temperature sensor and a humidity sensor, respectively.
[0016] The beneficial effects of this utility model are:
[0017] The ring track drives the hook slots to rotate cyclically, allowing clothes to be aligned with the first air outlet in turn, achieving uniform heating from multiple angles. The first measuring component monitors the status of the hanging clothes and controls the first drying component to start and stop as needed. The second measuring component and the second drying component independently handle small items such as underwear to avoid cross-contamination. The control board integrates the moving component, the dual-zone drying system, and the sensing module, supporting custom drying modes to meet diverse needs. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the structure of this utility model;
[0019] Figure 2 This is a schematic diagram of the bottom of the device;
[0020] Figure 3 This is a schematic diagram of the interior of the upper cabinet;
[0021] Figure 4 This is a schematic diagram of the interior of the lower cabinet;
[0022] In the diagram, 1. Cabinet; 11. Upper cabinet; 12. Lower cabinet; 121. Pull-out box; 122. Groove; 13. Divider; 14. Cabinet door; 2. Moving component; 21. Hook groove; 211. Hook hole; 22. Mounting component; 221. Mounting groove; 222. Moving track; 223. First power motor; 3. First drying component; 31. First heating air box; 311. First air inlet; 32. First air outlet; 4. First measuring component; 5. Second drying component; 51. Second heating air box; 511. Second air inlet; 512. Second air outlet; 6. Second measuring component; 7. Controller; 8. Second power box; 81. Rotary wheel. Detailed Implementation
[0023] The following specific examples illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. This utility model can also be implemented or applied through other different specific embodiments, and various details in this specification can also be modified or changed based on different viewpoints and applications without departing from the spirit of this utility model. It should be noted that, unless otherwise specified, the following embodiments and features described therein can be combined with each other.
[0024] It should be noted that the illustrations provided in the following embodiments are only schematic representations of the basic concept of the present invention. Therefore, the drawings only show the components related to the present invention and are not drawn according to the number, shape and size of the components in actual implementation. In actual implementation, the form, quantity and proportion of each component can be arbitrarily changed, and the layout of the components may also be more complex.
[0025] Example 1
[0026] like Figures 1-4 As shown:
[0027] A smart drying and storage wardrobe, including
[0028] Box 1; the box 1 includes an upper cabinet 11 and a lower cabinet 12; the upper cabinet 11 and the lower cabinet 12 are separated by a partition 13 inside the box 1; a movable component 2 is provided at the top inside the upper cabinet 11; a hook groove 21 is provided on the movable component 2; a first drying component 3 is provided at the bottom inside the upper cabinet 11; a first measuring component 4 is provided on the inner side wall of the upper cabinet 11; a cabinet door 14 is provided at the front of the upper cabinet 11;
[0029] Rotary moving component 2: The hook groove 21 is driven to rotate cyclically through the ring track, so that the clothes are aligned with the first air outlet 32 in turn, so as to achieve uniform heating from multiple angles;
[0030] The lower cabinet 12 includes a pull-out box 121; a second drying component 5 is provided on the top of the inner side wall of the lower cabinet 12; a second measuring component 6 is provided on the top of the inner side of the lower cabinet 12.
[0031] Controller 7; Controller 7 is located on the outside of cabinet door 14; Controller 7 is electrically connected to moving component 2, first drying component 3, second drying component 5, first measuring component 4, and second measuring component 6. Controller 7 dynamically adjusts air temperature and drying time based on real-time monitoring data and user settings to protect clothing fibers and save energy. The control board integrates moving component 2, dual-zone drying system, and sensor module, supporting custom drying modes to meet diverse needs.
[0032] The movable component 2 includes a mounting piece 22 located on the top of the upper cabinet 11; the mounting piece 22 is configured as an elliptical structure; an annular mounting groove 221 is provided on the side wall of the mounting piece 221; a movable track 222 is provided at the bottom of the mounting groove 221; the movable track 222 can rotate cyclically around the mounting piece 22 along the mounting groove 221; a first power motor 223 is provided inside the mounting piece 22; the output end of the first power motor 223 is connected to the movable track 222 for transmission; and an array of hook grooves 21 is arranged on the movable track 222. In this solution, the movable track 222 and the first power motor 223 are designed as existing technologies, which are common technologies in the industry. Specifically, linear drive is achieved by the meshing of gears at the bottom of the track and gears on the first power motor 223, which is a mature existing solution.
[0033] A hook hole 211 is provided in the middle of the hook groove 21 for hanging clothes hangers;
[0034] The first drying assembly 3 includes a first heating air box 31 located on the upper part of the outer wall of the cabinet 1 and a first air outlet 32 at the bottom of the inner side of the upper cabinet 11; a first air inlet 311 is provided on the front side of the first heating air box 31; the first heating air box 31 is connected to the air outlet through a pipe. The status of the hanging clothes is monitored by the first measuring component 4, and the first drying assembly 3 is controlled to start and stop as needed;
[0035] The first air outlet 32 is arranged in multiple groups; the first air outlet 32 is arranged vertically upward. Hot air penetrates the clothes from bottom to top, avoiding dead air zones and significantly reducing drying time and energy consumption.
[0036] The second drying component 5 includes a second heating air box 51 located at the bottom of the outer wall of the cabinet 1; a second air inlet 511 is provided on the front side of the second heating air box 51; the second heating air box 51 is connected to the lower cabinet 12 and is arranged with a second air outlet 512. Small items of clothing such as underwear are processed independently by the second measuring component 6 and the second drying component 5 to avoid cross-contamination.
[0037] The outer two side walls of the cabinet 1 are also provided with a second power box 8; the second power box 8 is located on the front side of the outer side wall of the lower cabinet 12; the output end of the second power box 8 is provided with a rotating wheel 81; the rotating wheel 81 is located on the top of the inner side wall of the lower cabinet 12; the edge of the pull-out box 121 is provided with a groove 122; the rotating wheel 81 abuts against the groove 122 to push the pull-out box 121 to move. The second power box 8 drives the rotating wheel 81 to cooperate with the groove 122 of the pull-out box 121 to realize the automatic opening and closing of the panel, improving the convenience and hygiene of storing and retrieving underwear; the second air outlet 512 array layout ensures that small clothes are dried quickly.
[0038] The second power box 8 is electrically connected to the controller 7.
[0039] The first measuring component 4 and the second measuring component 6 are configured as a temperature sensor and a humidity sensor, respectively.
[0040] Operating mode of this device
[0041] The user hangs the not-fully-dried clothes in the hook slot 21 and closes the cabinet door 14. The sensor on the upper cabinet 11 detects that the humidity exceeds the set threshold and sends a signal to the controller 7. The controller 7 activates the first drying component 3 and the moving component 2. The first motor 223 drives the circular track to rotate, moving the clothes in batches directly above the first air outlet 32. Vertical hot air penetrates the clothes from bottom to top, and the dwell time of each garment is dynamically adjusted based on real-time humidity data. The controller 7 continuously feeds back data until all the clothes reach the humidity standard, at which point it automatically stops.
[0042] When the user clicks controller 7, the second power box 8 starts, and the rotating wheel 81 pushes the pull-out box 121 out. After the underwear is placed in, the pull-out box 121 is closed. If the sensor detects that the humidity is too high, the second drying component 5 starts horizontal hot air to evenly cover the clothes in the pull-out box 121. After drying is complete, it automatically switches to constant temperature and humidity mode.
[0043] The embodiments described above merely illustrate specific implementations of this utility model, and while the descriptions are detailed, they should not be construed as limiting the scope of this utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these modifications and improvements all fall within the protection scope of this utility model.
Claims
1. An intelligent drying and storage wardrobe, characterized in that: include Box body (1); the box body (1) includes an upper cabinet (11) and a lower cabinet (12); the upper cabinet (11) and the lower cabinet (12) are separated by a partition (13) inside the box body (1); a movable component (2) is provided at the top inside the upper cabinet (11); a hook groove (21) is provided on the movable component (2); a first drying component (3) is provided at the bottom inside the upper cabinet (11); a first measuring component (4) is provided on the inner wall of the upper cabinet (11); a cabinet door (14) is provided on the front side of the upper cabinet (11); The lower cabinet (12) includes a pull-out box (121); a second drying component (5) is provided on the top of the inner side wall of the lower cabinet (12); a second measuring component (6) is provided on the top of the inner side of the lower cabinet (12). Controller (7); the controller (7) is located outside the cabinet door (14); the controller (7) is electrically connected to the moving component (2), the first drying component (3), the second drying component (5), the first measuring component (4), and the second measuring component (6).
2. The intelligent drying and storage wardrobe according to claim 1, characterized in that: The movable component (2) includes a mounting piece (22) located at the top of the upper cabinet (11); the mounting piece (22) is configured as an elliptical structure; the side wall of the mounting piece (22) is provided with an annular mounting groove (221); the bottom of the mounting groove (221) is provided with a moving track (222); the moving track (222) can rotate around the mounting piece (22) along the mounting groove (221); a first power motor (223) is provided inside the mounting piece (22); the output end of the first power motor (223) is connected to the moving track (222) for transmission; the hook grooves (21) are arranged in an array on the moving track (222).
3. The intelligent drying and storage wardrobe according to claim 2, characterized in that: The hook groove (21) is provided with a hook hole (211) in the middle.
4. The intelligent drying and storage wardrobe according to claim 1, characterized in that: The first drying component (3) includes a first heating air box (31) located on the upper part of the outer side wall of the box (1) and a first air outlet (32) at the bottom of the inner side of the upper cabinet (11); a first air inlet (311) is provided on the front side of the first heating air box (31); the first heating air box (31) is connected to the air outlet through a pipe.
5. The intelligent drying and storage wardrobe according to claim 4, characterized in that: The first air outlet (32) array is configured in multiple groups; the first air outlet (32) is set vertically upward.
6. The intelligent drying and storage wardrobe according to claim 1, characterized in that: The second drying component (5) includes a second heating air box (51) located at the bottom of the outer wall of the box (1); a second air inlet (511) is provided on the front side of the second heating air box (51); the second heating air box (51) is connected to the lower cabinet (12) and is provided with a second air outlet (512).
7. The intelligent drying and storage wardrobe according to claim 1, characterized in that: The outer two side walls of the cabinet (1) are also provided with a second power box (8); the second power box (8) is located on the front side of the outer side wall of the lower cabinet (12); the output end of the second power box (8) is provided with a wheel (81); the wheel (81) is located on the top of the inner side wall of the lower cabinet (12); the edge of the pull-out box (121) is provided with a groove (122); the wheel (81) abuts against the groove (122) to push the pull-out box (121) to move; The second power box (8) is electrically connected to the controller (7).
8. The intelligent drying and storage wardrobe according to claim 1, characterized in that: The first measuring component (4) and the second measuring component (6) are configured as a temperature sensor and a humidity sensor.