CN117244086A - System and method for cleaning, sterilizing, deodorizing and drying safety helmet - Google Patents

Abstract

The invention discloses a cleaning, sterilizing, deodorizing and drying system and method for a safety helmet. The control system module is electrically connected with the ultraviolet lamp module, the smoke generation module, the warm air generation module and the first exhaust module. The cleaning and sterilizing chamber of the helmet is arranged in the body and comprises a placing space, a table top and a vent hole. The placing space is used for placing the safety helmet. The table top is positioned at the bottom of the placement space. The vent is located at the table top. The accommodation space is arranged in the body. The cleaning solution tank chamber is used for containing atomized smog cleaning solution. The gas conduit is arranged in the accommodating space and communicated with the cleaning and sterilizing chamber of the safety helmet.

Description

System and method for cleaning, sterilizing, deodorizing and drying safety helmet

Technical Field

The invention relates to a system and a method for cleaning, sterilizing, deodorizing and drying a safety helmet, in particular to a system and a method for cleaning, sterilizing, deodorizing and drying a safety helmet lining, which can quickly clean, sterilize, deodorize and dry the safety helmet lining without dead angles.

Background

To ensure the safety of the locomotive rider, legal regulations require that the rider wear a safety helmet. As the inside of the safety helmet is covered with the cotton layer outside the Stockholt, sweat or rainwater of a rider can be absorbed by the cotton layer, bacteria and mould can grow on the cotton layer to generate odor over time, and even skin diseases or hair loss can occur on the scalp of the rider.

To clean the inside of the helmet, taiwan patent publication No. M564453, patent name: the helmet bacterial cleaner (Safety helmet sterilization machine) adopts ultrasonic vibration to spray out liquid medicine water mist, and uses water mist particles to clean, disinfect and sterilize the inside of the helmet. However, the ultrasonic vibration of the patent generates water mist with about 6-100 microns, the water mist has large particle size and high water content, but has no drying function, so that the lining of the helmet can generate moisture, and bacteria and mold are still suspected to be developed.

Therefore, how to provide a device capable of rapidly cleaning, sterilizing, deodorizing and drying the inner lining of the helmet so as to keep the inner lining of the helmet clean and refreshing and avoid scalp problems after wearing by users is a problem worthy of discussion.

Disclosure of Invention

The invention mainly aims to provide a cleaning, sterilizing, deodorizing and drying system for a helmet, which can rapidly clean, sterilize, deodorize and dry the lining of the helmet.

In order to achieve the above-mentioned purpose, the cleaning, sterilizing, deodorizing and drying system for the helmet of the present invention comprises a main body, an ultraviolet lamp module, a smoke generating module, a warm air generating module, a first air exhausting module, a control system module, a cleaning and sterilizing chamber for the helmet, a containing space, a cleaning liquid water tank chamber and a gas conduit. The control system module is electrically connected with the ultraviolet lamp module, the smoke generation module, the warm air generation module and the first exhaust module. The cleaning and sterilizing chamber of the helmet is arranged in the body and comprises a placing space, a table top and a vent hole. The placing space is used for placing the safety helmet. The table top is positioned at the bottom of the placement space. The vent is located at the table top. The accommodation space is arranged in the body. The cleaning solution tank chamber is used for containing an antibacterial smog cleaning solution. The gas conduit is arranged in the accommodating space and communicated with the cleaning and sterilizing chamber of the safety helmet. Through the structure, the antibacterial smoke cleaning solution forms clean sterilizing and deodorizing smoke through the smoke generating module, the clean sterilizing and deodorizing smoke enters the clean sterilizing chamber of the safety helmet through the gas conduit and the vent hole, and the warm air generating module is used for heating air to enable the first air exhausting module to generate hot air, and the hot air enters the clean sterilizing chamber of the safety helmet through the gas conduit and the vent hole. The "smoke molecules" generated by heating are "gaseous molecules" which are finer than the "water mist" sprayed by the conventional ultrasonic vibration, and the smoke particles are relatively free of water content.

According to the embodiment of the invention, the helmet cleaning, sterilizing, deodorizing and drying system further comprises an ozone generating module, a second air exhausting module, at least one fragrance module, a first turbofan module, a second turbofan module, a humidity sensor, an odor sensor and a vibration module.

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Drawings

Fig. 1 is a schematic view of a helmet cleaning, sterilizing, deodorizing and drying system according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a helmet cleaning, sterilizing, deodorizing and drying system according to an embodiment of the present invention.

Fig. 3 is a schematic view of a helmet-mounted cleaning, sterilizing, deodorizing and drying system according to an embodiment of the present invention.

Fig. 4 is a system architecture diagram of a helmet cleaning, sterilizing, deodorizing and drying system according to an embodiment of the present invention.

Fig. 5 is a flowchart showing steps of a method for cleaning, sterilizing, deodorizing and drying a helmet according to an embodiment of the present invention.

Fig. 6 is a schematic view of an antimicrobial smoke cleaning solution according to an embodiment of the present invention as a cleaning, disinfecting and deodorizing smoke.

FIG. 7 is a schematic diagram of air as hot air in accordance with an embodiment of the present invention.

Wherein reference numerals are used to refer to

Safety helmet cleaning, sterilizing, deodorizing and drying system 1

Body 11

Cleaning and sterilizing room 12 for safety helmet

Placement space 120

Door body 121

Mesa 122

Vent 123

First space 13

Second space 14

Cleaning liquid tank chamber 141

Liquid conduit 142

Liquid extraction module 143

Gas conduit 15

The accommodation space 18

Ultraviolet lamp module 20

Control system module 30

Smoke generating Module 31

Warm air generating module 32

Temperature sensor 33

Ozone generating module 34

Humidity sensor 36

First air extraction module 37

Second air extraction module 38

Information player 40

First turbofan module 50

Conduit 51

Second turbofan module 55

Vibration module 60

Fragrance module 70

Fragrance 71

Fragrance selector 72

Fragrance control 73

Peculiar smell sensor 74

Safety helmet 900

Antibacterial smoke cleaning solution 901

Clean sterilizing deodorizing smoke 902

Air 903

Hot air 904

Detailed Description

Referring to fig. 1 to 7, a system and a method for cleaning, sterilizing, deodorizing and drying a helmet according to an embodiment of the invention are shown.

As shown in fig. 1 to 4 and 6, in an embodiment of the present invention, the helmet cleaning sterilization deodorization and drying system 1 and the helmet cleaning sterilization deodorization and drying method can rapidly clean, sterilize, deodorize and dry the inner lining of the helmet 900 by an antibacterial smoke cleaning liquid 901. The components of the antibacterial smoke cleaning liquid 901 comprise water, a fuming agent and an antibacterial deodorizing cleaning agent, and the antibacterial smoke cleaning liquid 901 can form clean sterilizing deodorizing smoke 902 with cleaning and sterilizing functions after being heated. The helmet cleaning, sterilizing, deodorizing and drying system 1 comprises a body 11, a helmet cleaning, sterilizing chamber 12, a receiving space 18, a cleaning liquid tank 141, a liquid conduit 142, a liquid extraction module 143, a gas conduit 15, an ultraviolet lamp module 20, a control system module 30, a smoke generating module 31, a warm air generating module 32, a temperature sensor 33, an ozone generating module 34, a humidity sensor 36, a first air exhausting module 37, a second air exhausting module 38, an information player 40, a first turbo fan module 50, a second turbo fan module 55, a vibration module 60 and an aroma module 70.

The main body 11 is a rectangular parallelepiped machine. The helmet cleaning and sterilizing chamber 12 is disposed in the body 11 and includes a placement space 120, a door 121, a table 122 and a plurality of ventilation holes 123. The placement space 120 is used for placing the safety helmet 900. The door body 121 is a door that can be opened and closed and is used to cover the placement space 120. The mesa 122 is located at the bottom of the placement space 120. A plurality of vent holes 123 are provided in the mesa 122 for the flow of gas, but the number of vent holes 123 may be changed to at least one as required.

The accommodating space 18 is disposed in the body 11 and includes a first space 13 and a second space 14, and the second space 14 is located below the first space 13. The cleaning liquid tank chamber 141 is located in the second space 14 and is used to hold the antibacterial aerosol cleaning liquid 901. Both ends of the liquid guide pipe 142 are respectively communicated with the cleaning liquid tank chamber 141 and the liquid extraction module 143.

The gas conduit 15 is a ventilation pipe and is provided in the accommodating space 18 and communicates with the helmet cleaning and sterilizing chamber 12 to allow gas to flow into the helmet cleaning and sterilizing chamber 12. The ultraviolet lamp module 20 is disposed under the table 122, and ultraviolet rays irradiated by the ultraviolet lamp module 20 can pass through the vent holes 123 to irradiate the safety helmet 900 on the table 122 for sterilization; however, the position of the ultraviolet lamp module 20 is not limited to the above, and it may be disposed at the top of the placement space 120.

The control system module 30 is a central processing unit, and is electrically connected to the ultraviolet lamp module 20, the liquid extraction module 143, the smoke generation module 31, the warm air generation module 32, the temperature sensor 33, the ozone generation module 34, the humidity sensor 36, the first air extraction module 37, the second air extraction module 38, the information player 40, the first turbofan module 50, the second turbofan module 55, the vibration module 60 and the fragrance module 70, and controls the operation of these modules. The control system module 30 is located in the accommodation space 18. The smoke generating module 31 is communicated with the liquid extracting module 143, and the smoke generating module 31 is used for heating the antibacterial smoke cleaning liquid 901 extracted by the liquid extracting module 143 to form the cleaning sterilizing deodorizing smoke 902. The warm air generating module 32 is used for heating air 903. The temperature sensor 33 is used for sensing the temperature of the air 903 and the components in the first space 13. The ozone generating module 34 communicates with the helmet cleaning and sterilizing chamber 12 and is used to generate ozone into the helmet cleaning and sterilizing chamber 12. Humidity sensor 36 is located in the helmet cleaning sterilization chamber 12 and is used to sense the humidity of the helmet 900. The first suction module 37 is a suction fan located below the vent 123 and is configured to draw gas to deliver the gas to the helmet cleaning sterilization chamber 12. The second exhaust module 38 is an exhaust fan and is located above the helmet cleaning and sterilizing compartment 12 and is used to exhaust the gas in the helmet cleaning and sterilizing compartment 12 to the outside.

The information player 40 is, for example, a screen, and is located in the body 11 and is used for presenting advertisement information or system operation information. The first turbofan module 50 is located below the table 122 and includes a duct 51, the duct 51 communicating with the vent 123. The first turbofan module 50 is configured to blow an air flow through the vent 123 to blow away dust under the helmet 900. The second turbofan module 55 is located at the top of the helmet cleaning and sterilizing compartment 12, and the second turbofan module 55 is configured to blow out an air flow to blow away dust above the helmet 900. The wind speed advice generated by the turbofan module 131 is at least 1m ³ Per minute to 10m ³ The wind pressure is recommended to be at least 500 pa-3000 pa, the rotating speed is at least 1100 R.P.M-5000 R.P.M or the rotating speed and the wind quantity are at least 10 CFM. The vibration module 60 is connected to the table 122 and is used to vibrate the table 122 to drop dust attached to the helmet 900 on the table 122.

The fragrance module 70 is used to generate fragrance. The fragrance module 70 includes a plurality of fragrances 71, a fragrance selector 72, a fragrance control 73, and a fragrance sensor 74. To allow a user to select the fragrance. The plurality of fragrances 71 are provided with a plurality of sprayers of essence, essential oil or perfume, for example, and the plurality of fragrances 71 provide different kinds of fragrances, such as floral, fruit, respectively. The fragrance selector 72 is a button, and is provided on the body 11 to allow the user to select a desired fragrance. The fragrance controller 73, such as a processor chip, is electrically connected to the plurality of fragrances 71, fragrance selector 72, and odor sensor 74 to control the operation of these components. An odor sensor 74 is located at the top of the helmet cleaning and sterilization chamber 12 to sense whether the helmet 900 has an odor.

As shown in fig. 2 to 5, the helmet cleaning, sterilizing, deodorizing and drying method can be programmed as software to be applied to the helmet cleaning, sterilizing, deodorizing and drying system 1, and when the user wants to apply the helmet cleaning, sterilizing, deodorizing and drying system 1 to clean the helmet 900, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 101 of the helmet cleaning, sterilizing, deodorizing and drying method: and presenting an advertisement message or a system operation message through the message player.

The information player 40 presents an advertisement message or a system operation message, and the user can watch the operation instruction displayed by the information player 40, pay money to the slot on the body 11 according to the operation instruction or pay by action, place the helmet in the placement space 120 and place on the table top 122 and close the door 121.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 102 of the helmet cleaning, sterilizing, deodorizing and drying method: and the ultraviolet lamp module irradiates ultraviolet light to the safety helmet for sterilization.

The ultraviolet lamp module 20 irradiates an ultraviolet light toward the helmet 900 on the table 122 to sterilize the helmet 900.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 103 of the helmet cleaning, sterilizing, deodorizing and drying method: ozone is generated to the clean sterilizing room of the safety helmet through the ozone generating module.

The ozone generating module 34 is a conventional ozone generator that generates ozone that is drawn into the helmet cleaning and sterilizing chamber 12 by the first drawing module 37 through the gas duct 15 to sterilize the helmet 900.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 104 of the helmet cleaning, sterilizing, deodorizing and drying method: the smoke generating module is activated to warm up the smoke generating module.

The smoke generating module 31 is a heater that is activated and warms up to a specified temperature range (e.g., 105-380 degrees) within a specified time range (e.g., 30 seconds-3 minutes). The temperature sensor 33 is a thermometer that senses the temperature of the smoke generating module 31 to ensure that the temperature of the smoke generating module 31 can be subsequently atomized against the antimicrobial smoke cleaning solution 901 without overheating.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 105 of the helmet cleaning, sterilizing, deodorizing and drying method: the liquid extraction module is used for extracting the antibacterial smoke cleaning liquid to the smoke generation module through the liquid conduit, and the smoke generation module is used for heating the antibacterial smoke cleaning liquid to form clean, sterilizing and deodorizing smoke.

As shown in fig. 2 and 6, the liquid extraction module 143 is a water pump that extracts the antimicrobial aerosol cleaning liquid 901 in the cleaning liquid tank compartment 141 to the aerosol generating module 31 via the liquid conduit 142, and the aerosol generating module 31 heats the antimicrobial aerosol cleaning liquid 901 to form a cleaning, disinfecting and deodorizing aerosol 902 having cleaning and disinfecting functions.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 106 of the helmet cleaning, sterilizing, deodorizing and drying method: through the first air extraction module, the cleaning, sterilizing and deodorizing smoke enters the cleaning and sterilizing chamber of the safety helmet through the gas conduit and the vent holes, and the cleaning, sterilizing and deodorizing smoke surrounds the safety helmet 900 to perform cleaning, sterilizing and deodorizing.

The first suction module 37 is a suction fan that draws the sterilizing and deodorizing fume 902 through the gas duct 15 and the vent hole 123 so that the sterilizing and deodorizing fume 902 enters the helmet sterilizing and cleaning chamber 12 to sterilize and clean the helmet 900.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 107 of the helmet cleaning, sterilizing, deodorizing and drying method: the table top is vibrated by the vibration module, so that dust attached to the safety helmet on the table top falls down.

The vibration module 60, such as a vibration motor, vibrates the table 122 to cause dust attached to the helmet 900 on the table 122 to fall.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 108 of the helmet cleaning, sterilizing, deodorizing and drying method: dust below the safety helmet is blown away by the first turbofan module.

The first turbo fan module 50 is a fan that blows dust adhering to the underside and inner lining of the helmet 900.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 109 of the helmet cleaning, sterilizing, deodorizing and drying method: dust above the safety helmet is blown away by the second turbofan module.

The second turbo fan module 55 is a fan that blows dust over and outside the helmet 900. By the vibration module 60, the first turbo fan module 50, and the second turbo fan module 55, dust adhering to the helmet 900 can be thoroughly cleaned.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 110 of the helmet cleaning, sterilizing, deodorizing and drying method: whether the safety helmet has peculiar smell or not is sensed by the peculiar smell sensor.

The odor sensor 74 is a conventional odor detector, and senses whether the helmet 900 has an odor, and transmits the sensing result to the fragrance control member 73 to determine the amount of fragrance sprayed.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 111 of the helmet cleaning, sterilizing, deodorizing and drying method: a scent selection command is received through the scent selection member.

The user can operate the button of the fragrance selector 72 to select his own favorite fragrance, and the fragrance selector 72 receives a corresponding fragrance selection instruction according to the button pressed by the user and transmits the fragrance selection instruction to the fragrance control 73.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 112 of the helmet cleaning, sterilizing, deodorizing and drying method: and releasing one of the corresponding fragrances to the cleaning and sterilizing room of the safety helmet according to the fragrance selection instruction through the fragrance control piece.

The fragrance control member 73 releases a corresponding one of the fragrances 71 to the helmet cleaning and sterilizing compartment 12 according to the fragrance selection command. It should be noted that the fragrance module 70 may have only one fragrance 71 to fixedly emit a fragrance, and the fragrance module 70 may omit the odor sensor 74 and be designed to fixedly emit a certain dosage.

Next, the helmet cleaning sterilization deodorization and drying system 1 performs step 113 of the helmet cleaning sterilization deodorization and drying method: an air is heated by the warm air generating module.

As shown in fig. 2 and 6, the warm air generating module 32 is a heater, and heats the air 903 of the first space 13.

Next, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 114 of the helmet cleaning, sterilizing, deodorizing and drying method: and the first air draft module is used for extracting air to form hot air, and the hot air enters the cleaning and sterilizing chamber of the safety helmet through the air guide pipe and the vent hole so as to dry the safety helmet.

The first air extraction module 37 extracts the heated air 903 to form a hot air 904, and makes the hot air 904 enter the helmet cleaning and sterilizing chamber 12 through the air duct 15 and the vent hole 123 to dry the helmet 900, so that the lining of the helmet 900 is dried to solve the problem of moisture absorption.

Next, the helmet cleaning sterilization deodorization and drying system 1 performs step 115 of the helmet cleaning sterilization deodorization and drying method: a humidity sensor is used for sensing the humidity of the safety helmet.

The humidity sensor 36 is a conventional humidity sensor that senses the humidity of the helmet 900 and transmits the sensing result to the first air suction module 37. If the humidity sensor 36 senses that the helmet 900 is still wet, the first air extraction module 37 receiving the sensing result will extend the time for delivering the hot air 904 to the helmet cleaning and sterilizing compartment 12, so as to ensure that the helmet 900 is sufficiently dried.

Finally, the helmet cleaning, sterilizing, deodorizing and drying system 1 performs step 116 of the helmet cleaning, sterilizing, deodorizing and drying method: the gas in the helmet cleaning and sterilizing compartment 12 is extracted to the outside through the second exhausting module 38.

The second air exhausting module 38 exhausts the air in the helmet cleaning and sterilizing chamber 12 to the outside, so that the inside of the helmet cleaning and sterilizing chamber 12 is kept clean and odorless, and other users can clean the helmet 900 by using the helmet cleaning, sterilizing, deodorizing and drying system 1.

The system and the method for cleaning, sterilizing, deodorizing and drying the helmet can rapidly clean, sterilize, deodorize, remove dust and dry the inner lining of the helmet 900, and can add fragrance to the helmet 900 according to the preference of a user, thereby further increasing the comfort level when the helmet is worn.

It should be noted that some of the above steps may be removed or the order may be adjusted, or the steps may be repeated, such as the steps 104-106 and 113-114, which are important steps may be repeated first.

Of course, the present invention is capable of other various embodiments and its several details are capable of modification and variation in light of the present invention, as will be apparent to those skilled in the art, without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (20)

1. The utility model provides a clean deodorization and drying system that disinfects of safety helmet, cleans a safety helmet through an antibiotic smog cleaning solution, its characterized in that, this clean deodorization and drying system that disinfects of safety helmet includes:

a body;

an ultraviolet lamp module;

a smoke generating module;

a warm air generating module;

a first air draft module;

the control system module is electrically connected with the ultraviolet lamp module, the smoke generating module, the warm air generating module and the first air exhausting module;

the safety helmet cleaning and sterilizing chamber is arranged in the body and comprises a placing space, a table top and at least one vent hole, wherein the placing space is used for placing the safety helmet, the table top is positioned at the bottom of the placing space, and the at least one vent hole is positioned on the table top;

an accommodating space arranged in the body;

a cleaning liquid tank chamber for containing the antibacterial aerosol cleaning liquid; and

a gas conduit which is arranged in the accommodating space and is communicated with the cleaning and sterilizing chamber of the safety helmet;

through the structure, the antibacterial smoke cleaning solution forms clean sterilizing and deodorizing smoke through the smoke generating module, the clean sterilizing and deodorizing smoke enters the clean sterilizing chamber of the safety helmet through the gas conduit and the at least one vent hole, and the warm air generating module is used for heating air to enable the first air exhausting module to generate hot air, and the hot air enters the clean sterilizing chamber of the safety helmet through the gas conduit and the at least one vent hole.

2. The system of claim 1, further comprising an ozone generating module electrically connected to the control system module, the ozone generating module being in communication with the cleaning and sterilizing chamber.

3. The system of claim 1, further comprising an aroma module electrically connected to the control system module for generating aroma.

4. The system of claim 3, wherein the fragrance module comprises a plurality of fragrances and a fragrance selection member for a user to select fragrances.

5. The system of claim 3, further comprising a first turbofan module disposed below the table top and electrically connected to the control system module, the first turbofan module comprising a conduit, the conduit being in communication with the plurality of ventilation holes.

6. The system of any one of claims 1 to 5, further comprising a second turbofan module located at a top of the helmet cleaning and sterilizing chamber and electrically connected to the control system module.

7. The system according to any one of claims 1 to 5, further comprising a liquid conduit and a liquid extraction module, wherein the liquid extraction module extracts the antimicrobial aerosol cleaning liquid to the aerosol generating module via the liquid conduit to form the cleaning, sterilizing and deodorizing aerosol.

8. The helmet cleaning, sterilizing, deodorizing and drying system according to any one of claims 1 to 5, wherein the components of the antimicrobial smoke cleaning liquid comprise water and a smoke agent.

9. The system of any one of claims 1 to 5, further comprising a humidity sensor electrically connected to the control system module, the humidity sensor being located in the clean sterilizing chamber of the helmet and configured to sense a humidity of the helmet.

10. The system according to any one of claims 1 to 5, further comprising a second air extraction module electrically connected to the control system module and located in the clean and sterile room of the helmet, and configured to extract air in the clean and sterile room of the helmet to the outside.

11. The utility model provides a clean deodorization of helmet and stoving method, be applied to a clean deodorization of helmet and stoving system in order to clean a helmet through an antibiotic smog cleaning solution, this clean deodorization of helmet and stoving system include an ultraviolet lamp module, a smog generation module, a warm braw generation module, a first convulsions module, a control system module, a clean sterilization room of helmet, a cleaning solution tank room, a gas pipe, this control system module electric connection should at least ultraviolet lamp module, this smog generation module, this warm braw generation module and this first convulsions module, this clean sterilization room of helmet is used for placing this helmet and includes at least one ventilation hole, this cleaning solution tank room is used for adorning this antibiotic smog cleaning solution, this method includes:

irradiating ultraviolet light to the safety helmet through the ultraviolet lamp module to sterilize;

activating the smoke generating module to heat the smoke generating module;

heating the antimicrobial smoke cleaning solution by the smoke generating module to form a clean sterilizing deodorizing smoke;

the first air draft module enables the clean sterilization and deodorization smoke to enter the clean sterilization chamber of the safety helmet through the gas conduit and the at least one vent hole so as to clean the safety helmet;

heating an air by the warm air generating module; and

and the air is extracted through the first air extraction module to form hot air, and the hot air enters the safety helmet cleaning and sterilizing chamber through the air conduit and the at least one vent hole so as to dry the safety helmet.

12. The method of claim 11, wherein the system further comprises an ozone generating module electrically connected to the control system module, the ozone generating module being in communication with the cleaning and sterilizing chamber, the method further comprising:

ozone is generated to the clean sterilizing room of the safety helmet by the ozone generating module.

13. The method of claim 11, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises an aroma module electrically connected to the control system module and comprising a plurality of fragrances, a fragrance selector, and a fragrance controller, the method further comprising:

receiving a scent selection instruction through the scent selection part;

and releasing one of the corresponding fragrances to the cleaning and sterilizing room of the safety helmet according to the fragrance selection instruction through the fragrance control piece.

14. The method of claim 11, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a first turbofan module, the first turbofan module being located below the table top and electrically connected to the control system module, the method further comprising:

dust below the safety helmet is blown away by the first turbofan module.

15. The method of claim 11, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a second turbo fan module, the second turbo fan module being located at the top of the helmet cleaning, sterilizing chamber and being electrically connected to the control system module, the method further comprising:

dust above the helmet is blown away by the second turbo fan module.

16. The helmet cleaning, sterilizing, deodorizing and drying method according to any one of claims 11 to 15, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a liquid conduit and a liquid extraction module, characterized in that the method further comprises:

and the antibacterial smoke cleaning liquid is pumped to the smoke generating module through the liquid conduit by the liquid pumping module so as to form the cleaning, sterilizing and deodorizing smoke.

17. The method of any one of claims 11 to 15, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a humidity sensor in the helmet cleaning, sterilizing chamber, the humidity sensor being electrically connected to the control system module, the method further comprising:

and sensing the humidity of the safety helmet through the humidity sensor.

18. The method of any one of claims 11 to 15, wherein the fragrance module further comprises a fragrance sensor electrically connected to the fragrance control member, the method further comprising:

whether the safety helmet has peculiar smell or not is sensed by the peculiar smell sensor.

19. The helmet cleaning, sterilizing, deodorizing and drying method according to any one of claims 11 to 15, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a vibration module connected to a table of the placement space and electrically connected to the control system module, wherein the method further comprises:

and vibrating the table top through the vibration module so as to enable dust attached to the safety helmet on the table top to fall down.

20. The method according to any one of claims 11 to 15, wherein the helmet cleaning, sterilizing, deodorizing and drying system further comprises a second air extraction module electrically connected to the control system module and located in the helmet cleaning, sterilizing chamber, the method further comprising: and the second air draft module is used for pumping the air in the clean sterilizing chamber of the safety helmet to the outside.