CN117873230A - Control method for intelligent shoe box - Google Patents
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- CN117873230A CN117873230A CN202310247995.0A CN202310247995A CN117873230A CN 117873230 A CN117873230 A CN 117873230A CN 202310247995 A CN202310247995 A CN 202310247995A CN 117873230 A CN117873230 A CN 117873230A
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- Apparatus For Disinfection Or Sterilisation (AREA)
Abstract
The invention provides a control method for an intelligent shoe box, which comprises a box body, an air supply mechanism, a filtering mechanism and a control mechanism, wherein the air supply mechanism, the filtering mechanism and the control mechanism are arranged on the box body; the air supply mechanism is provided with a fan assembly, a heating assembly and a plasma generation assembly, the filtering mechanism is provided with a sterilizing assembly and a media touch assembly, and the control mechanism is provided with a control circuit board and a control panel; by adopting the control method of the intelligent shoe box, when the shoe is finished to be treated and taken away from the shoe box, the time for the control circuit board to maintain working of the whole equipment is defined by triggering timing, fresh air is continuously input at the moment and waste gas is output until the time is reached, and all functional modules are correspondingly controlled to be closed successively, so that the gas and odor remained in the shoe box can be thoroughly removed and decomposed, the cleanliness of the device before the next working is ensured, waste gas residue is further avoided, and the treatment strength and the exhaust effect on the waste gas are greatly improved.
Description
Technical Field
The invention relates to the technical field of intelligent home furnishing, in particular to a control method for an intelligent shoe box.
Background
The traditional shoe storage device, namely a shoe cabinet commonly used in home at present, is mainly used for realizing the storage function of shoes, generally has no functions of disinfecting and deodorizing the shoes, and the like, so that the shoes are stored in shoe boxes for users who often sweat feet, bacteria are easy to breed, the shoes which are frequently bred with bacteria are easy to infect and produce beriberi, and the physical and mental health of people is further influenced.
In addition, the foot odor is often caused by foot bacteria, which are known to be related to staphylococcus epidermidis, anaerobes, fungi and bacillus subtilis, and these bacteria decompose sebum and dead cells in the foot, and as well as rotten meat, are decomposed into ammonia gas to form odor. Staphylococcus epidermidis is a bacterium existing in normal skin conditions, and the bacterium breaks down leucine in sweat to produce isovaleric acid, which causes special odor. In a further aspect, the main chemical components of foot odor are mainly methyl mercaptan and short chain fatty acids.
Therefore, the existing shoe cabinet is only used for storing shoes, and although some shoe cabinets can be used for disinfecting and deodorizing the shoes, the existing shoe cabinet still adopts a simpler and inefficient treatment mode, frequent manual operation of a user is also needed, the intelligent degree is very low, the nursing effect on the shoes is very limited, and the use is very inconvenient.
Disclosure of Invention
In view of the above, the present invention is directed to a control method for an intelligent shoe box to solve the above-mentioned problems.
The invention adopts the following scheme:
the application provides a control method for an intelligent shoe box, which comprises a box body, an air supply mechanism, a filtering mechanism and a control mechanism, wherein the air supply mechanism, the filtering mechanism and the control mechanism are arranged on the box body; the air supply mechanism is provided with a fan assembly, a heating assembly and a plasma generation assembly, the filtering mechanism is provided with a sterilizing assembly and a media touch assembly, and the control mechanism is provided with a control circuit board and a control panel; the control method of the intelligent shoe box comprises the following steps of:
s1: the shoes are placed at the appointed position in the box body according to the requirements and are operated on the control panel to start the whole machine;
s2: the fan assembly is opened through the control circuit board, and external fresh air is continuously conveyed into the box body;
s3: simultaneously, a heating assembly and a plasma generating assembly are opened, constant-temperature control heating is carried out on the input fresh air, the heated fresh air forms plasma through gas conduction, and the heated plasma airflow is output for shoes;
s4: when the plasma air flow in the box body is used and accumulated to reach a preset value, discharging, opening a sterilizing component for sterilizing and filtering discharged waste gas, and further inputting the waste gas into a media contact component for purifying and discharging the waste gas out of the box body;
s5: when shoes are taken out from the box body, the timing is triggered and fed back to the control circuit board, at the moment, the intelligent shoe box continues to work until the timing time is reached, and the fan assembly, the heating assembly, the plasma generating assembly and the sterilizing assembly are sequentially closed through the control circuit board.
As a further improvement, the timing time is set to be more than 30mi n, the fan assembly, the heating assembly and the plasma generating assembly are turned off immediately before and after, and the sterilizing assembly is turned off between 15mi n and 30mi n.
As a further improvement, the heating component is a PTC heating element which is electrically connected to the control circuit board through NTC constant temperature control and is used for heating fresh air to 40-50 ℃ and keeping the temperature constant.
As a further improvement, the plasma generating component converts the heated fresh air into a plasma air flow in a gas conducting mode, and the plasma air flow at least contains ozone to be input into a space where shoes are located, and forms a circulating air flow for cleaning the shoes.
As a further improvement, the positively and negatively charged plasma hot air in the circulating air flow is filled into the space where the shoes are located, and at least can sterilize, disinfect, dry and remove peculiar smell.
As a further improvement, when the plasma air flow is filled to more than 2/3 of the space, the corresponding trigger control circuit board turns on the ultraviolet lamp of the sterilizing component.
As a further improvement, at least a front-end ultraviolet lamp with a wavelength band of 200nm to 280nm and a rear-end ultraviolet lamp with a wavelength band of 250nm to 270nm are provided.
As a further improvement, the media contact assembly comprises a cold catalyst in direct contact with the exhaust gas; and the front ultraviolet lamp is arranged in front of the cold catalyst, and the rear ultraviolet lamp is arranged behind the cold catalyst and used for sterilizing and decomposing waste gas for a plurality of times.
As a further improvement, the cold catalyst is configured into a honeycomb-shaped filter block with the surface having the capillary adsorption capability of catalyst spraying, and the filter block has low-temperature oxidation activity and is used for oxidizing and decomposing organic odor substances so as to remove odor.
As a further improvement, the shoe-protection device also comprises a monitoring mechanism, wherein the monitoring mechanism is used for monitoring the temperature and the humidity of the whole machine in real time and feeding back the temperature and the humidity to the control circuit board so as to maintain the constant temperature and the humidity, so that shoes are not damaged.
By adopting the technical scheme, the invention can obtain the following technical effects:
the utility model provides a control method for intelligent shoe box, can intelligent realization be further disinfect, dry and remove the peculiar smell to the shoes of placing in the shoe box after the panel starts through controlling, in the air supply mechanism that especially is equipped with is used for inputing new trend to the shoe box, carry out a series of constant temperature heating, plasma generation in order to handle the new trend into the plasma air current after being suitable for the heating that shoes used, and, the filtering mechanism who is equipped with further carries out the disinfection to the exhaust gas that needs after the use and filters and purification treatment, ensure that the waste gas that exports outside the shoe box can not cause secondary pollution to external environment. After shoes are taken away from the shoe boxes after finishing processing, the time for the control circuit board to maintain working of the whole equipment is limited by triggering timing, fresh air is continuously input at the moment, waste gas is output, all functional modules are closed correspondingly and controlled successively until reaching the time, the gas and odor remained in the shoe boxes can be thoroughly removed, the cleanliness of the device before the next working is ensured, the waste gas residue is further avoided, and the processing force and the exhaust effect of the waste gas are greatly improved.
Drawings
FIG. 1 is a flow chart of a control method for an intelligent shoe box in accordance with an embodiment of the present invention;
FIG. 2 is a control block diagram for a smart shoe box in accordance with an embodiment of the present invention;
FIG. 3 is a schematic view of the structure of an intelligent shoe box according to an embodiment of the present invention;
FIG. 4 is a schematic view of the upper cover portion of the case of FIG. 3;
FIG. 5 is an exploded view of a smart shoe box according to an embodiment of the present invention;
FIG. 6 is a cross-sectional view of a smart shoe box in accordance with an embodiment of the present invention;
FIG. 7 is a schematic view of the structure of the upper cover portion of the intelligent shoe box according to the embodiment of the present invention;
FIG. 8 is another cross-sectional view of an intelligent shoe box according to an embodiment of the present invention, wherein the arrow direction indicates the flow direction of fresh air and exhaust air;
FIG. 9 is a cross-sectional view of an additional view of an intelligent shoe box, wherein the direction of the arrow indicates the direction of the circulating air flow after fresh air is input, according to an embodiment of the present invention.
Icon: 1-a box body; 2-an air supply mechanism; a 21-fan assembly; 22-a heating assembly; a 23-plasma generating assembly; 231-plasma trigger; 232-a plasma generator; 3-a filtering mechanism; 31-a kill assembly; 311-ultraviolet lamp; 312-a filter; a 32-media touch component; 4-a control mechanism; 41-a control circuit board; 42-a control panel; 6-sensor.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.
Examples
Referring to fig. 1 to 9, the present embodiment provides a control method for an intelligent shoe box, which includes a box body 1, and an air supply mechanism 2, a filtering mechanism 3, and a control mechanism 4 disposed in the box body 1. The air supply mechanism 2 is provided with a fan assembly 21, a heating assembly 22 and a plasma generating assembly 23, the filtering mechanism 3 is provided with a sterilizing assembly 31 and a media touch assembly 32, and the control mechanism 4 is provided with a control circuit board 41 and a control panel 42. The control method of the intelligent shoe box comprises the following steps:
s1: the shoes are placed at the appointed position in the box body 1 according to the requirements and are operated on the control panel 42 to start the whole machine;
s2: the fan assembly 21 is turned on through the control circuit board 41, and external fresh air is continuously conveyed into the box body 1;
s3: simultaneously, the heating component 22 and the plasma generating component 23 are opened, the input fresh air is heated in a constant temperature control manner, the heated fresh air forms plasma through gas conduction, and the heated plasma airflow is output for shoes;
s4: when the plasma air flow in the box body 1 is used and accumulated to reach a preset value, the plasma air flow is discharged, the sterilizing component 31 is opened for sterilizing and filtering the discharged waste gas, and the waste gas is further input into the media contact component 32 for purification and is discharged out of the box body 1;
s5: when the shoes are taken out from the box body 1, the timing is triggered and fed back to the control circuit board 41, at this time, the intelligent shoe box continues to work until the timing time is reached, and the fan assembly 21, the heating assembly 22, the plasma generating assembly 23 and the sterilizing assembly 31 are sequentially turned off through the control circuit board 41.
The control method can intelligently realize further sterilization, disinfection, drying and peculiar smell removal of the shoes placed in the shoe boxes after the control panel 42 is started, and particularly, the air supply mechanism 2 is arranged to input fresh air into the shoe boxes, perform a series of constant-temperature heating and plasma generation to process the fresh air into heated plasma air flow suitable for the shoes, and the filtering mechanism 3 is arranged to further perform disinfection, filtration and purification treatment on the waste gas required to be discharged after the use, so that the waste gas output outside the shoe boxes is ensured not to cause secondary pollution to the external environment.
After the shoe is finished and is taken away from the shoe box, the time for the control circuit board 41 to maintain working of the whole equipment is defined by triggering timing, fresh air is continuously input at the moment, waste gas is output, all functional modules are correspondingly controlled to be closed successively until reaching the time, the gas and odor remained in the shoe box can be thoroughly removed and decomposed, the cleanliness of the device before the next working is ensured, the waste gas residue is further avoided, and the treatment force and the exhaust effect of the waste gas are greatly improved.
In this embodiment, the time is set to be greater than 30mi n, and the fan assembly 21, the heating assembly 22 and the plasma generating assembly 23 are turned off immediately before and after, and the sterilizing assembly 31 is turned off between 15mi n and 30mi n. Preferably, the time counted is in the range of 30mi n-8H, which enables a more pronounced net gas effect to be achieved. It should be noted that the setting of the time after the removal of the shoe may be further achieved by providing a timer (not shown), and the corresponding closing of the functional components is further controlled by the control circuit board 41 after triggering the timer until the set time is reached. And after all functional components of the air supply mechanism 2 are closed immediately, the input of external fresh air is stopped, and waste gas to be discharged is still reserved in the box body 1 at the moment, and the sterilizing component 31 of the filtering mechanism 3 is delayed to be closed, so that the further effective treatment of the residual waste gas is facilitated.
As shown in fig. 4, 5 and 6, in the present embodiment, the heating assembly 22 is a PTC heating element electrically connected to the control circuit board 41 through NTC thermostatic control for heating fresh air to between 40 ℃ and 50 ℃ and keeping the temperature constant. The PTC heating element is composed of a PTC ceramic heating element and an aluminum tube, has the advantages of small thermal resistance and high heat exchange efficiency, can avoid over-fast heating, keeps moderate temperature, and has better safety performance. In addition, an NTC temperature control circuit is provided in the control circuit board 41 to realize a constant temperature control such that the temperature of the air flow inputted into the case 1 is dried at a constant temperature of 45 ℃ and the shoes are kept as new without being damaged.
In this embodiment, the plasma generating component converts the heated fresh air into a plasma air flow in a gas conductive manner, and the plasma air flow at least contains ozone to be input into a space where the shoes are located, and forms a circulating air flow for cleaning the shoes. The plasma generating assembly 23 includes a plasma trigger head 231 and a plasma generator 232, the plasma generator 232 is electrically connected with the plasma trigger head 231, and the plasma trigger head 231 is inserted and installed in the fresh air path to contact with the fresh air, so that electric energy is utilized to generate arc discharge, and the fresh air is processed into plasma air flow with ozone.
As shown in fig. 8 and 9, in the present embodiment, the positively and negatively charged plasma hot air in the circulating air flow fills the space where the shoes are located, and at least can sterilize, disinfect, dry and deodorize the shoes. Wherein, the positive and negative ion impact discharge of plasma can directly kill bacteria and to the oxidation reaction of stink, and the process of positive and negative ion impact discharge of plasma can produce a small amount of ozone simultaneously, and ozone can carry out secondary deodorization and disinfect to the stink and the bacterium of shoes, and the positive and negative charged plasma hot air that directly blows out simultaneously fills to inside whole box body 1 to ensure that shoes can inside and outside disinfect, stoving and remove the peculiar smell simultaneously, reach the effect of optimal disinfection and deodorization. In addition, the high-energy electrons, hydroxyl and free radicals in the plasma field kill bacteria, viruses and other harmful gases in the air, meanwhile, oxidation-reduction reaction is carried out on the odor substances, the generated hydroxyl can purify surrounding bacteria, kill and degrade viruses, and the generated high-energy electrons can break down the cell nuclei of bacteria to inactivate the bacteria rapidly.
In this embodiment, when the plasma gas flow is full of more than 2/3 of the space, the ultraviolet lamp 311 of the sterilizing module 31 is turned on corresponding to the trigger control circuit board 41. Obviously, a pressure sensor may be disposed in the case 1, and when the pressure sensor obtains that the internal plasma airflow reaches a pressure of more than 2/3 of the internal space, the pressure sensor 6 is correspondingly triggered to feed back an electric signal to the control circuit board 41, so as to control the ultraviolet lamp 311 to be turned on, and the ultraviolet lamp 311 is used for performing secondary sterilization and odor decomposition on the exhaust gas to be exhausted. Along with the continuous replenishment of fresh air in the whole process, the air pressure in the box is obviously greater than the air pressure outside the box, so that redundant waste gas can be extruded outside the box body 1.
In the present embodiment, at least a front ultraviolet lamp 311 (shown in fig. 9) having a wavelength band of 200nm to 280nm and a rear ultraviolet lamp 311 (shown in fig. 7) having a wavelength band of 250nm to 270nm are provided. Therefore, sterilization treatment can be carried out in a plurality of wave bands, particularly ultraviolet light in a 254nm wave band has the best ozone decomposition effect, and the excessive gas can be overflowed to the outside of the box body 1 after ozone treatment.
In this embodiment, the media contact assembly 32 includes a cold catalyst in direct contact with the exhaust gas. And the front ultraviolet lamp 311 is arranged in front of the cold catalyst, and the rear ultraviolet lamp 311 is arranged behind the cold catalyst and used for sterilizing and decomposing the waste gas for a plurality of times. Wherein, the cold catalyst is configured into a honeycomb porous filter block with capillary adsorption capability of catalyst spraying on the surface, and the filter block has low-temperature oxidation activity and is used for oxidizing and decomposing organic odor substances so as to remove odor. And, after the exhaust gas after the cold catalyst treatment is further treated by the post ultraviolet lamp 311, the harmful substances in the exhaust gas can be thoroughly decomposed and removed, so that the exhaust gas is more cleanly discharged out of the box body 1.
As shown in fig. 7 and 9, the filtering mechanism 3 is provided with a filtering piece 312 at a position adjacent to the front ultraviolet lamp 311, and a filter element in the filtering piece 312 can effectively block macromolecular gases and organic matters and slow down the discharge speed of the gases, the filter element is provided with a cover lint melt-blown net film, so that the macromolecular gases and the organic matters can be effectively isolated and attached to the filter element, and the filter element contains substances similar to active carbon with micro-pore adsorption, so that a small amount of exhausted odor and grease can be effectively adsorbed and released slowly. The decomposed and filtered gas is then transferred to cold catalyst to eliminate bad smell and harmful matter thoroughly. In this embodiment, the filter element of the filter element 312 can at least filter impurities such as water vapor, mist oil, aerogel, etc., and can effectively contribute to subsequent purification of exhaust gas.
As shown in fig. 5, in this embodiment, the intelligent shoe box further includes a monitoring mechanism, where the monitoring mechanism is used to monitor the temperature and humidity of the whole machine in real time, and feed back the temperature and humidity to the control circuit board 41 to maintain the temperature and humidity constant, so as to avoid damaging the shoes. The monitoring mechanism comprises a sensor 6, the sensor 6 is connected with the control circuit board 41 and is arranged in the box body 1 and used for monitoring environmental information such as temperature and humidity in the box and feeding back the environmental information to the control circuit board 41, so that the heating treatment of fresh air can be actively and intelligently regulated and controlled.
The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention.
Claims (10)
1. The control method for the intelligent shoe box is characterized in that the intelligent shoe box comprises a box body, and an air supply mechanism, a filtering mechanism and a control mechanism which are arranged on the box body; the air supply mechanism is provided with a fan assembly, a heating assembly and a plasma generation assembly, the filtering mechanism is provided with a sterilizing assembly and a media touch assembly, and the control mechanism is provided with a control circuit board and a control panel;
the control method of the intelligent shoe box comprises the following steps of:
s1: the shoes are placed at the appointed position in the box body according to the requirements and are operated on the control panel to start the whole machine;
s2: the fan assembly is opened through the control circuit board, and external fresh air is continuously conveyed into the box body;
s3: simultaneously, a heating assembly and a plasma generating assembly are opened, constant-temperature control heating is carried out on the input fresh air, the heated fresh air forms plasma through gas conduction, and the heated plasma airflow is output for shoes;
s4: when the plasma air flow in the box body is used and accumulated to reach a preset value, discharging, opening a sterilizing component for sterilizing and filtering discharged waste gas, and further inputting the waste gas into a media contact component for purifying and discharging the waste gas out of the box body;
s5: when shoes are taken out from the box body, the timing is triggered and fed back to the control circuit board, at the moment, the intelligent shoe box continues to work until the timing time is reached, and the fan assembly, the heating assembly, the plasma generating assembly and the sterilizing assembly are sequentially closed through the control circuit board.
2. The control method for intelligent shoe boxes according to claim 1, wherein the timed time is set to be greater than 30min, the fan assembly, the heating assembly and the plasma generating assembly are turned off immediately before and after, and the sterilization assembly is turned off between 15min and 30 min.
3. The control method for intelligent shoe boxes according to claim 1, characterized in that the heating assembly is a PTC heating element electrically connected to a control circuit board through NTC thermostatic control for heating fresh air to between 40 ℃ and 50 ℃ and keeping the temperature constant.
4. The control method for intelligent shoe box according to claim 1, wherein the plasma generating component converts the heated fresh air into a plasma air flow in a gas conducting mode, and the plasma air flow at least contains ozone to be input into a space where shoes are located, and forms a circulating air flow for cleaning the shoes.
5. The control method for intelligent shoe boxes according to claim 4, wherein the positively and negatively charged plasma hot air in the circulating air flow fills the space where the shoes are located, and at least can sterilize, disinfect, dry and deodorize the shoes.
6. The control method for intelligent shoe boxes according to claim 5, wherein when the plasma air flow is full of more than 2/3 of the space, the ultraviolet lamp of the sterilizing component is correspondingly triggered to be started by the control circuit board.
7. The control method for intelligent shoe boxes according to claim 6, characterized in that at least a front ultraviolet lamp with a wavelength band of 200nm to 280nm and a rear ultraviolet lamp with a wavelength band of 250nm to 270nm are provided.
8. The control method for intelligent shoe boxes according to claim 7, characterized in that the medium contact assembly comprises a cold catalyst in direct contact with the exhaust gas; and the front ultraviolet lamp is arranged in front of the cold catalyst, and the rear ultraviolet lamp is arranged behind the cold catalyst and used for sterilizing and decomposing waste gas for a plurality of times.
9. The control method for intelligent shoe box according to claim 8, wherein the cold catalyst is configured as a honeycomb porous filter block with capillary adsorption capability of catalyst spraying on the surface, and the filter block has low-temperature oxidation activity for oxidative decomposition of organic odor substances to remove odor.
10. The control method for the intelligent shoe box according to claim 1, further comprising a monitoring mechanism, wherein the monitoring mechanism is used for monitoring the temperature and the humidity of the whole machine in real time and feeding back to the control circuit board so as to maintain the temperature and the humidity constant, so that shoes are not damaged.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202310247995.0A CN117873230A (en) | 2023-03-15 | 2023-03-15 | Control method for intelligent shoe box |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202310247995.0A CN117873230A (en) | 2023-03-15 | 2023-03-15 | Control method for intelligent shoe box |
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| Publication Number | Publication Date |
|---|---|
| CN117873230A true CN117873230A (en) | 2024-04-12 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202310247995.0A Pending CN117873230A (en) | 2023-03-15 | 2023-03-15 | Control method for intelligent shoe box |
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| Country | Link |
|---|---|
| CN (1) | CN117873230A (en) |
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2023
- 2023-03-15 CN CN202310247995.0A patent/CN117873230A/en active Pending
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