CN216135427U - Intelligent sterilization shoe cabinet - Google Patents

Abstract

The application relates to an intelligent sterilization shoe cabinet, which comprises an outer cabinet body provided with a sterilization module, wherein the outer cabinet body comprises a sterilization area and a shoe inlet area, the shoe inlet area is provided with a shoe inlet, a shoe rack slides in the outer cabinet body, a driving module used for driving the shoe rack to reciprocate between the sterilization area and the shoe inlet area is arranged between the outer cabinet body and the shoe rack, and the driving module is electrically connected with a control module. When taking off the shoes, the shoes can be directly taken off in the shoe inlet area by feet, the control module controls the driving module to drive the shoe rack to move to the disinfection area, and the shoes are disinfected in the disinfection area. The control module controls the driving module to drive the shoe rack to move to the shoe inlet area. When a user wants to wear the shoes, the user can directly pull out the shoes on the shoe rack by feet to wear the shoes. In the process, the skin of the user can not contact the disinfection range of the disinfection module which is disinfecting, so that the probability of harm to the human body caused by the disinfection module is reduced. And the disinfection area is arranged in a closed manner, so that the disinfection light of the disinfection module is not easy to scatter outwards, and the disinfection of the shoes is better focused.

Description

Intelligent sterilization shoe cabinet

Technical Field

The application relates to the field of disinfection and sterilization, in particular to an intelligent disinfection shoe cabinet.

Background

At present, shoes are generally disinfected by installing an ultraviolet disinfection part in a shoe cabinet, and when the shoe cabinet is used, the shoes are manually put into the shoe cabinet and then manually taken out after the disinfection is finished. In the process, the skin of the user is frequently exposed in the disinfection range of the disinfection component, and the user has certain harm to the human body.

In view of the above-mentioned related art, the utility model has considered that the following drawbacks exist: when the shoes are disinfected, the skin of a user is frequently exposed in the disinfection range of the disinfection component, and the user has certain harm to the human body.

SUMMERY OF THE UTILITY MODEL

In order to reduce when using degerming shoe cabinet, disinfection module is to human influence, the application provides an intelligence degerming shoe cabinet adopts following technical scheme:

an intelligent sterilization shoe cabinet comprises an outer cabinet body provided with a sterilization module, wherein the outer cabinet body comprises a sterilization area and a shoe inlet area, the shoe inlet area is provided with a shoe inlet, the sterilization area is arranged in a closed mode and is communicated with the shoe inlet area, a shoe rack is arranged in the outer cabinet body in a sliding mode, a driving module used for driving the shoe rack to do reciprocating motion between the sterilization area and the shoe inlet area is arranged between the outer cabinet body and the shoe rack, and the driving module is electrically connected with a control module used for controlling the start and stop of the driving module; when the shoe rack moves to the disinfection area, the shoe rack seals a communication port between the disinfection area and the shoe inlet area, and the disinfection area is arranged in a totally-enclosed manner.

By adopting the technical scheme, the shoes can be directly taken off in the shoe inlet area by feet when the shoes are taken off, the shoes can be manually placed in the shoe inlet area after the shoes are taken off, the control module controls the driving module to drive the shoe rack to move to the disinfection area, and the shoes are disinfected in the disinfection area. The control module controls the driving module to drive the shoe rack to move to the shoe inlet area. When a user wants to wear the shoes, the user can directly pull out the shoes on the shoe rack by feet to wear the shoes. In the process, the disinfection is carried out in the closed disinfection area, the skin of a user can not contact the disinfection range of the disinfection module which is being disinfected, and the probability of harm of the disinfection module to the human body is reduced. And the disinfection area is arranged in a closed manner, so that the disinfection light of the disinfection module is not easy to scatter outwards, and the disinfection of the shoes is better focused.

Meanwhile, the defect that a user needs to frequently bend down to manually take the shoes when the shoes are disinfected is overcome. The use experience is improved.

Preferably, the control module comprises

The first detection circuit is arranged in the shoe rack and is used for detecting whether shoes are put into the shoe rack or not;

the clock module is electrically connected with the control circuit;

the control circuit is electrically connected with the first detection circuit, the clock module and the disinfection module, and is used for receiving a signal transmitted by the first detection circuit when the first detection circuit detects that the shoe rack enters the shoe, and judging whether the clock module reaches preset time or not after receiving the signal, if the preset time is reached, the control circuit controls the driving module to start, so that the driving module conveys the shoe rack to the disinfection area for disinfection, and then conveys the shoe rack to the shoe entering area.

Through adopting above-mentioned technical scheme, shoes are after putting into the shoe rack, and first detection circuitry detects shoes, with signal transmission to control circuit. The control circuit judges whether the clock module reaches the preset time after receiving the signal. When the clock module reaches the preset time, the control circuit controls the driving module to start, so that the driving module conveys the shoe rack to the disinfection area for disinfection and then conveys the shoe rack to the shoe inlet area. Thereby smoothly finishing the whole disinfection process and enabling the whole disinfection process to be more automatic. Meanwhile, the error disinfection caused by the short-time error putting of the shoes into the shoe rack can be reduced. And this setting can let the user leave the back again and disinfect to shoes, has reduced the probability that disinfection module produced the injury to the human body.

Preferably, a second detection circuit is arranged in the outer cabinet body and used for detecting whether the shoe rack exists in the disinfection area or not, the second detection circuit is electrically connected to the control circuit, the control circuit is used for controlling the disinfection module to be started when the second detection circuit detects that the shoe rack exists in the disinfection area, and the disinfection module is controlled to be closed when the second detection circuit detects that the shoe rack does not exist in the disinfection area.

By adopting the technical scheme, the disinfection module is started after the shoes enter the disinfection area, and energy is saved. Meanwhile, the shoes are sterilized after the user leaves, and the probability of harm to the human body by the sterilization module is reduced.

Preferably, the sterile zone is located above the shoe entry zone.

Through adopting above-mentioned technical scheme, prevent that the wrong will be handed over and put into the disinfection district when the user wears shoes, reduced the probability that disinfection module produced the injury to the human body.

Preferably, the second detection circuit comprises a lifting top limit switch arranged at the top end of the disinfection area and a lifting bottom limit switch arranged at the bottom end of the shoe inlet area, the lifting top limit switch is used for detecting whether the shoe rack moves to the uppermost end of the disinfection area, and the lifting bottom limit switch is used for detecting whether the shoe rack moves to the lowermost end of the shoe inlet area; when the shoe rack moves to the uppermost end of the disinfection area, the disinfection module is started, and when the shoe rack moves to the bottommost end of the shoe entering area, the disinfection module is stopped.

By adopting the technical scheme, when the lifting top end limit switch detects the shoe rack, the shoe rack is explained to move to the uppermost end of the disinfection area, and the disinfection module can be started at the moment. When the lifting bottom limit switch detects the shoe rack, the shoe rack is indicated to move to the bottommost end of the shoe entering area, and the disinfection module can be closed at the moment to ensure that the disinfection time is enough.

Preferably, the outer cabinet body further comprises a storage area, the storage area is located above the disinfection area, and the storage area is provided with an inlet.

Through adopting above-mentioned technical scheme, to disinfecting, but the shoes that need not wear temporarily can be put into earlier and store in the storing district, make full use of the space.

Preferably, still include the degerming fan, degerming fan fixed mounting forms the degerming disinfection unit on disinfection module, the degerming disinfection unit is installed in disinfection district inner wall, the degerming fan communicates with the external world of outer cabinet body.

Through adopting above-mentioned technical scheme, thereby degerming fan is arranged in circulating the air in the outer cabinet body and reaches the effect that disinfects and remove the flavor.

Preferably, the driving module comprises a rotating shaft rotatably connected to the outer shoe cabinet, a pull rope wound on the rotating shaft, and a driving member for driving the rotating shaft to rotate, and one end of the pull rope is fixedly connected to the shoe rack.

Through adopting above-mentioned technical scheme, rotate through driving piece drive pivot to the realization is to the rolling of stay cord and unreel, and then drives the shoe rack and moves along vertical direction, makes the stable motion between shoes district and disinfection district of advancing of shoe rack.

Preferably, a sliding rail is arranged in the outer cabinet body along the vertical direction, and a sliding block connected to the sliding rail in a sliding manner is arranged on the outer wall of the shoe rack.

Through adopting above-mentioned technical scheme, the cooperation of slide rail and slider can play the spacing effect of direction, makes the shoe rack can be more stable move along vertical direction.

Preferably, the slide rail is provided with two slide rails which are respectively positioned at two sides of the shoe rack, the rotating shaft is wound with two pull ropes which are respectively positioned at two ends of the rotating shaft, and the two pull ropes are respectively fixedly connected at two sides of the shoe rack.

By adopting the technical scheme, the two ends of the shoe rack are stressed when the shoe rack is driven, so that the shoe rack can move along the vertical direction more stably.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the probability of harm to human bodies caused by the disinfection module is reduced;

2. the disinfection effect is better;

3. the sterilization is automatic, so that the operation is more convenient.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

FIG. 2 is a schematic structural diagram of the embodiment with the baffle hidden.

Fig. 3 is a sectional view of the embodiment.

FIG. 4 is a perspective view of the embodiment in section,

Fig. 5 is an enlarged view at a in fig. 4.

FIG. 6 is a schematic diagram of a control module in an embodiment.

Description of reference numerals: 1. an outer cabinet body; 2. a partition plate; 3. a reservoir region; 4. a sterile area; 5. a shoe entering area; 6. a working area; 7. a baffle plate; 8. a sterilization and disinfection unit; 9. a shoe rack; 10. a drive module; 11. a sterilization module; 12. a sterilizing fan; 13. a rotating shaft; 14. pulling a rope; 15. a drive member; 16. a motor; 17. a pulley; 18. a belt; 19. a slide rail; 20. a slider; 21. an AC/DC circuit; 22. a control circuit; 23. an LDO circuit; 24. a power supply circuit; 25. a first detection circuit; 26. a clock module; 27. a second detection circuit; 28. a lifting top limit switch; 29. a lifting bottom limit switch; 30. and (4) a manual switch.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses intelligence degerming shoe cabinet. Referring to fig. 1 and 2, an intelligent sterilization shoe cabinet comprises an outer cabinet body 1 with an opening at one side. Be equipped with baffle 2 along the horizontal direction in the outer cabinet body 1, baffle 2 separates into storing district 3 and workspace 6 with the 1 inner chamber of outer cabinet body. The outward opening of the storage area 3 forms an inlet opening. Working area 6 includes a sterile zone 4 and a shoe entry zone 5, with sterile zone 4 being located above shoe entry zone 5. The outward opening of the disinfection area 4 is provided with a baffle 7 for closing the opening, and the baffle 7 is fixedly connected with the outer cabinet body 1. The outward opening of the shoe entrance area 5 forms a shoe entrance.

Referring to fig. 2, a sterilization unit 8 is installed at a sidewall of the sterilization zone 4. The working area 6 is connected with a shoe rack 9 in a sliding way along the vertical direction, and the shoe rack 9 is used for placing shoes. A driving module 10 is arranged between the outer cabinet body 1 and the shoe rack 9. The driving module 10 can drive the shoe rack 9 to reciprocate between the shoe inlet area 5 and the disinfection area 4.

When the shoe rack is used, shoes to be disinfected are put on the shoe rack 9 through the shoe inlet, and the driving module 10 drives the shoe rack 9 to move to the disinfection area 4. At this time, the shoe rack 9 seals the communication channel between the disinfection area 4 and the shoe inlet area 5, so that the disinfection area 4 is in a totally-enclosed arrangement. The sterilization and disinfection unit 8 is started to sterilize and disinfect the shoes on the shoe rack 9. After the sterilization is finished, the sterilization and disinfection unit 8 is closed, and the driving module 10 drives the shoe rack 9 to move to the shoe entering area 5. The user can now choose to wear shoes or to place sterilized shoes in the storage area 3. In the process, the skin of the user can not contact the disinfection range of the disinfection unit 8 which is disinfecting, so that the probability of harm of the disinfection unit 8 to the human body is reduced.

Specifically, referring to FIGS. 2 and 3, the sterilizing unit 8 includes a sterilizing module 11 and a sterilizing fan 12. The sterilization module 11 may be UVC, UVA. The disinfection area 4 is sealed, so that the light of the disinfection module 11 is better concentrated on the disinfection of the shoes, the disinfection efficiency is improved, and the influence on the human body caused by the light overflow of the disinfection module 11 is reduced. The degerming fan 12 is installed in the outer cabinet 1 and communicates the inner cavity and the outside of the outer cabinet 1. The sterilization module 11 is fixedly installed at the inward side of the sterilization fan 12. The sterilizing fan 12 is used for circulating the air in the shoe cabinet so as to achieve sterilization and deodorization. And degerming fan 12 can help the air in the outer cabinet body 1 to flow to disinfection module 11, makes disinfection module 11 better play the effect that the degerming removed the flavor.

Referring to fig. 3 and 4, the driving module 10 includes a rotating shaft 13, a pulling rope 14 wound around the rotating shaft 13, and a driving member 15 for driving the rotating shaft 13 to rotate. The rotating shaft 13 is arranged along the length direction of the working area 6 and is positioned at the upper end of the working area 6. Both ends of the rotating shaft 13 are rotatably connected to the outer cabinet body 1. Two pull ropes 14 are arranged and are respectively positioned at two ends of the rotating shaft 13. The lower ends of the two pull ropes 14 are respectively and fixedly connected with the two sides of the shoe rack 9. The drive member 15 includes a motor 16, a belt 18 and a pulley 17. The motor 16 body is fixedly arranged on the outer cabinet body 1, two belt wheels 17 are arranged, and one belt wheel 17 is coaxially and fixedly connected to the rotating shaft 13. And the other pulley 17 is coaxially and fixedly connected to the output shaft of the motor 16. The belt 18 is sleeved outside the two belt wheels 17 and tensioned by the belt wheels 17, and the belt 18 is used for enabling the two belt wheels 17 to synchronously rotate.

When the driving module 10 works, the motor 16 drives one of the belt wheels 17 to rotate, and the other belt wheel 17 rotates under the transmission of the belt 18. Thereby rotating the rotary shaft 13. When the shoe rack is rotated, the pull rope 14 can be wound or unwound, so that the shoe rack 9 is driven to move along the vertical direction. The shoe rack 9 is moved between the shoe inlet area 5 and the disinfection area 4.

Referring to fig. 4 and 5, in order to make the shoe rack 9 more stable in movement, a sliding rail 19 is arranged in the outer cabinet 1 along the vertical direction, the lower end of the sliding rail 19 is fixedly connected to the bottom surface of the inner cavity of the outer cabinet 1, and the upper end of the sliding rail 19 is fixedly connected to the bottom surface of the partition board 2. Two slide rails 19 are arranged and are respectively positioned at two sides of the shoe rack 9. The outer wall of the shoe rack 9 is provided with a slide block 20 corresponding to the slide rail 19. The sliding block 20 is provided with a sliding groove along the vertical direction. The slide rail 19 is embedded in the slide groove and the slide block 20 is slidably connected to the slide rail 19. The shoe rack 9 can move along the vertical direction more stably by the limit force matched between the slide rail 19 and the slide block 20.

In order to improve the use feeling of the shoe cabinet, the outer cabinet body 1 is also provided with a control module. Referring to fig. 6, the control module includes a power supply circuit 24, a first detection circuit 25, a clock module 26, a control circuit 22, and a second detection circuit 27.

After the first detection circuit 25 detects that there is a shoe in the shoe cabinet, if the clock module 26 reaches the preset time again, the control circuit 22 controls the driving module 10 to drive the shoe rack 9 to move into the disinfection area 4. The second detection circuit 27 detects that the shoe rack 9 is arranged in the disinfection area 4, the control circuit 22 controls the disinfection unit 8 to disinfect and disinfect shoes, after a period of disinfection, the driving module 10 drives the shoe rack 9 to move to the shoe inlet area 5, and the disinfection unit 8 is closed, so that the whole disinfection process is completed. The whole process does not need manual interference, so that the shoe cabinet has better intelligence. Simultaneously, this setting can let the user leave the back again and disinfect the shoes, has reduced the probability that disinfection module 11 produced the injury to the human body.

Referring to fig. 6, in particular, power supply circuit 24 includes AC/DC circuit 21 and LDO circuit 23. The AC power supply outputs 24V DC power to the subsequent circuits (such as the motor 16, the disinfection module 11, etc.) via the AC/DC circuit 21, and the 24V DC power is converted into 5V via the LDO circuit 23 to power the control circuit 22, the first detection circuit 25, the second detection circuit 27, and the clock module 26.

Referring to fig. 4 and 6, the first detection circuit 25 is an infrared control switch, and the infrared control switch includes an infrared emitting head and an infrared receiving head, and is used for detecting whether shoes are put into the shoe rack 9. The infrared transmitting head and the infrared receiving head are respectively arranged on the inner walls of the two sides of the shoe rack 9. If the infrared receiving head can receive the infrared rays emitted by the infrared emitting head, no shoes are in the shoe rack 9. If the infrared receiving head can not receive the infrared rays emitted by the infrared emitting head, the infrared rays emitted by the infrared emitting head are blocked, and shoes are put into the shoe rack 9. Referring to fig. 6, the first detection circuit 25 is electrically connected to the control circuit 22, and when the first detection circuit 25 detects that a shoe is placed in the shoe rack 9, the first detection circuit 25 transmits a signal to the control circuit 22.

Referring to fig. 1, a clock module 26 is mounted on the outer cabinet 1 for displaying time. The time of the clock module 26 needs to be synchronized with the time of Beijing, and the product needs to be calibrated before use. Referring to fig. 6, the clock module 26 is electrically connected to the control circuit 22. The control circuit 22 is electrically connected to the motor 16 and the sterilisation and disinfection unit 8.

The control circuit 22 receives the signal transmitted by the first detection circuit 25 and determines whether the clock module 26 reaches a predetermined time. When the clock module 26 reaches a predetermined time, the control circuit 22 outputs a signal to the motor 16 to cause the motor 16 to start. And then the shoe rack 9 is driven to move from the shoe inlet area 5 to the disinfection area 4, and after staying for a period of time, the shoe rack moves from the disinfection area 4 to the shoe inlet area 5.

Referring to fig. 4 and 6, the second detection circuit 27 includes a lift top limit switch 28 and a lift bottom limit switch 29. The lifting top limit switch 28 is installed at the top end of the disinfection area 4 and used for detecting whether the shoe rack 9 moves to the uppermost end of the disinfection area 4. The lifting bottom limit switch 29 is installed at the bottom end of the shoe entering area 5 and used for detecting whether the shoe rack 9 moves to the bottom end of the shoe entering area 5. The lift top limit switch 28 and the lift bottom limit switch 29 are electrically connected to the control circuit 22.

When the driving module 10 drives the shoe rack 9 to move to the uppermost end of the disinfection area 4, the lifting top limit switch 28 detects the shoe rack 9 and transmits a signal to the control circuit 22. The control circuit 22 controls the sterilization and disinfection unit 8 to start to disinfect the shoes after receiving the signal of the lifting top limit switch 28. After a certain time of disinfection, the motor 16 rotates reversely, and the driving module 10 drives the shoe rack 9 to move downwards until the shoe rack 9 moves to the bottom end of the shoe entering area 5. The lifting bottom limit switch 29 detects the shoe rack 9 and transmits a signal to the control circuit 22. The control circuit 22 controls the sterilization and disinfection unit 8 to be closed after receiving the signal of the lifting bottom limit switch 29. Thereby completing one sterilization.

Referring to fig. 6, in order to improve the shoe chest function, the control circuit 22 is also electrically connected with a manual switch 30. If manual sterilization and deodorization are needed, the manual switch 30 is directly operated to carry out sterilization and deodorization.

The implementation principle of this application embodiment intelligence degerming shoe cabinet does:

1. when the shoe is not disinfected, the shoe rack 9 is positioned in the shoe inlet area 5, and when the shoes need to be disinfected, the shoes can be put into the shoe rack 9;

2. when the first detection circuit 25 detects that a shoe is put into the shoe rack 9, the control circuit 22 starts to judge whether the preset time of the clock module 26 is up, and if the preset time is up, the control circuit 22 outputs a signal to the motor 16, and controls the driving module 10 to drive the shoe rack 9 to move vertically upwards;

3. when the driving module 10 drives the shoe rack 9 to move to the uppermost end of the disinfection area 4, the lifting top limit switch 28 detects the shoe rack 9 and transmits a signal to the control circuit 22, and the control circuit 22 controls the degerming and disinfection unit 8 to be started;

4. after a certain time of disinfection, the motor 16 rotates reversely, and the driving module 10 drives the shoe rack 9 to move downwards until the shoe rack 9 moves to the bottom end of the shoe entering area 5;

5. the lifting bottom limit switch 29 detects the shoe rack 9 and transmits a signal to the control circuit 22, and the control circuit 22 controls the sterilization and disinfection unit 8 to be closed, so that primary disinfection is completed;

6. the sterilized shoes can be worn directly or can be manually taken into the storage area 3 for storage.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an intelligence degerming shoe cabinet, is including installing outer cabinet body (1) of disinfection module (11), its characterized in that: the shoe cabinet is characterized in that the outer cabinet body (1) comprises a disinfection area (4) and a shoe inlet area (5), the shoe inlet area (5) is provided with a shoe inlet, the disinfection area (4) is arranged in a closed manner and communicated with the shoe inlet area (5), a shoe rack (9) is arranged in the outer cabinet body (1) in a sliding manner, a driving module (10) used for driving the shoe rack (9) to do reciprocating motion between the disinfection area (4) and the shoe inlet area (5) is arranged between the outer cabinet body (1) and the shoe rack (9), and the driving module (10) is electrically connected with a control module used for controlling the start and stop of the driving module; when the shoe rack (9) moves to the disinfection area (4), the shoe rack (9) seals a communication opening between the disinfection area (4) and the shoe inlet area (5), and the disinfection area (4) is arranged in a fully closed manner.

2. The intelligent sterilization shoe cabinet as claimed in claim 1, wherein: the control module comprises a first detection circuit (25), the first detection circuit (25) is installed in the shoe rack (9), and the first detection circuit (25) is used for detecting whether shoes are put into the shoe rack (9) or not;

a clock module (26), the clock module (26) being electrically connected to the control circuit (22);

control circuit (22), control circuit (22) electricity is connected in first detection circuit (25), clock module (26) and disinfection module (11), control circuit (22) are used for receiving the signal that first detection circuit (25) transmitted when first detection circuit (25) detect shoe rack (9) advance shoes to judge simultaneously whether clock module (26) is to the scheduled time after receiving the signal, if arrive the scheduled time, control circuit (22) control drive module (10) start, make drive module (10) carry shoe rack (9) to disinfection district (4) and disinfect the back, carry shoe rack (9) to advance shoes district (5).

3. The intelligent sterilization shoe cabinet as claimed in claim 2, wherein: be equipped with second detection circuitry (27) in the outer cabinet body (1), second detection circuitry (27) are used for detecting whether disinfection district (4) have shoe rack (9), second detection circuitry (27) electricity is connected in control circuit (22), control circuit (22) are used for detecting when disinfection district (4) have shoe rack (9) second detection circuitry (27), control disinfection module (11) start, when second detection circuitry (27) detect disinfection district (4) do not have shoe rack (9), control disinfection module (11) close.

4. The intelligent sterilization shoe cabinet as claimed in claim 3, wherein: the disinfection area (4) is positioned above the shoe inlet area (5).

5. The intelligent sterilization shoe cabinet as claimed in claim 4, wherein: the second detection circuit (27) comprises a lifting top end limit switch (28) installed at the top end of the disinfection area (4) and a lifting bottom end limit switch (29) installed at the bottom end of the shoe inlet area (5), the lifting top end limit switch (28) is used for detecting whether the shoe rack (9) moves to the uppermost end of the disinfection area (4), and the lifting bottom end limit switch (29) is used for detecting whether the shoe rack (9) moves to the lowermost end of the shoe inlet area (5); when the shoe rack (9) moves to the uppermost end of the disinfection area (4), the disinfection module (11) is started, and when the shoe rack (9) moves to the lowermost end of the shoe entering area (5), the disinfection module (11) is stopped.

6. The intelligent sterilization shoe cabinet as claimed in claim 4, wherein: the outer cabinet body (1) further comprises a storage area (3), the storage area (3) is located above the disinfection area (4), and an object inlet is formed in the storage area (3).

7. The intelligent sterilization shoe cabinet as claimed in claim 1, wherein: still include degerming fan (12), degerming fan (12) fixed mounting forms degerming disinfection unit (8) on disinfection module (11), degerming disinfection unit (8) are installed in disinfection district (4) inner wall, degerming fan (12) and external intercommunication of outer cabinet body (1).

8. The intelligent sterilization shoe cabinet as claimed in claim 4, wherein: the driving module (10) comprises a rotating shaft (13) rotatably connected with the outer shoe cabinet, a pull rope (14) wound on the rotating shaft (13) and a driving piece (15) used for driving the rotating shaft (13) to rotate, and one end of the pull rope (14) is fixedly connected with the shoe rack (9).

9. The intelligent sterilization shoe cabinet as claimed in claim 8, wherein: the wardrobe is characterized in that a sliding rail (19) is arranged in the outer wardrobe body (1) along the vertical direction, and a sliding block (20) connected with the sliding rail (19) in a sliding manner is arranged on the outer wall of the shoe rack (9).

10. The intelligent sterilization shoe cabinet as claimed in claim 9, wherein: the two sliding rails (19) are arranged and are respectively positioned on two sides of the shoe rack (9), the rotating shaft (13) is wound with two pull ropes (14), the two pull ropes (14) are respectively positioned at two ends of the rotating shaft (13), and the two pull ropes (14) are respectively fixedly connected to two sides of the shoe rack (9).

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