CN111186636A - Shoe box and control method and control system thereof - Google Patents

Abstract

A shoe box and a control method and a control system thereof are provided, wherein the shoe box comprises a box body enclosed by at least six panels, at least one panel is made of transparent material, and a shoe box cavity for storing shoes is arranged in the box body; the top of the shoe box cavity is provided with a lamp strip for illumination, a spotlight for enhancing the shoe display effect and an imaging sensor for scanning shoes, the emergent light of the spotlight forms an included angle of 20-70 degrees with the top panel, the area for placing the shoes in the shoe box cavity is provided with a pressure sensor for detecting the shoes, and the box cavity is also provided with a negative ion sterilization and deodorization device. The shoe box, the control method and the control system thereof enable the shoe box to have the functions of deodorization and disinfection, so that the shoes which penetrate through the shoe box are prevented from going moldy and breeding bacteria to harm the health of feet of a human body, the unhealthy probability that the feet of the human body are infected with dermatophytosis and the like due to the breeding bacteria in the shoes is reduced, and the light of the shoe box not only can be used for illumination, but also can be intensively irradiated on the shoes, so that the shoes have better display effect.

Description

Shoe box and control method and control system thereof

Technical Field

The invention relates to the field of shoe cabinets, in particular to a shoe box and a control method and a control system thereof.

Background

The traditional shoe cabinet, namely the shoe cabinet which is most commonly used in the home at present, is mainly used for realizing the storage function of shoes, generally has no function of sterilizing and deodorizing the shoes, so that the shoes are stored in the shoe boxes to easily breed bacteria for users who often sweat feet, and the shoes which breed the bacteria are often worn, so that the beriberi is easily infected, and the health of people is greatly influenced.

In addition, the shoe cabinet for displaying various styles of shoes in a market has the problems that the shoes are not sealed and stored, dust is easily polluted and the like, and the shoes need to be cleaned frequently, and the shoe cabinet lacks a special lamp for intensively illuminating light on the shoes, so that the attractiveness of the shoes cannot be better displayed.

Disclosure of Invention

The invention provides a shoe box for solving the problems in the prior art, and aims to solve the problems that an existing shoe cabinet only has a single storage function and cannot achieve deodorization, sterilization and the like.

In order to achieve the purpose, the invention provides a shoe box, which comprises a box body formed by encircling at least six panels, wherein at least one panel is made of transparent materials, and a shoe box cavity for storing shoes is arranged in the box body; the shoe box comprises a shoe box cavity, a lamp strip, a spotlight and an imaging sensor, wherein the lamp strip is used for illuminating, the spotlight is used for enhancing the shoe display effect, the imaging sensor is used for scanning shoes, an included angle formed by emergent light rays of the spotlight and a top panel is 20-70 degrees, a pressure sensor used for detecting shoes is arranged in a region for placing the shoes in the shoe box cavity, a negative ion sterilization and deodorization device and a microcontroller which is respectively and electrically connected with the negative ion sterilization and deodorization device, the spotlight, the lamp strip, the imaging sensor and the pressure sensor are also arranged in the box body cavity; the front panel of the box body is a box cover capable of opening the cavity of the shoe box, a box cover switch which is opened or closed along with the front panel is arranged on the front panel, and the box cover switch is electrically connected with the microcontroller.

As a further preferable technical scheme, the distance between the lamp panel of the spot lamp and the edge of the cavity opening of the shoe box cavity is one tenth of the length of the top panel, the lamp panel is fixedly arranged on the inner side of the top panel through a support at an inclination angle of 20-70 degrees, and the lamp panel is covered with a lampshade so that the light of the spot lamp can irradiate the shoe box cavity through the lampshade.

As a further preferable technical scheme of the invention, a light bar groove for placing a light bar is further arranged on the inner side of the top panel, a light bar cover for covering the light bar groove is clamped on the light bar groove, one end of the light bar cover is connected with the edge of the lamp panel, and the other end of the light bar cover extends into the functional cavity.

As a further preferable technical scheme of the invention, the back panel of the box body is a double-layer structure with a built-in functional cavity, the functional cavity and the shoe box cavity are mutually communicated through a volatilization groove arranged on the inner side of the back panel, the negative ion sterilization and deodorization device and the microcontroller are arranged in the functional cavity, and the negative ion sterilization and deodorization device comprises one or more combinations of a negative ion production module, an ozone production module and a deodorant module.

As a further preferable technical scheme of the invention, an outer wall switch which is electrically connected with the microcontroller and can be linked with the box cover switch is also arranged outside any panel of the box body, and the outer wall switch and the box cover switch are both bidirectional switches.

According to another aspect of the present invention, there is also provided a control method including any one of the above-described shoe boxes, the method including the steps of:

s1, when the box cover switch is turned on, the lamp strip is turned on to illuminate, otherwise, the lamp strip is turned off;

s2, in the state that the lamp strip is lighted, the pressure sensor detects the pressure of the shoe placement area, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether shoes are placed in the shoe box cavity or not;

s3, when shoes are placed in the shoe box cavity, the imaging sensor is started to scan the shoes in the shoe box cavity, otherwise, the step S2 is executed;

s4, the microcontroller matches the scanned imaging result with the pre-stored shoe image information, when the similarity between the imaging result and the pre-stored shoe image information is larger than a set threshold value, the negative ion sterilization and deodorization device and the spot light are started, the self-locking state is maintained, and the operation is kept, otherwise, the operation of the negative ion sterilization and deodorization device and the spot light is stopped.

As a further preferable technical solution of the present invention, the set threshold of the similarity is 80%, and when the similarity between the imaging result and the pre-stored shoe image information is greater than 80%, the negative ion sterilization and deodorization device starts the sterilization and deodorization function and turns on the spot light at the same time.

As a further preferred embodiment of the present invention, the method further comprises the steps of:

anion deodorizing device and shot-light disinfect under the auto-lock running state, pressure sensor places the region to shoes and carries out pressure detection, and microcontroller carries out the comparison with predetermined initial pressure value according to current detected value to judge whether shoes have been placed in the shoes box cavity, placed shoes when shoes box cavity, then anion deodorizing device and shot-light that disinfect keep running, otherwise, the anion deodorizing device and the shot-light that stops to operate.

As a further preferred embodiment of the present invention, the method further comprises the steps of:

in the operation process of the anion sterilization and deodorization device, when the microcontroller receives the switch signal of the outer wall switch and the spotlight is in an on state, the spotlight is turned off, and when the microcontroller receives the switch signal of the outer wall switch and the spotlight is in an off state, the spotlight is turned on.

According to another aspect of the present invention, there is also provided a control system of a shoe box, the system including:

the lighting module is used for turning on the lamp strip for lighting when the box cover switch is turned on, and otherwise, turning off the lamp strip;

the comparison module is used for detecting the pressure of the shoe placement area by the pressure sensor under the lighting state of the lamp strip, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether shoes are placed in the shoe box cavity or not;

the scanning module is used for starting the imaging sensor to scan the shoes in the shoe box cavity when the shoes are placed in the shoe box cavity, and otherwise, returning to the execution comparison module;

and the control module is used for matching the scanned imaging result with pre-stored shoe image information by the microcontroller, when the similarity between the imaging result and the pre-stored shoe image information is greater than a set threshold value, the negative ion sterilization and deodorization device and the spot lamp are maintained in a self-locking state to keep running, and otherwise, the negative ion sterilization and deodorization device and the spot lamp are stopped running.

The shoe box of the invention can achieve the following beneficial effects:

the invention discloses a shoe box and a control method and a control system thereof, wherein the shoe box comprises a box body formed by encircling at least six panels, at least one panel is made of transparent materials, and a shoe box cavity for storing shoes is arranged in the box body; the shoe box comprises a shoe box cavity, a lamp strip, a spotlight and an imaging sensor, wherein the lamp strip is used for illuminating, the spotlight is used for enhancing the shoe display effect, the imaging sensor is used for scanning shoes, an included angle formed by emergent light rays of the spotlight and a top panel is 20-70 degrees, a pressure sensor used for detecting shoes is arranged in a region for placing the shoes in the shoe box cavity, a negative ion sterilization and deodorization device and a microcontroller which is respectively and electrically connected with the negative ion sterilization and deodorization device, the spotlight, the lamp strip, the imaging sensor and the pressure sensor are also arranged in the box body cavity; the shoe box comprises a box body, a front panel and a microcontroller, wherein the front panel of the box body is a box cover capable of opening a cavity of the shoe box, the front panel is provided with a box cover switch which is opened or closed along with the front panel, and the box cover switch is electrically connected with the microcontroller, so that the shoe box has a deodorization and disinfection function, shoes which penetrate through the shoe box are prevented from going moldy, and the breeding of bacteria is prevented from harming the health of feet of a human body, so that the unhealthy probability that the feet of the human body are infected with dermatophytosis and the like due to the breeding of bacteria in the shoes is reduced.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of an example provided by the shoe box of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at detail A;

FIG. 3 is a method flowchart of a method of controlling the shoe box of the present invention;

fig. 4 is a block diagram of a control system of the shoe box of the present invention.

In the figure: 1. pressure sensor, 2, lid switch, 3, support, 4, lamp plate, 5, lamp shade, 6, lamp area lid, 7, imaging sensor, 8, lamp area, 9, lateral wall switch.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments. In the preferred embodiments, the terms "upper", "lower", "left", "right", "middle" and "a" are used for clarity of description only, and are not used to limit the scope of the invention, and the relative relationship between the terms and the terms is not changed or modified substantially without changing the technical content of the invention.

As shown in fig. 1 and 2, the shoe box includes a box body surrounded by at least six panels, which are a front panel, a back panel, a top panel, a bottom panel, and a left side panel and a right side panel, respectively, and at least one of the panels is made of a transparent material, a shoe box cavity for storing shoes is arranged in the box body, and the shoes in the shoe box can be displayed through the panels made of the transparent material; the top of the shoe box cavity is provided with a lamp strip 8 for illumination, a spot lamp for enhancing the shoe display effect and an imaging sensor 7 for scanning shoes, the imaging sensor 7 is a miniature camera, the emergent light of the spotlight forms an included angle of 20-70 degrees with the top panel, the spotlight light with an inclination angle is adopted, can intensively irradiate light on the vamp, is favorable for enhancing the display effect, the area for placing shoes in the shoe box cavity is provided with a pressure sensor 1 for detecting shoes, the box cavity is also provided with an anion sterilization and deodorization device, and a microcontroller which is respectively and electrically connected with the anion sterilization and deodorization device, the spotlight, the lamp strip 8, the imaging sensor 7 and the pressure sensor 1, the pressure sensor 1 is used for detecting whether shoes are placed in the shoe box cavity or not so as to serve as a precondition for starting the negative ion sterilization and deodorization device and the spotlight; the front panel of box body is the lid that can open shoes box cavity, be equipped with the lid switch 2 that opens or close along with it on the front panel, lid switch 2 is connected with the microcontroller electricity, and lid switch 2 is along with the lid action, and convenient to use is dexterous, opens the lamp strip when conveniently opening the lid and throws light on, conveniently accesses shoes under the poor condition of lighting condition.

It should be noted that the shoe box of the invention is a box-type structure with a small structure, is convenient to carry and transport, adopts a folding mode and the like, and can be arranged and combined into a larger shoe cabinet body for placing larger shoes.

Preferably, be detachable connection structure between each panel of box body, detachable connection structure is buckle connection structure or hinge connection structure for can dismantle every panel earlier when the transportation, bind together, can reduce the transportation space like this, also can reduce simultaneously in the transportation every board and receive extrusion deformation.

In the concrete implementation, lamp plate 4 of shot-light is one tenth of top panel length apart from the accent edge of shoes box cavity, and lamp plate 4 is 20 to 70 fixed settings at the top panel inboard of angle of inclination through support 3, and lamp plate 4 upper shield is equipped with lamp shade 5 so that shot-light sees through lamp shade 5 and shines in the shoes box cavity. The top panel inboard still is equipped with the lamp strip groove that is used for placing lamp area 8, the joint has the lamp strip lid that is used for covering the lamp strip groove on the lamp strip groove, the one end and the 4 edges of lamp plate of lamp strip lid meet, and the other end extends to in the functional cavity.

In the concrete implementation, the back panel of box body is for having built-in bilayer structure who has the function cavity, switch on each other through setting up the groove that volatilizees in the back panel inboard between function cavity and the shoes box cavity, anion sterilization deodorizing device and microcontroller setting are in the function cavity, anion sterilization deodorizing device includes one or more combination in anion production module, ozone production module and the deodorant module.

The combination of the anion generating module, the ozone generating module and the deodorizer module is preferable, and of course, any one or two of the anion generating module, the ozone generating module and the deodorizer module can be used together, and the anion sterilizing and deodorizing device can be selected according to actual requirements.

The negative ion generating module is used for killing bacteria in the air in the closed cavity through negative ions. This anion produces the module including anion generator, anion generator is when producing a large amount of anions, ozone production module can produce trace ozone, then the anion is under powerful negative electric field effect, make the ozone of production rapidly to the diffusion of surrounding space, make anion and ozone in the airtight cavity more easily adsorb various viruses, the bacterium that shoes produced, make various viruses, the bacterium produces the change or the transfer of energy of structure, lead to its death, consequently, be favorable to the health of human foot.

The negative ion generation principle is as follows: the negative ion generator processes the input direct current or alternating current through the control circuit board processing circuit and the lightning stroke protection circuit, and then the direct current or alternating current is increased to alternating current through the pulse type circuit, the overvoltage current limiting circuit, the high-low voltage isolation circuit and the like of the control circuit boardThe high-corona discharge method comprises the following steps of pressing, obtaining pure direct-current negative high voltage after rectification and filtration, connecting the direct-current negative high voltage to a release tip made of metal or carbon elements, generating high corona by utilizing the direct-current high voltage of the tip, discharging a large amount of electrons (e-), wherein the electrons cannot exist in the air for a long time (the service life of the existing electrons is only nS level), and can be immediately absorbed by oxygen molecules (O) in the air₂) Trapping to generate air negative ions.

The deodorant module of the present invention is a solid or liquid having a deodorizing function such as activated carbon. The active carbon is a common air purification material, is mainly used for adsorbing trace toxic gas in the air, ammonia gas, benzene and the like, can adsorb peculiar smell of the worn shoes, is pollution-free, non-toxic and free of side effect, and is reliable; the active carbon has larger target compound adsorption space, so that the capacity of adsorbing organic gas is obviously increased; simultaneously has stronger capability of promoting oxidation reaction, and the activated carbon can convert H into H in the adsorption process₂S and oxygen are adsorbed on the surface of the catalyst, and oxidation occurs to generate more than 90% of H₂SO₄And a small amount of H₂SO₃And S, the method is safer and more reliable.

Preferably, the shoes box cavity is the leakproofness cavity, the side of opening of lid passes through magnet or buckle and box body sealing connection, adopts the leakproofness cavity to be better to shoes disinfection deodorization effect, also can prevent simultaneously that the debris outside the shoes box from entering into in the airtight cavity.

In the concrete implementation, the outside of any panel of box body still is equipped with the outer wall switch that links to each other and can link up with lid switch 2 with microcontroller electricity, outer wall switch is two-way switch with lid switch 2, can realize coordinated control through outer wall switch and lid switch 2, and under lid closed condition, anion deodorization device that disinfects moves, and the shot-light is in operating condition, and the shot-light is closed to accessible outer wall switch this moment to reach the purpose of power saving.

The shoe box has the functions of deodorization and disinfection, so that the shoes which pass through the shoe box are prevented from going moldy, the breeding of bacteria is prevented from harming the health of the feet of a human body, the unhealthy probability that the feet of the human body are infected with dermatophytosis and the like due to the breeding of the bacteria in the shoes is reduced, and the light not only can be used for lighting, but also can be intensively irradiated on the shoes, so that the shoe box has a better shoe display effect, and is simple in structure and convenient to use.

As shown in fig. 3, the present invention further provides a control method of a shoe box, which is used for intelligently turning on the lighting and sterilizing and deodorizing functions of the shoe box, and the method comprises the following steps:

step S1, when the box cover switch is turned on, the lamp strip is turned on for illumination, otherwise, the lamp strip is turned off;

in step S1, the box cover switch is opened or closed along with the box cover, when the user opens the box cover, the box cover switch is automatically opened due to the elastic force of the box cover switch, and simultaneously the lamp strip connected to the box cover switch is opened, when the user closes the box cover, the box cover switch is automatically closed under the action of the extrusion force, and at this time, the power supply of the lamp strip is cut off.

It should be noted here that the control modes of the light strip include the following two modes: the box cover switch can be directly connected with the lamp strip in series, so that the switch control of the lamp strip is realized; certainly, the box cover switch can also be indirectly controlled through micro-control, and the micro-controller controls the lamp strip connected with the box cover switch according to the received box cover switch control signal.

Step S2, in the state that the lamp strip is lighted, the pressure sensor carries out pressure detection on the shoe placement area, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether shoes are placed in the shoe box cavity or not;

in step S2, in the lighting state of the light strip, that is, in the state where the box cover is opened, the shoe can be put in or taken out, in this state, the pressure sensor detects pressure data in real time, when the detected value is greater than the preset initial pressure value, it is determined that the shoe is put in the cavity of the shoe box, otherwise, the shoe is taken out. The preset initial pressure value is the weight of the lightest shoe, and the digital fibrous root is actually used for setting the requirement, which is not illustrated here.

Step S3, when shoes are placed in the shoe box cavity, the imaging sensor is started to scan the shoes in the shoe box cavity, otherwise, the step S2 is executed;

since step S2 is a process of waiting for the shoe to be put in the state that the shoe box is opened, if the shoe is not detected in step S3, the process returns to continue to step S2 until the shoe is put in the cavity of the shoe box, and then the imaging sensor is activated to scan.

And step S4, the microcontroller matches the scanned imaging result with the pre-stored shoe image information, when the similarity between the imaging result and the pre-stored shoe image information is larger than a set threshold value, the negative ion sterilization and deodorization device and the spot light are started, the self-locking state is maintained, and the operation is kept, otherwise, the operation of the negative ion sterilization and deodorization device and the spot light is stopped.

In step S4, the set threshold of the similarity is 80%, that is, when the similarity between the imaging result and the pre-stored shoe image information is greater than 80%, the negative ion sterilization and deodorization device starts the sterilization and deodorization function and turns on the spotlight.

In a specific implementation, the method further comprises the following steps:

anion deodorizing device and shot-light disinfect under the auto-lock running state, pressure sensor places the region to shoes and carries out pressure detection, and microcontroller carries out the comparison with predetermined initial pressure value according to current detected value to judge whether shoes have been placed in the shoes box cavity, placed shoes when shoes box cavity, then anion deodorizing device and shot-light that disinfect keep running, otherwise, the anion deodorizing device and the shot-light that stops to operate.

Specifically, the method further comprises the following steps:

in the operation process of the anion sterilization and deodorization device, the spot lamp is turned off when the microcontroller receives the switch signal of the outer wall switch and the spot lamp is in an on state, and the spot lamp is turned on when the microcontroller receives the switch signal of the outer wall switch and the spot lamp is in an off state.

As shown in fig. 4, the present invention also provides a control system of a shoe box, the system including:

the lighting module 41 is used for turning on the lamp strip for lighting when the box cover switch is turned on, or turning off the lamp strip;

the comparison module 42 is used for detecting the pressure of the shoe placement area by the pressure sensor under the lighting state of the lamp strip, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether a shoe is placed in the shoe box cavity or not;

the scanning module 43 is used for starting the imaging sensor to scan the shoes in the shoe box cavity when the shoes are placed in the shoe box cavity, and otherwise, returning to the execution comparison module;

and the control module 44 is used for matching the scanned imaging result with the pre-stored shoe image information by the microcontroller, when the similarity between the imaging result and the pre-stored shoe image information is greater than a set threshold value, maintaining the self-locking state of the negative ion sterilization and deodorization device and the spot light, and otherwise, stopping running the negative ion sterilization and deodorization device and the spot light.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims (10)

1. A shoe box is characterized by comprising a box body formed by encircling at least six panels, wherein at least one panel is made of transparent materials, and a shoe box cavity used for storing shoes is arranged in the box body; the shoe box comprises a shoe box cavity, a lamp strip, a spotlight and an imaging sensor, wherein the lamp strip is used for illuminating, the spotlight is used for enhancing the shoe display effect, the imaging sensor is used for scanning shoes, an included angle formed by emergent light rays of the spotlight and a top panel is 20-70 degrees, a pressure sensor used for detecting shoes is arranged in a region for placing the shoes in the shoe box cavity, a negative ion sterilization and deodorization device and a microcontroller which is respectively and electrically connected with the negative ion sterilization and deodorization device, the spotlight, the lamp strip, the imaging sensor and the pressure sensor are also arranged in the box body cavity; the front panel of the box body is a box cover capable of opening the cavity of the shoe box, a box cover switch which is opened or closed along with the front panel is arranged on the front panel, and the box cover switch is electrically connected with the microcontroller.

2. The shoe box of claim 1, wherein the distance between the lamp panel of the spot lamp and the edge of the opening of the shoe box cavity is one tenth of the length of the top panel, the lamp panel is fixedly arranged on the inner side of the top panel through a bracket at an inclination angle of 20-70 degrees, and the lamp panel is covered with a lampshade so that the light of the spot lamp can irradiate the shoe box cavity through the lampshade.

3. The shoe box of claim 2, wherein a light bar groove for placing a light bar is further arranged on the inner side of the top panel, a light bar cover for covering the light bar groove is clamped on the light bar groove, one end of the light bar cover is connected with the edge of the lamp panel, and the other end of the light bar cover extends into the functional cavity.

4. The shoe box of claim 3, wherein the back panel of the box body is a double-layer structure with a built-in functional cavity, the functional cavity and the shoe box cavity are communicated with each other through a volatilization groove arranged at the inner side of the back panel, the anion sterilization and deodorization device and the microcontroller are arranged in the functional cavity, and the anion sterilization and deodorization device comprises one or more combinations of an anion production module, an ozone production module and a deodorant module.

5. The shoe box of any one of claims 1 to 4, wherein an outer wall switch electrically connected with the microcontroller and linked with the box cover switch is further arranged outside any one panel of the box body, and the outer wall switch and the box cover switch are both bidirectional switches.

6. A control method comprising the shoe box according to any one of claims 1 to 5, characterized by comprising the steps of:

s1, when the box cover switch is turned on, the lamp strip is turned on to illuminate, otherwise, the lamp strip is turned off;

s2, in the state that the lamp strip is lighted, the pressure sensor detects the pressure of the shoe placement area, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether shoes are placed in the shoe box cavity or not;

s3, when shoes are placed in the shoe box cavity, the imaging sensor is started to scan the shoes in the shoe box cavity, otherwise, the step S2 is executed;

s4, the microcontroller matches the scanned imaging result with the pre-stored shoe image information, when the similarity between the imaging result and the pre-stored shoe image information is larger than a set threshold value, the negative ion sterilization and deodorization device and the spot light are started, the self-locking state is maintained, and the operation is kept, otherwise, the operation of the negative ion sterilization and deodorization device and the spot light is stopped.

7. The control method according to claim 6, wherein in step S4, the set threshold of the similarity is 80%, and when the similarity between the imaging result and the pre-stored shoe image information is greater than 80%, the anion sterilization and deodorization device starts the sterilization and deodorization function and simultaneously turns on the spotlight.

8. The control method according to claim 7, characterized in that the method further comprises the steps of:

anion deodorizing device and shot-light disinfect under the auto-lock running state, pressure sensor places the region to shoes and carries out pressure detection, and microcontroller carries out the comparison with predetermined initial pressure value according to current detected value to judge whether shoes have been placed in the shoes box cavity, placed shoes when shoes box cavity, then anion deodorizing device and shot-light that disinfect keep running, otherwise, the anion deodorizing device and the shot-light that stops to operate.

9. The control method according to claim 8, characterized in that the method further comprises the steps of:

in the operation process of the anion sterilization and deodorization device, when the microcontroller receives the switch signal of the outer wall switch and the spotlight is in an on state, the spotlight is turned off, and when the microcontroller receives the switch signal of the outer wall switch and the spotlight is in an off state, the spotlight is turned on.

10. A control system for a shoe box, comprising:

the lighting module is used for turning on the lamp strip for lighting when the box cover switch is turned on, and otherwise, turning off the lamp strip;

the comparison module is used for detecting the pressure of the shoe placement area by the pressure sensor under the lighting state of the lamp strip, and the microcontroller compares the current detection value with a preset initial pressure value to judge whether shoes are placed in the shoe box cavity or not;

the scanning module is used for starting the imaging sensor to scan the shoes in the shoe box cavity when the shoes are placed in the shoe box cavity, and otherwise, returning to the execution comparison module; and

and the control module is used for matching the scanned imaging result with pre-stored shoe image information by the microcontroller, when the similarity between the imaging result and the pre-stored shoe image information is greater than a set threshold value, the negative ion sterilization and deodorization device and the spot lamp are maintained in a self-locking state to keep running, and otherwise, the negative ion sterilization and deodorization device and the spot lamp are stopped running.

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