CN210873198U

CN210873198U - Footgear deodorization sterilizer based on ozone effect

Info

Publication number: CN210873198U
Application number: CN201921418971.2U
Authority: CN
Inventors: 张海; 陈嘉
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-28
Filing date: 2019-08-28
Publication date: 2020-06-30
Anticipated expiration: 2029-08-28

Abstract

The utility model belongs to the technical field of deodorization equipment, a shoes socks deodorization sterilizer based on ozone effect is disclosed. The utility model comprises an ozone generator, a shoe and sock deodorization cabinet and an ozone recovery reduction box, wherein the front side of the shoe and sock deodorization cabinet is provided with a cabinet door, and a partition plate is connected in the inner cavity of the shoe and sock deodorization cabinet; the shoe and sock deodorization cabinet is provided with an ozone inlet channel and an ozone outlet channel, and the ozone inlet channel is communicated with an output port of the ozone generator; the ozone recovery reduction box is provided with an ozone recovery channel and an oxygen release channel, and the ozone recovery channel is communicated with the ozone outlet channel; the inner cavity of the ozone recovery reduction box is internally provided with a high-temperature heating device, and an exhaust fan is arranged in the ozone recovery channel or the ozone outlet channel. The utility model discloses can carry out effectual deodorization sterilization to shoes socks, save manpower and materials, can release away for oxygen with the quick reduction of ozone moreover, conveniently take out shoes socks fast, can the maximize prevent that ozone from leaking, the security performance is stronger.

Description

Footgear deodorization sterilizer based on ozone effect

Technical Field

The utility model belongs to the technical field of deodorization equipment, concretely relates to shoes socks deodorization sterilizer based on ozone effect.

Background

The foot odor is a common phenomenon in society, and the cause of the foot odor is formed by the combined action of the following reasons:

1. and (3) moisture: each square centimeter of the sole has more than 600 sweat glands, which are 2-4 times more than other parts of the body. There are about twenty-five million sweat glands in total, and nearly 500 ml of sweat can be secreted in one day. When the moisture content is high, the breeding and propagation of a large amount of bacteria and mould are facilitated;

2. sweat component: besides moisture and salt, human sweat also contains lactic acid and urea which become nutrient sources required by mould and bacteria;

3. closed space: in most cases, the shoes are a closed space, which can cause the increase of moisture and temperature in a small space, and the PH value of the skin surface can change from original PH4.4 to PH7, and carbon dioxide gas can be released;

4. old cutin: the sole of the foot is the part of the human body which is most prone to generate over-thick old cutin and can become a nutrient source required by bacteria and mould under the infiltration of sweat;

5. and (3) propagation of bacteria: because of the additive effect of 1, 2, 3 and 4 factors, the foot skin bacteria are greatly beneficial to the growth of foot skin bacteria, and the bacteria can decompose keratin of the skin and urea and lactic acid components in foot sweat to form various metabolites with odor, such as

(1) Brevi Bacterium, which decomposes the component Methionine in keratin to form methyl mercaptan.

(2) The fatty components of sebum are broken down by staphylococcus aureus and short chain fatty acids are formed.

(3) The urea is decomposed into ammonia by the bacteria.

6. And (3) propagation of the mold: the muggy and humid environment can cause the growth of mould and the skin ulceration (commonly known as hong Kong foot) to form foot odor.

At present, the shoes and socks are deodorized and sterilized by adopting a mode of washing with water and assisting with chemical disinfectant, wherein manual hand washing is the most common mode, the mode is time-consuming and labor-consuming, the deodorizing and sterilizing effect is not ideal, certain limitation exists, and the excessive use of the disinfectant can influence the health of human bodies and is not beneficial to environmental protection; in addition, automatic shoe washing machines are available in the market, but the essence is that manual washing is changed into automatic washing of the machine, the fundamental purpose is to save manpower, and therefore, the automatic shoe washing machines are still not ideal in time consumption and deodorization and sterilization effects.

At present, a deodorizing and bacteriostatic spray for shoes and socks is available on the market, adopts a plant formula, has the greatest effect of deodorization, but has different deodorizing effects according to feedback evaluation of customers, has not long retention time, has odor covered by the fragrance of the medicament when the medicament is sprayed, and has odor coming back when the medicament is sprayed; in addition, whether the formula of the spray is environment-friendly and harmless to human bodies and how the antibacterial effect is, needs to be investigated, the effect of the spray is actually a temporary solution and a permanent solution, and the spray is continuously consumed and needs to be purchased after being used up, so that the spray is not economical. And the deodorant for the shoes and the socks adopts common chemical sterilizing agents, has the same undesirable effect and can not ensure environmental protection and health.

In addition, some equipment for utilizing ozone for deodorization is also available on the market at present, for example, the utility model patent with the application number of CN200920043137.X provides a deodorization and dehumidification shoe cabinet, which comprises a cabinet body and a cabinet door, and is characterized in that an ozone generator and an air blower are arranged in the cabinet body, the output ports of the ozone generator and the air blower are communicated with the inner cavity of the cabinet body, and the position of the output port corresponds to a shoe support for hanging shoes in the shoe cabinet. This prior art is too simple, and the ozone that produces is only simple to utilize ozone to deodorize, and the later stage does not provide any measure of getting rid of ozone, just so can only make the dissipation of ozone very slow, all wait a large amount of time after every deodorization, appear very chicken ribs to the person of time urgency, and the time of having a specified duration ozone leakage just higher, the security is just also worse.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a footwear deodorization sterilizer based on ozone effect.

The utility model discloses the technical scheme who adopts does:

a shoe and sock deodorization sterilizer based on ozone effect comprises an ozone generator, a shoe and sock deodorization cabinet and an ozone recovery reduction box, wherein the shoe and sock deodorization cabinet and the ozone recovery reduction box are both provided with inner cavities; the front of the shoe and sock deodorization cabinet is provided with a cabinet door, and the inner cavity of the shoe and sock deodorization cabinet is connected with at least one partition plate in a sliding manner;

the shoe and sock deodorization cabinet is provided with an ozone inlet channel and an ozone outlet channel which are communicated with the inner cavity of the shoe and sock deodorization cabinet, and the ozone inlet channel is communicated with the output port of the ozone generator;

the ozone recovery reduction box is provided with an ozone recovery channel and an oxygen release channel which are communicated with the inner cavity of the ozone recovery reduction box, and the ozone recovery channel is communicated with an ozone outlet channel of the footgear deodorization cabinet; the inner cavity of the ozone recovery reduction box is internally provided with a high-temperature heating device, and the ozone recovery channel or the ozone outlet channel is internally provided with an exhaust fan which sucks ozone from the footwear deodorization cabinet into the ozone recovery reduction box.

Preferably, the footgear deodorization cabinet, the ozone generator and the ozone recovery reduction box are sequentially connected from top to bottom, a controller is arranged between the ozone generator and the ozone recovery reduction box, the controller comprises a controller shell, a processor arranged in the controller shell and a power supply electrically connected with the processor, and the ozone generator, the high-temperature heating device and the exhaust fan are respectively and electrically connected with the processor and the power supply.

Still further preferably, an electromagnetic lock is arranged between the footgear deodorization cabinet and the cabinet door in a matching manner, and the electromagnetic lock is respectively and electrically connected with the processor and the power supply.

More preferably, the lower end of the cabinet door is hinged with the footgear deodorization cabinet, and the front surface of the cabinet door is also provided with a handle; the electromagnetic lock comprises a first electromagnet and a second electromagnet, the first electromagnet is installed on the inner side of the cabinet door, a lock groove matched with the first electromagnet is formed in the inner cavity of the footwear deodorization cabinet, the second electromagnet is installed in the lock groove, and the first electromagnet and the second electromagnet are equally connected with the processor and the power supply electrically.

More preferably, the exhaust fan is arranged in the ozone recovery channel, and the oxygen release channel, the ozone inlet channel and the ozone outlet channel are all provided with gas one-way valves; still be provided with the electric switch valve in ozone outlet channel and the oxygen release passageway, still be provided with in the oxygen release passageway and send out the outside forced draught blower of ozone recovery reduction case with the air in the ozone recovery reduction case, electric switch valve and forced draught blower are equallyd divide and are connected treater and power respectively.

Still further preferably, the front of the footgear deodorization cabinet is provided with a first button, the front of the controller shell is provided with a second button, and the first button and the second button are respectively and electrically connected with the processor and the power supply.

More preferably, a low-temperature heating device is arranged in the inner cavity of the footgear deodorization cabinet 2, and the low-temperature heating device is respectively and electrically connected with the processor and the power supply.

More preferably, the shoe and sock deodorization cabinets are provided with a plurality of ozone inlet channels which are respectively communicated with the output port of the ozone generator, and the ozone outlet channels of the shoe and sock deodorization cabinets are respectively communicated with the ozone recovery channel.

Still further preferably, the footgear deodorization cabinet is provided with a two-dimensional code mark.

Still more preferably, the inner wall of the ozone recovery reduction box is provided with a heat insulation layer, and the ozone recovery channel and the oxygen release channel both penetrate through the heat insulation layer.

The utility model has the advantages that:

when the utility model works, the cabinet door is firstly opened, shoes and socks are put into the inner cavity of the shoes and socks deodorization cabinet, and then the cabinet door is closed and locked; after the ozone generator starts to work, the generated ozone slowly enters the inner cavity of the shoe and sock deodorization cabinet to perform deodorization work on the shoes and socks; after deodorization, open the air exhauster, ozone is inhaled in the ozone recovery reduction case, and the high temperature heating device in the ozone recovery reduction case heats ozone, and the reduction of ozone is oxygen with higher speed, treats a certain time after, and ozone reduces to oxygen completely, then releases away the oxygen that reduces to through oxygen release passageway. The utility model has the advantages of simple structure, low cost, usable ozone carries out effectual deodorization sterilization to shoes socks, has saved manpower and materials, moreover the utility model discloses the design has ozone recovery reduction device, can go out for oxygen release with the quick reduction of ozone, not only conveniently takes out shoes socks fast after the deodorization, and the ozone that also can the maximize prevents that ozone from leaking moreover, and the security performance is stronger.

Drawings

Fig. 1 is a schematic structural view of the cabinet door of the present invention when opened;

fig. 2 is a schematic structural diagram of the cabinet door of the present invention when closed.

In the figure: 1-an ozone generator; 2-a footgear deodorization cabinet; 21-a cabinet door; 211-a handle; 22-a partition plate; 3-an ozone recovery reduction box; 4-a controller; 5-a first electromagnet; 6-locking the groove; 7-a first button; 8-second button.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the accompanying drawings is only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without any inventive work.

The technical solution provided by the present invention will be described in detail by way of embodiments with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

In some instances, some embodiments are not described or not in detail, as they are conventional or customary in the art.

Furthermore, the technical features described herein, or the steps of all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments, in addition to the mutually exclusive features and/or steps. It will be readily appreciated by those of skill in the art that the order of the steps or operations of the methods associated with the embodiments provided herein may be varied. Any order in the drawings and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated to be required.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The terms "connected" and "coupled" when used in this application, encompass both direct and indirect connections (and couplings) where appropriate and where not necessary contradictory.

The first embodiment is as follows:

the embodiment provides a shoe and sock deodorizing and sterilizing machine based on ozone effect, which comprises an ozone generator 1, a shoe and sock deodorizing cabinet 2 and an ozone recovery and reduction box 3, wherein the shoe and sock deodorizing cabinet 2 and the ozone recovery and reduction box are both provided with inner cavities; the front surface of the footwear deodorization cabinet 2 is provided with a cabinet door 21, and the inner cavity of the footwear deodorization cabinet is connected with at least one partition plate 22 in a sliding way; the partition plate 22 can be installed in a manner of a partition plate in a refrigerator, so that the inner cavity is divided into a plurality of independent spaces, more shoes and socks can be conveniently placed in a separated manner, and meanwhile, the spaces can be adjusted by the partition plate 22, so that the shoes with different sizes can be conveniently partitioned;

the shoe and sock deodorization cabinet 2 is provided with an ozone inlet channel and an ozone outlet channel which are communicated with the inner cavity of the cabinet, and the ozone inlet channel is communicated with the output port of the ozone generator;

the ozone recovery reduction box 3 is provided with an ozone recovery channel and an oxygen release channel which are communicated with the inner cavity of the ozone recovery reduction box, and the ozone recovery channel is communicated with an ozone outlet channel of the footgear deodorization cabinet; a high-temperature heating device is arranged in the inner cavity of the ozone recovery reduction box 3, and an exhaust fan which sucks ozone from the shoe and sock deodorization cabinet into the ozone recovery reduction box is arranged in the ozone recovery channel or the ozone outlet channel. The high-temperature heating device can be an existing high-temperature heating tube. It should be noted that the specific numbers of the ozone generator 1, the footwear deodorization cabinet 2 and the ozone recovery and reduction box 3 in this embodiment are not limited, and are determined according to actual needs and situations.

When the utility model works, the cabinet door is firstly opened, shoes and socks are put into the inner cavity of the shoe and sock deodorization cabinet 2, and then the cabinet door is closed and locked; after the ozone generator 1 starts to work, the generated ozone slowly enters the inner cavity of the shoe and sock deodorization cabinet 2 to deodorize the shoes and socks; after the deodorization, open the air exhauster, ozone is inhaled in ozone recovery reduction case 3, and the high temperature heating device in ozone recovery reduction case 3 heats ozone, and the reduction of ozone is oxygen with higher speed, treats a certain time after, and ozone reduces to oxygen completely, then releases away the oxygen that reduces to through oxygen release passageway. The utility model has the advantages of simple structure, low cost, usable ozone carries out effectual deodorization sterilization to shoes socks, has saved manpower and materials, moreover the utility model discloses the design has ozone recovery reduction device, can go out for oxygen release with the quick reduction of ozone, not only conveniently takes out shoes socks fast after the deodorization, and the ozone that also can the maximize prevents that ozone from leaking moreover, and the security performance is stronger.

Example two:

the present embodiment is a further improvement on the basis of the first embodiment, and specific differences between the present embodiment and the first embodiment are as follows:

it should be further explained in this embodiment that the footwear deodorization cabinet 2, the ozone generator 1, and the ozone recovery reduction box 3 are sequentially connected from top to bottom, of course, this installation manner is only a positional relationship, the specific positional relationship may also be set on the upper side or one side, and is not particularly limited, the controller 4 is disposed between the ozone generator 1 and the ozone recovery reduction box 3, the controller 4 includes a controller housing, a processor disposed in the controller housing, and a power supply electrically connected to the processor, and the ozone generator 1, the high temperature heating device, and the exhaust fan are electrically connected to the processor and the power supply respectively. The processor is used for adjusting the operation of the ozone generator 1, the high-temperature heating device and the exhaust fan, the power supply is used for providing electric energy, the power supply can be directly connected with an external power supply or a storage battery connected with the external power supply, a conventional timer module and the like are further arranged in the controller, the heating time of the high-temperature heating device and the ozone generation time of the ozone generator 1 can be conveniently controlled, the processor, the power supply, the timer module and the like are all made by adopting the prior art, and specific protection and limitation are not made.

Example three:

the present embodiment is a further improvement on the basis of the second embodiment, and specific differences between the present embodiment and the second embodiment are:

in this embodiment, it should be further explained that an electromagnetic lock is cooperatively installed between the footwear deodorization cabinet 2 and the cabinet door 21, and the electromagnetic lock is electrically connected to the processor and the power supply, respectively. The electromagnetic lock can be powered on and locked when the ozone generator 1 is started, and the electromagnetic lock can be powered off and separated after ozone enters the ozone recovery reduction box 3, so that the shoe and sock taking device is safe, can safely and quickly take out shoes and socks after deodorization is finished, and provides convenience for people who need to go out quickly.

Example four:

the present embodiment is a further improvement on the basis of the third embodiment, and specific differences between the present embodiment and the third embodiment are as follows:

in this embodiment, it should be further explained that the lower end of the cabinet door 21 is hinged to the footwear deodorization cabinet 2, and the front surface of the cabinet door 21 is further provided with a handle 211; the electromagnetic lock comprises a first electromagnet 5 and a second electromagnet, the first electromagnet 5 is installed on the inner side of the cabinet door 21, a locking groove 6 matched with the first electromagnet 5 is arranged in the inner cavity of the footgear deodorization cabinet 2, the second electromagnet is installed in the locking groove 6, and the first electromagnet 5 and the second electromagnet are equally connected with the processor and the power supply electrically. When the cabinet door is closed, first electro-magnet 5 is installed in locked groove 6 as the hasp, the cooperation of first electro-magnet 5, dies the cabinet door lock with the equal circular telegram cooperation of second electro-magnet, avoids having to open the cabinet door at deodorant in-process for whole safe and reliable more.

Example five:

the present embodiment is a further improvement made on the basis of any one of the second to fourth embodiments, and the specific differences between the present embodiment and any one of the second to fourth embodiments are as follows:

in this embodiment, it should be further described that the exhaust fan is disposed in the ozone recovery channel, and the oxygen release channel, the ozone inlet channel, and the ozone outlet channel are all provided with gas check valves, which ensure one-way circulation of gas and prevent backflow of ozone, so that the working process is more efficient and safer; still be provided with the electric switch valve in ozone exit channel and the oxygen release passageway, still be provided with in the oxygen release passageway and send out the outside forced draught blower of ozone recovery reduction case 3 with the air in the ozone recovery reduction case 3, be convenient for send out ozone recovery reduction case 3 with the oxygen in the ozone recovery reduction case 3, make the atmospheric pressure in the ozone recovery reduction case 3 keep balance, simultaneously in order to guarantee the atmospheric pressure in the ozone recovery reduction case 3 more stable keeps balance, also can install current pressure regulator in ozone recovery reduction case 3, pressure regulator keeps the linkage with the electric switch valve in the oxygen release passageway, when pressure regulator tests when pressure and reaches the default, can close the electric switch valve in the oxygen release passageway, close the forced draught blower simultaneously, electric switch valve and forced draught blower are equallyd divide and are do not electric connection treater and power.

Example six:

the present embodiment is a further improvement made on the basis of any one of the second to fifth embodiments, and the specific differences between the present embodiment and any one of the second to fifth embodiments are as follows:

in this embodiment, it should be further explained that the front surface of the footwear deodorization cabinet 2 is provided with a first button 7, the front surface of the controller housing is provided with a second button 8, and the first button 7 and the second button 8 are respectively electrically connected to the processor and the power supply. The first button 7 is used for controlling the starting of the ozone generator 1, the second button 8 is used for controlling the starting of an exhaust fan in the ozone recovery reduction box 3 and the starting of the high-temperature heating device, so that the ozone recovery reduction box 3 is more convenient to use.

Example seven:

the present embodiment is a further improvement made on the basis of any one of the second to sixth embodiments, and the specific differences between the present embodiment and any one of the second to sixth embodiments are:

in this embodiment, it should be further explained that a low-temperature heating device is installed in the inner cavity of the footwear deodorization cabinet 2, and the low-temperature heating device is electrically connected to the processor and the power supply respectively. The low-temperature heating device can be used for dehumidification and can accelerate deodorization, the heating temperature of the low-temperature heating device is controlled to be 20-40 ℃, deodorization work can be accelerated at normal temperature, reduction of ozone cannot be accelerated, and the deodorization work is more efficient. The low-temperature heating device can be realized by adopting the existing heating bulb. The shoe and sock deodorizing sterilizer can be provided with the wireless data communication device in the prior art, the wireless data communication device is electrically connected with the controller (4) and the power supply, the remote control center is in communication connection with the controller (4) through the wireless data communication device, and then the shoe and sock deodorizing sterilizer is started or closed in a remote wireless mode.

Example eight:

the present embodiment is a further improvement made on the basis of any one of the fifth to seventh embodiments, and the specific differences between the present embodiment and any one of the fifth to seventh embodiments are as follows:

in this embodiment, it should be further explained that the plurality of shoe and sock deodorizing cabinets 2 are provided, the ozone inlet channels of the plurality of shoe and sock deodorizing cabinets 2 are respectively communicated with the output port of the ozone generator, and the ozone outlet channels of the plurality of shoe and sock deodorizing cabinets 2 are respectively communicated with the ozone recovery channel. Thus, a plurality of footgear deodorization cabinets 2 are conveniently and simultaneously controlled, and the deodorization efficiency is improved. Meanwhile, aiming at different environments and conditions, the number of the ozone generators 1 and the number of the ozone generators 1 can be multiple, the ozone generators and the ozone generators can be arranged in a one-to-one manner or in a one-to-many manner with the shoe and sock deodorization cabinet 2, the ozone generators and the ozone generators can be selected according to market requirements, and the simple transformation falls into the protection range of the application. Because the drawings of the single footwear deodorization cabinet 2 are matched for description, the drawings of a plurality of footwear deodorization cabinets 2 are not drawn separately.

Example nine:

the present embodiment is a further improvement made on the basis of any one of the second to eighth embodiments, and the specific differences between the present embodiment and any one of the second to eighth embodiments are:

in this embodiment, it should be further explained that the footwear deodorization cabinet 2 is provided with a two-dimensional code identifier. The two-dimensional code identification can be used for scanning code payment, the barcode payment can be completed by scanning the two-dimensional code through the mobile phone, data is transmitted to the remote control center, and the remote control center starts or closes the shoe and sock deodorization sterilizer to operate according to data information, so that convenience is improved.

Example ten:

the present embodiment is a further improvement made on the basis of any one of the first to ninth embodiments, and a specific difference between the present embodiment and any one of the first to ninth embodiments is:

in this embodiment, it should be further explained that a heat insulation layer is disposed on the inner wall of the ozone recovery reduction box 3, and both the ozone recovery channel and the oxygen release channel penetrate through the heat insulation layer. The heat insulation layer can ensure that the ozone recovery reduction box 3 can resist high temperature and can not leak out at high temperature, thereby being safer.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims

1. The utility model provides a shoes socks deodorization sterilization machine based on ozone effect, includes ozone generator (1), its characterized in that: also comprises a footgear deodorization cabinet (2) and an ozone recovery reduction box (3) which are both provided with inner cavities; the front surface of the footgear deodorization cabinet (2) is provided with a cabinet door (21), and the inner cavity of the footgear deodorization cabinet is connected with at least one partition plate (22) in a sliding way;

the shoe and sock deodorization cabinet (2) is provided with an ozone inlet channel and an ozone outlet channel which are communicated with the inner cavity of the cabinet, and the ozone inlet channel is communicated with the output port of the ozone generator;

the ozone recovery reduction box (3) is provided with an ozone recovery channel and an oxygen release channel which are communicated with the inner cavity of the ozone recovery reduction box, and the ozone recovery channel is communicated with an ozone outlet channel of the footgear deodorization cabinet; a high-temperature heating device is arranged in the inner cavity of the ozone recovery reduction box (3), and an exhaust fan which sucks ozone from the shoe and sock deodorization cabinet into the ozone recovery reduction box is arranged in the ozone recovery channel or the ozone outlet channel.

2. The ozone-based footwear deodorizing and sterilizing machine of claim 1, wherein: the shoe and sock deodorization cabinet (2), the ozone generator (1) and the ozone recovery reduction box (3) are sequentially connected from top to bottom, the controller (4) is arranged between the ozone generator (1) and the ozone recovery reduction box (3), the controller (4) comprises a controller shell and a power supply which is arranged in the controller shell and is electrically connected with a processor, and the ozone generator (1), the high-temperature heating device and the exhaust fan are equally connected with the processor and the power supply respectively and electrically.

3. The ozone-based footwear deodorizing and sterilizing machine of claim 2, wherein: an electromagnetic lock is installed between the footgear deodorization cabinet (2) and the cabinet door (21) in a matching mode, and the electromagnetic lock is electrically connected with the processor and the power supply respectively.

4. The ozone-based footwear deodorizing and sterilizing machine of claim 3, wherein: the lower end of the cabinet door (21) is hinged with the footgear deodorization cabinet (2), and the front surface of the cabinet door (21) is also provided with a handle (211); the electromagnetic lock comprises a first electromagnet (5) and a second electromagnet, the first electromagnet (5) is installed on the inner side of the cabinet door (21), a locking groove (6) matched with the first electromagnet (5) is formed in the inner cavity of the shoe and sock deodorization cabinet (2), the second electromagnet is installed in the locking groove (6), and the first electromagnet (5) and the second electromagnet are equally connected with the processor and the power source electrically.

5. An ozone based footwear deodorizing and sterilizing machine according to any one of claims 2-4, wherein: the exhaust fan is arranged in the ozone recovery channel, and gas one-way valves are arranged in the oxygen release channel, the ozone inlet channel and the ozone outlet channel; still be provided with the electric switch valve in ozone outlet passage and the oxygen release passageway, still be provided with the forced draught blower of sending out ozone recovery reduction case (3) with the air in ozone recovery reduction case (3) in the oxygen release passageway, electric switch valve and forced draught blower are equallyd divide and are do not electrically connected treater and power.

6. The ozone-based footwear deodorizing and sterilizing machine of claim 2, wherein: first button (7) are installed in the front of shoes socks deodorization cabinet (2), and the front of controller casing is provided with second button (8), and electric connection treater and power are respectively equallyd divide to first button (7) and second button (8).

7. The ozone-based footwear deodorizing and sterilizing machine of claim 2, wherein: the inner cavity of the footgear deodorization cabinet (2) is internally provided with a low-temperature heating device which is respectively and electrically connected with the processor and the power supply.

8. The ozone-based footwear deodorizing and sterilizing machine of claim 5, wherein: the shoe and sock deodorization cabinets (2) are provided with a plurality of ozone inlet channels of the shoe and sock deodorization cabinets (2) are respectively communicated with an output port of an ozone generator, and the ozone outlet channels of the shoe and sock deodorization cabinets (2) are respectively communicated with an ozone recovery channel.

9. An ozone based footwear deodorizing and sterilizing machine according to claim 2 or 8, wherein: the shoe and sock deodorization cabinet (2) is provided with a two-dimensional code mark.

10. The ozone-based footwear deodorizing and sterilizing machine of claim 1, wherein: the inner wall of the ozone recovery reduction box (3) is provided with a layer of heat insulation layer, and the ozone recovery channel and the oxygen release channel both penetrate through the heat insulation layer.