Intelligent shoe cabinet
By installing an air outlet duct within the storage channel of the smart shoe cabinet, which blows air towards the inside of the shoes, the problem of difficulty in drying the inside of shoes in existing technologies is solved, achieving a rapid drying effect inside the shoes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HAIER IOC ECOSYSTEM TECH (SHANGHAI) CO LTD
- Filing Date
- 2021-11-26
- Publication Date
- 2026-06-26
AI Technical Summary
Existing smart shoe cabinets are unable to effectively dry the inside of shoes; they can only dry the outer surface, while the inside of the shoes cannot be completely dried in a short time.
An air outlet duct is installed inside the storage channel, blowing air towards the inside of the shoe to accelerate the drying process by increasing airflow inside the shoe.
By installing an air outlet duct within the accommodating channel, which blows air towards the inside of the shoe, the drying speed inside the shoe is significantly improved.
Smart Images

Figure CN116172342B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of smart home technology, specifically to a smart shoe cabinet. Background Technology
[0002] Smart shoe cabinets are based on traditional shoe cabinets for storing shoes and socks, but with the addition of functions such as drying and dehumidifying, mildew prevention and moisture removal, sterilization and deodorization, adding a modern technological touch to the traditional furniture industry.
[0003] In related technologies, a smart shoe cabinet includes a cabinet body, a door, and a drying device. The cabinet body has an operating side facing the user, and a recessed storage space on the operating side for storing shoes. The door is hinged to the cabinet body and closes the storage space. A first air inlet connected to the storage space is located on the cabinet body and is connected to the air outlet of the drying device, which supplies hot air into the storage space.
[0004] However, smart shoe cabinets in related technologies struggle to dry the inside of shoes. Summary of the Invention
[0005] To address the aforementioned problems in related technologies, specifically the difficulty of drying the inside of shoes in smart shoe cabinets, this invention provides a smart shoe cabinet comprising: a cabinet body, an air outlet duct, and a drying device. The cabinet body has an operating side facing the user, and an accommodating channel extending into the cabinet body is provided on the operating side for placing shoes. The air outlet duct is disposed within the accommodating channel, with one end connected to the air outlet of the drying device and the other end used to blow air towards the inside of the shoes.
[0006] In the preferred embodiment of the above-mentioned intelligent shoe cabinet, a hollow rod is provided at the top of the accommodating channel away from the operating side. The two ends of the hollow rod are connected to the inner wall of the cabinet body. The axis of the hollow rod is parallel to the horizontal plane and parallel to the operating side. The hollow rod is connected to the air outlet of the drying device. One end of the air outlet pipe is connected to the outer wall of the hollow rod, and the axis of the air outlet pipe is perpendicular to the axis of the hollow rod. The air outlet pipe is connected to the hollow rod.
[0007] In the preferred embodiment of the above-mentioned intelligent shoe cabinet, the intelligent shoe cabinet further includes a drawer, a drive unit, and a reset unit. The drawer is slidably disposed within the receiving channel, and the sliding direction of the drawer is parallel to the extension direction of the receiving channel. The drawer is used to place shoes. The hollow rod is rotatably connected to the inner wall of the cabinet body. When the drawer is moved out of the receiving channel, the projections of the hollow rod and the air outlet pipe on the operating side are both located above the drawer. The drive unit is disposed on the hollow rod, and the drawer is also used to drive the drive unit to rotate relative to the axis of the hollow rod in a preset direction, so that the projection of the air outlet pipe on the operating side is located inside the drawer, and the axis of the air outlet pipe is inclined relative to the vertical direction. The reset unit is disposed between the drive unit and the inner wall of the cabinet body. The reset unit is used to drive the drive unit to rotate relative to the axis of the hollow rod in the opposite direction of the preset direction when the drawer is separated from the drive unit, so that the projection of the air outlet pipe on the operating side is located above the drawer.
[0008] In the preferred technical solution of the above-mentioned intelligent shoe cabinet, the driving component includes an external gear, which is sleeved on the hollow rod.
[0009] In the preferred technical solution of the above-mentioned intelligent shoe cabinet, the reset component includes a reset spring, which is sleeved on the hollow rod. One end of the reset spring is connected to the inner wall of the cabinet, and the other end of the reset spring is connected to the drive component.
[0010] In the preferred technical solution of the above-mentioned intelligent shoe cabinet, the bottom of the receiving channel has a first inclined surface, and the end of the first inclined surface away from the operating side is further away from the top of the receiving channel than the end closer to the operating side; the bottom of the drawer has a second inclined surface, the second inclined surface is parallel to the first inclined surface, and there is a preset gap between the top of the drawer and the top of the receiving channel.
[0011] In the preferred technical solution of the above-mentioned intelligent shoe cabinet, the bottom of the drawer is provided with an air vent, the cabinet body is provided with a return air duct, and the air vent is connected to the return air duct; the drying device also has a return air inlet, and the return air inlet is connected to the return air duct.
[0012] In the preferred embodiment of the above-mentioned intelligent shoe cabinet, a sealing plate is provided on the outside of the drawer. The sealing plate is used to cover the operating side when the drawer is housed in the receiving channel, so as to close the receiving channel.
[0013] In the preferred technical solution of the above-mentioned smart shoe cabinet, the top of the sealing plate is provided with a groove for the user's fingers to insert.
[0014] In the preferred technical solution of the above-mentioned smart shoe cabinet, the cross-sectional area of the groove increases from the bottom of the groove to the opening of the groove.
[0015] Those skilled in the art will understand that the smart shoe cabinet of this invention includes a cabinet body, an air outlet duct, and a drying device. The cabinet body has an operating side facing the user, and a receiving channel extending into the cabinet body is provided on the operating side for placing shoes. The air outlet duct is disposed within the receiving channel, with one end connected to the air outlet of the drying device and the other end blowing air towards the inside of the shoes. Through this arrangement, the air inlet of the air outlet duct is connected to the air outlet of the drying device, and the air outlet of the air outlet duct is positioned close to the shoes and blows air towards the inside of the shoes, thereby improving the airflow inside the shoes and accelerating the drying speed. Attached Figure Description
[0016] A preferred embodiment of the smart shoe cabinet of the present invention will now be described with reference to the accompanying drawings. The drawings are as follows:
[0017] Figure 1 This is a schematic diagram of the structure of the smart shoe cabinet according to an embodiment of the present invention, showing the drawer sliding out from the receiving channel;
[0018] Figure 2 This is a schematic diagram of the hollow rod, air outlet pipe, and external gear in the smart shoe cabinet according to an embodiment of the present invention;
[0019] Figure 3 This is a schematic diagram of the structure of the smart shoe cabinet according to an embodiment of the present invention, showing the drawers completely sliding into the receiving channel. Figure 1 ;
[0020] Figure 4 This is a schematic diagram of the structure of the smart shoe cabinet according to an embodiment of the present invention, showing the drawers completely sliding into the receiving channel. Figure 2 ;
[0021] Figure 5 This is a schematic diagram of the structure of the drawer and the external gear in the intelligent shoe cabinet according to an embodiment of the present invention.
[0022] In the attached image:
[0023] 100. Cabinet;
[0024] 200. Air outlet duct;
[0025] 300. Hollow rod;
[0026] 400. Drawer;
[0027] 500. External gear;
[0028] 600. Return spring;
[0029] 101. Operating from the side;
[0030] 102. First inclined plane;
[0031] 103. Return air duct;
[0032] 401. Second inclined plane;
[0033] 402. Vent;
[0034] 403. Sealing plate;
[0035] 404, Grooving. Detailed Implementation
[0036] First, those skilled in the art should understand that these embodiments are merely illustrative of the technical principles of the present invention and are not intended to limit the scope of protection of the present invention. Those skilled in the art can make adjustments as needed to adapt to specific application scenarios.
[0037] Secondly, it should be noted that in the description of the embodiments of the present invention, the terms "inner" and "outer", etc., which indicate the direction or positional relationship, are based on the direction or positional relationship shown in the drawings. This is only for the convenience of description and is not intended to indicate or imply that the device or component must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, it should not be construed as a limitation on the embodiments of the present invention.
[0038] Furthermore, it should be noted that, in the description of the embodiments of the present invention, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; 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; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of the present invention according to the specific circumstances.
[0039] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0040] The smart shoe cabinet in the related technology includes a cabinet body, a door body, and a drying device. The cabinet body has an operating side that is designed to face the user. The operating side has a recessed storage space that is used to store shoes.
[0041] The door is hinged to the cabinet and covers the operating side to enclose the storage space. The cabinet has a first air inlet and a first air outlet that communicate with the storage space. The drying device has an air outlet and a return air outlet. The air outlet communicates with the first air inlet, and the return air outlet communicates with the first air outlet. The drying device is used to deliver hot air into the storage space to dry the shoes inside.
[0042] However, when using smart shoe cabinets in related technologies, the air circulation outside the shoes is relatively strong while the air circulation inside the shoes is relatively weak. As a result, the smart shoe cabinet can only dry the outer surface of the shoes, while the inside of the shoes is difficult to dry completely in a short time.
[0043] This embodiment provides a smart shoe cabinet that uses an air outlet pipe installed in the storage channel to blow air into the shoes, thereby improving the airflow inside the shoes and accelerating the drying process.
[0044] The principles and features of the embodiments of the present invention are described below with reference to the accompanying drawings. The examples given are only used to explain the embodiments of the present invention and are not intended to limit the scope of the embodiments of the present invention.
[0045] like Figure 1 As shown, the smart shoe cabinet provided in this embodiment of the invention includes a cabinet body 100, an air outlet 200, and a drying device. The cabinet body 100 has an operation side 101, which is set to face the user. An accommodating channel extending into the cabinet body 100 is provided on the operation side 101. A drawer 400 or a shoe rack can be set in the accommodating channel. Shoes can be placed in the drawer 400 or on the shoe rack.
[0046] An air outlet duct 200 is installed within the receiving channel, and the air outlet duct 200 has an air inlet end and an air outlet end. The air inlet end of the air outlet duct 200 is connected to the air outlet of the drying device, and the air outlet end of the air outlet duct 200 is designed to be placed close to the shoes and blow air towards the inside of the shoes.
[0047] The air outlet duct 200 can be a cylindrical duct or a rectangular duct (such as...). Figure 1 and Figure 2 (as shown); of course, the air outlet duct 200 can also be a frustum-shaped tube or a truncated pyramid-shaped tube, etc. The diameter of the air outlet duct 200 can gradually decrease from the air inlet end to the air outlet end in order to increase the air speed at the air outlet end, improve the air flow inside the shoe, and thus speed up the drying speed inside the shoe.
[0048] The drying device may include a compressor, an evaporator, a condenser, and a fan. The compressor, evaporator, and condenser are connected by pipes through which refrigerant flows. The evaporator, condenser, and fan are connected by an air duct. The fan circulates the air within the air duct. The two ends of the air duct are an air outlet and a return air inlet, respectively. The air outlet is connected to the air inlet of the air outlet pipe 200, and the return air inlet is connected to the receiving channel. After the drying device is started, the compressor causes the refrigerant to undergo a gas-liquid conversion, which lowers the temperature of the evaporator and raises the temperature of the condenser. The humid and hot air in the receiving channel enters the air duct from the return air inlet. When it passes through the evaporator, the water vapor in the air condenses due to the lower temperature of the evaporator, turning the air into dry and cold air. When the dry and cold air flows to the condenser, the higher temperature of the condenser heats the dry and cold air into dry and hot air. The dry and hot air flows from the air outlet to the air outlet pipe 200 and is blown into the inside of the shoes from the air outlet end of the air outlet pipe 200. This cycle continues, continuously supplying hot and dry air into the receiving channel to heat and dry the shoes inside the receiving channel.
[0049] The smart shoe cabinet in this embodiment includes a cabinet body 100, an air outlet duct 200, and a drying device. The cabinet body 100 has an operating side 101 facing the user. An accommodating channel extending into the cabinet body 100 is provided on the operating side 101 for placing shoes. The air outlet duct 200 is disposed within the accommodating channel. One end of the air outlet duct 200 is connected to the air outlet of the drying device, and the other end blows air towards the inside of the shoes. Through this arrangement, the air inlet of the air outlet duct 200 is connected to the air outlet of the drying device, and the air outlet of the air outlet duct 200 is positioned close to the shoes and blows air towards the inside of the shoes to improve airflow inside the shoes, thereby accelerating the drying process.
[0050] In some embodiments, the air outlet duct 200 can be connected to the cabinet 100 via a hollow rod 300. The hollow rod 300 can be located at the top of the accommodating channel, away from the operating side 101. Both ends of the hollow rod 300 are connected to the inner wall of the cabinet 100. The axis of the hollow rod 300 is parallel to the horizontal plane and parallel to the operating side 101. One end of the air outlet duct 200 is connected to the outer wall of the hollow rod 300, and the axis of the air outlet duct 200 is perpendicular to the axis of the hollow rod 300. The air outlet duct 200 communicates with the internal cavity of the hollow rod 300, and the internal cavity of the hollow rod 300 communicates with the air outlet of the drying device.
[0051] Multiple air outlet pipes 200 can be provided on the hollow rod 300. The multiple air outlet pipes 200 are spaced apart along the axial direction of the hollow rod 300. For example, there can be two, four, six or other even numbers of air outlet pipes 200 on the hollow rod 300. Each air outlet pipe 200 is used to blow air into the inside of a shoe, so that multiple shoes can be dried at one time, reducing the drying time required for multiple shoes.
[0052] The hot dry air in the drying device flows from the air outlet to the hollow rod 300, and then from the hollow rod 300 to the air outlet pipe 200. The hot dry air is continuously delivered to the inside of the shoe from the air outlet end of the air outlet pipe 200 to improve the air flow inside the shoe and thus speed up the drying process inside the shoe.
[0053] In the implementation of setting a drawer 400 in the accommodating channel, the drawer 400 is slidably installed in the accommodating channel, and the sliding direction of the drawer 400 is parallel to the extension direction of the accommodating channel. The drawer 400 is used to store shoes.
[0054] The hollow rod 300 is rotatably connected to the inner wall of the cabinet 100. (Continue referring to...) Figure 1 When drawer 400 is moved out of the receiving channel, the projections of hollow rod 300 and air outlet pipe 200 on the operating side 101 are both above drawer 400.
[0055] The smart shoe cabinet may also include a drive unit and a reset unit. The drive unit is mounted on the hollow rod 300. The drawer 400 is also used to rotate the drive unit relative to the axis of the hollow rod 300 in a preset direction, so that the air outlet duct 200 also rotates relative to the axis of the hollow rod 300 in a preset direction. When the drawer 400 is fully accommodated in the accommodating channel, the projection of the air outlet duct 200 on the operating side 101 is located inside the drawer 400, and the axis of the air outlet duct 200 is inclined relative to the vertical direction.
[0056] In other words, when drawer 400 is located within the receiving channel but not in contact with the drive component, the projections of hollow rod 300 and air outlet pipe 200 on the operating side 101 are both above drawer 400. The axis of air outlet pipe 200 can extend obliquely upwards from the air inlet end to the air outlet end, or it can extend horizontally to avoid creating sliding space for drawer 400. Drawer 400 continues to slide into the receiving channel. When drawer 400 comes into contact with the drive component, drawer 400 continues to slide into the receiving channel and pushes the drive component, causing the drive component to rotate relative to the axis of hollow rod 300 in a preset direction. Since the drive component is connected to hollow rod 300 and air outlet pipe 200 is also connected to air outlet pipe 200, the rotation of the drive component causes hollow rod 300 and air outlet pipe 200 to also rotate relative to the axis of hollow rod 300 in a preset direction. Figure 3-5As shown, when the drawer 400 is fully slid into the receiving channel, the projection of the air outlet 200 on the operating side 101 is located inside the drawer 400, and the axis of the air outlet 200 is inclined relative to the vertical direction, that is, the axis of the air outlet 200 extends downward from the air inlet end to the air outlet end. In this way, when shoes are placed in the drawer 400 (when the shoes are placed, the toes can be away from the air outlet 200), the air outlet end of the air outlet 200 can blow air roughly towards the inside of the shoes to improve the airflow inside the shoes.
[0057] The reset component is located between the drive component and the inner wall of the cabinet 100. The reset component is used to drive the air outlet pipe 200 to rotate in the opposite direction of the axis of the hollow rod 300 relative to the drive component when the drawer 400 is separated from the drive component, so that the projection of the air outlet pipe 200 on the operating side 101 is above the drawer 400.
[0058] Drawer 400 slides out of the receiving channel. When drawer 400 separates from the drive member, the reset member causes the drive member to rotate in the opposite direction of the axis of the hollow rod 300 relative to the preset direction. This causes the air outlet pipe 200 to also rotate in the opposite direction of the preset direction relative to the axis of the hollow rod 300, until the projection of the air outlet pipe 200 on the operating side 101 is above drawer 400 (e.g., Figure 1 As shown), so that the air duct 200 avoids the sliding space of the drawer 400, so that the drawer 400 can slide out of the receiving channel normally.
[0059] The cooperation between drawer 400 and the drive unit, as well as the cooperation between the reset unit and the drive unit, allows users to simply pull out drawer 400, put in shoes, and push drawer 400 into the receiving channel when drying shoes. There is no need to manually adjust the orientation of the air outlet 200, making it convenient for users.
[0060] Continue to refer to Figure 1-5 The aforementioned driving component may include an external gear 500, which is sleeved on the hollow rod 300. The outer wall of the drawer 400 may abut against a tooth surface on the external gear 500, pushing the drawer 400 into the receiving channel. The drawer 400 pushes the tooth surface to rotate relative to the axis of the hollow rod 300 in a preset direction, so that the air outlet duct 200 rotates relative to the axis of the hollow rod 300 in a preset direction.
[0061] There can be multiple external gears 500, which are spaced apart along the axis of the hollow rod 300 to reduce the force exerted by the drawer 400 on each individual external gear 500, thereby extending the service life of the external gear 500. For example, continue to refer to... Figure 2 and Figure 4There can be two external gears 500, which can be respectively set near the end of the hollow rod 300. A reset component can be set between only one of the external gears 500 and the cabinet 100, or a reset component can be set between each external gear 500 and the inner wall of the cabinet 100 to enhance the reset effect of the reset component on the external gear 500.
[0062] Alternatively, the aforementioned driving component may also include a driving plate, one end of which is connected to the outer wall of the hollow rod 300, and the other end of which extends downward at an angle. The outer wall of the drawer 400 may abut against one side of the driving plate, pushing the drawer 400 into the receiving channel. The drawer 400 pushes the driving plate to rotate relative to the axis of the hollow rod 300 in a preset direction, so that the air outlet duct 200 rotates relative to the axis of the hollow rod 300 in a preset direction.
[0063] Continue to refer to Figure 1 and Figure 3 The aforementioned reset component may include a reset spring 600, which is sleeved on the hollow rod 300. One end of the reset spring 600 is connected to the inner wall of the cabinet 100, and the other end of the reset spring 600 is connected to the drive component. The reset spring 600 is used to cause the drive component to rotate in the opposite direction to the axis of the hollow rod 300 in a preset direction.
[0064] Specifically, the return spring 600 can be made of a metal wire, with one end of the wire passing through the cabinet 100 and the other end passing through the drive component.
[0065] Alternatively, the reset component may include a rubber band wrapped around the hollow rod 300, with one end of the rubber band connected to the inner wall of the cabinet 100 and the other end connected to the drive component. The rubber band is used to make the drive component rotate in the opposite direction to the axis of the hollow rod 300 in a preset direction.
[0066] Continue to refer to Figure 5 In some embodiments, the bottom of the receiving channel has a first inclined surface 102, the end of the first inclined surface 102 away from the operating side 101 is further away from the top of the receiving channel than the end closer to the operating side 101; the bottom of the drawer 400 has a second inclined surface 401, the second inclined surface 401 is parallel to the first inclined surface 102, and there is a preset gap between the top of the drawer 400 and the top of the receiving channel.
[0067] The height of the preset gap in the vertical direction can be equal to or greater than the vertical height between the end of the second inclined surface 401 away from the operating side 101 and the end near the operating side 101, so that the drawer 400 can be moved out from the receiving channel.
[0068] The cooperation between the first inclined surface 102 and the second inclined surface 401 allows the drawer 400 to slide into the receiving channel under its own weight, or it can slide into the receiving channel with only a small amount of external force.
[0069] Continue to refer to Figure 1 , Figure 3 and Figure 5 In some embodiments, the bottom of the drawer 400 is provided with an air vent 402, and the cabinet 100 is provided with a return air duct 103 (e.g., Figure 5 As shown in the figure, the air outlet 402 is connected to the return air duct 103; the drying device also has a return air inlet, which is connected to the return air duct 103.
[0070] The projection of the air vent 402 on the horizontal plane can be circular, elliptical, etc. There can be multiple air vents 402, and multiple air vents 402 are arranged in an array at the bottom of the drawer 400. There can be multiple return air ducts 103, and multiple return air ducts 103 are arranged at intervals along a direction perpendicular to the operating side 101. Multiple air vents 402 that are equidistant from the operating side 101 are connected to a corresponding return air duct 103.
[0071] The hot and humid air in the drawer 400 enters the return air duct 103 through the air outlet 402, and then enters the air duct of the drying device through the return air duct 103. The drying device converts the hot and humid air into hot and dry air. The hot and dry air enters the air outlet 200 through the air outlet and hollow rod 300, and is blown into the inside of the shoe from the air outlet end of the air outlet 200. This cycle continues until the inside of the shoe is completely dried.
[0072] Continue to refer to Figure 1 as well as Figure 3-5 The drawer 400 is provided with a sealing plate 403 on its exterior. The sealing plate 403 is used to cover the operating side 101 when the drawer 400 is housed in the receiving channel, so as to close the receiving channel.
[0073] The sealing plate 403 can improve the sealing of the accommodating channel to prevent air from flowing out of the cabinet 100, thereby improving the utilization rate of hot drying air and speeding up the drying of shoes.
[0074] Furthermore, the top of the sealing plate 403 is provided with a groove 404 for the user's fingers to insert. When it is necessary to open the drawer 400, the user inserts their fingers into the groove 404 and pulls the sealing plate 403 outward, so that the drawer 400 slides outward toward the receiving channel, making it easier for the user to open the drawer 400.
[0075] Continue to refer to Figure 5 The cross-sectional area of the groove 404 can be increased from the bottom of the groove to the opening of the groove 404 to facilitate the insertion of the user's fingers.
[0076] In summary, the intelligent shoe cabinet of this embodiment includes a cabinet body 100, an air outlet duct 200, and a drying device. The cabinet body 100 has an operating side 101, which is oriented towards the user. An accommodating channel extending into the cabinet body 100 is provided on the operating side 101 for placing shoes. The air outlet duct 200 is disposed within the accommodating channel, with one end connected to the air outlet of the drying device and the other end blowing air towards the inside of the shoes. Through this arrangement, the air inlet of the air outlet duct 200 is connected to the air outlet of the drying device, and the air outlet of the air outlet duct 200 is positioned close to the shoes and blows air towards the inside of the shoes, thereby improving the airflow inside the shoes and accelerating the drying process.
[0077] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of the present invention.
Claims
1. A smart shoe cabinet, characterized in that, include: The cabinet, air duct, and drying device are provided. The cabinet has an operating side that faces the user and has a receiving channel extending into the cabinet for placing shoes. The air outlet pipe is installed in the receiving channel. One end of the air outlet pipe is connected to the air outlet of the drying device, and the other end of the air outlet pipe is used to blow air towards the inside of the shoe. A hollow rod is provided at the top of the accommodating channel away from the operating side. The two ends of the hollow rod are connected to the inner wall of the cabinet. The axis of the hollow rod is parallel to the horizontal plane and parallel to the operating side. The hollow rod is connected to the air outlet of the drying device. One end of the air outlet pipe is connected to the outer wall of the hollow rod, and the axis of the air outlet pipe is perpendicular to the axis of the hollow rod, and the air outlet pipe is connected to the hollow rod; The smart shoe cabinet also includes a drawer, a drive unit, and a reset unit. The drawer slides within the receiving channel, and the sliding direction of the drawer is parallel to the extension direction of the receiving channel. The drawer is used to place shoes. The hollow rod is rotatably connected to the inner wall of the cabinet. When the drawer is moved out of the receiving channel, the projections of the hollow rod and the air outlet pipe on the operating side are both located above the drawer. The driving component is mounted on the hollow rod, and the drawer is also used to drive the driving component to rotate relative to the axis of the hollow rod in a preset direction, so that the projection of the air outlet pipe on the operating side is located inside the drawer, and the axis of the air outlet pipe is inclined relative to the vertical direction. The reset component is disposed between the drive component and the inner wall of the cabinet. The reset component is used to drive the drive component to rotate in the opposite direction of the axis of the hollow rod relative to the axis of the drive component when the drawer is separated from the drive component, so that the projection of the air outlet pipe on the operating side is above the drawer.
2. The intelligent shoe cabinet according to claim 1, characterized in that, The driving component includes an external gear, which is sleeved on the hollow rod.
3. The intelligent shoe cabinet according to claim 1, characterized in that, The reset component includes a reset spring, which is sleeved on the hollow rod. One end of the reset spring is connected to the inner wall of the cabinet, and the other end of the reset spring is connected to the drive component.
4. The intelligent shoe cabinet according to claim 1, characterized in that, The bottom of the receiving channel has a first slope, and the end of the first slope away from the operating side is further away from the top of the receiving channel than the end closer to the operating side. The bottom of the drawer has a second inclined surface, which is parallel to the first inclined surface, and there is a preset gap between the top of the drawer and the top of the receiving channel.
5. The intelligent shoe cabinet according to claim 1, characterized in that, The bottom of the drawer is provided with an air vent, and the cabinet body is provided with a return air duct, the air vent being connected to the return air duct; the drying device also has a return air inlet, the return air inlet being connected to the return air duct.
6. The intelligent shoe cabinet according to claim 1, characterized in that, The drawer is provided with a sealing plate on its exterior. The sealing plate is used to cover the operating side when the drawer is housed in the receiving channel, so as to close the receiving channel.
7. The intelligent shoe cabinet according to claim 6, characterized in that, The top of the sealing plate is provided with a groove for the user's fingers to insert.
8. The intelligent shoe cabinet according to claim 7, characterized in that, The cross-sectional area of the groove increases from the bottom of the groove to the opening of the groove.