CN212787907U

CN212787907U - Intelligent purifying cabinet

Info

Publication number: CN212787907U
Application number: CN202021675975.1U
Authority: CN
Inventors: 邹龙
Original assignee: Foshan Xinyuan Lighting Technology Co ltd
Current assignee: Foshan Xinyuan Lighting Technology Co ltd
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2021-03-26
Anticipated expiration: 2030-08-12

Abstract

The utility model relates to the field of sterilization, in particular to an intelligent purification cabinet, which comprises a cabinet body and a placing device arranged in the cabinet body; the placing device comprises a fixed plate, a plurality of purification lamps and a plurality of placing frames are mounted on the fixed plate, the purification lamps are arranged at equal intervals, the placing frames are arranged at equal intervals, and the placing frames are arranged between two adjacent purification lamps; the cabinet body is also internally provided with a plasma generator and a controller, the purification lamp comprises a shell, and a working module and an induction element which are arranged in the shell, and the working module comprises a lighting module, a sterilization module and a purification module; the controller is respectively connected with the plasma generator, the induction element, the lighting module, the sterilization module and the purification module; the utility model discloses a lighting module who sets up in the purification lamp of setting can throw light on to the internal of cabinet, and sterilization module and purification module then can be fine carry out sterilization to the internal disinfection of disinfecting of cabinet.

Description

Intelligent purifying cabinet

Technical Field

The utility model relates to a field of disinfecting especially relates to an intelligent purification cabinet.

Background

The cabinet is cabinet type furniture for storing articles such as clothes, shoes and the like, and is one of furniture commonly used in families, schools and hotels, as is well known, articles such as clothes, shoes and the like are placed in the cabinet for a long time, the articles such as the clothes, the shoes and the like are easy to get mildewed due to poor ventilation and air permeability of the cabinet in humid seasons, air humidity is high, the articles such as the clothes, the shoes and the like are easy to get mildewed, peculiar smell can be generated even if worms, bacteria and the like grow in the articles such as the clothes, the shoes and the like, the clothes are not sanitary when being worn on the body, skin itch of a user can be seriously caused even skin diseases occur, foot infection can be caused when the shoes are worn on the feet, but the existing cabinet is not provided with a sterilizing lamp specially used for the cabinet, and.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an intelligent purification cabinet which can be cleaned up aiming at insects and bacteria on the articles such as clothes and shoes.

The utility model adopts the technical proposal that: an intelligent purification cabinet comprises a cabinet body and a placing device arranged in the cabinet body; the placing device comprises a fixed plate, a plurality of purification lamps and a plurality of placing frames are mounted on the fixed plate, the purification lamps are arranged at equal intervals, the placing frames are arranged at equal intervals, and the placing frames are arranged between two adjacent purification lamps; the cabinet body is also internally provided with a plasma generator and a controller, the purification lamp comprises a shell, and a working module and an induction element which are arranged in the shell, and the working module comprises a lighting module, a sterilization module and a purification module; the controller is respectively connected with the plasma generator, the induction element, the lighting module, the sterilization module and the purification module.

The technical scheme is further improved in that the controller is arranged on the fixed plate, a single chip microcomputer is arranged in the controller, and the single chip microcomputer is respectively connected with the illumination module, the sterilization module, the purification module, the induction element and the plasma generator; the model of the single chip microcomputer is HS 2300-P.

The technical scheme is further improved in that the sensing element is arranged on the shell, the sensing element is an infrared probe, and the infrared probe is connected with the single chip microcomputer; the plasma generator is arranged on the inner wall of the cabinet body and is provided with a high-voltage oscillation module.

The technical scheme is further improved in that the lighting module comprises an LED lamp, the LED lamp is arranged in the shell, and the LED lamp is connected with the controller.

The technical scheme is further improved in that the sterilization module comprises a UVC LED lamp, the UVC LED lamp is installed in the shell and connected with the controller, and the surface of the UVC LED lamp is coated with a high polymer material.

In a further improvement of the above technical solution, the purification module includes a UVA LED lamp, the UVA LED lamp is installed in the housing, and the UVA LED lamp is connected to the controller.

The technical scheme is further improved in that the UVC LED lamp and the UVA LED lamp do not work when the LED lamps work.

The further improvement of the technical scheme is that the shell comprises an upper shell and a lower shell, the lower shell is provided with a female buckle, the upper shell is provided with a male buckle, and the upper shell is arranged on the lower shell through the cooperation of the male buckle and the female buckle.

The technical scheme is further improved in that the lower shell is provided with a first mounting hole, a second mounting hole and a third mounting hole, the first mounting hole is used for mounting an induction element, and the second mounting hole and the third mounting hole are used for mounting a UVA LED lamp.

The further improvement to the technical scheme is that the drying device is further included, the drying device comprises a dryer and a humidity detector, the dryer and the humidity detector are both installed on the inner wall of the cabinet body, and the humidity detector is connected with the dryer.

The utility model has the advantages as follows: illumination module in the purification lamp is arranged in giving the cabinet internal illumination, makes things convenient for the people to take and puts clothes, shoes etc. by the storing, and sterilization module in the purification lamp is used for killing clothes, shoes etc. by the bacterium on the storing with purification module combination, makes clothes, shoes etc. become clean by the storing, avoids causing people to appear the dermatosis because breeding of bacterium, and sets up dust etc. that plasma generator can air-purifying, also has certain bactericidal effect simultaneously.

Drawings

FIG. 1 is a schematic structural view of the intelligent purification cabinet of the present invention;

FIG. 2 is a schematic diagram of the purge lamp of FIG. 1;

FIG. 3 is a schematic diagram of the working principle module of the intelligent purification cabinet of the present invention;

FIG. 4 is a schematic diagram of a working principle module of the intelligent purification cabinet of FIG. 3;

fig. 5 is a schematic diagram of a working principle module of a single chip microcomputer in the intelligent purification cabinet in fig. 4.

Description of reference numerals: 10-cabinet body, 11-support frame, 20-placing device, 21-fixing plate, 22-placing frame, 30-purifying lamp, 31-shell, 32-upper shell, 33-lower shell, 34-male buckle, 35-female buckle, 36-first mounting hole, 37-second mounting hole, 38-third mounting hole, 39-power interface, 40-working module, 41-lighting module, 42-sterilization module, 43-purifying module, 50-sensing element, 51-infrared probe, 60-plasma generator, 70-controller, 71-single chip microcomputer, 80-drying device, 81-drying machine and 82-humidity detector.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 5, an intelligent purification cabinet includes a cabinet body 10 and a placement device 20 installed in the cabinet body 10; the purifying lamps 30 are arranged on the placing device at equal intervals, and a plasma generator 60, an induction element 50 and a controller 70 are also arranged in the cabinet body 10; the work module 40 is installed in the purification lamp 30, the work module 40 is connected with the controller 70, and the controller 70 is respectively connected with the work module 40, the induction element 50 and the plasma generator 60; a drying device 80 for drying is further installed in the cabinet 10. In the embodiment, the cabinet 10 may be a wardrobe, a shoe cabinet, a bookcase, or the like, which is used for storing articles.

The placing device 20 comprises a fixing plate 21, a plurality of placing frames 22 are mounted on the fixing plate 21, the placing frames 22 are arranged at equal intervals, and the placing frames 22 are arranged between two adjacent purification lamps 30; so that when the stored articles are placed, the stored articles can be uniformly illuminated, so that the stored articles can be uniformly sterilized.

The purge lamp 30 includes a housing 31, the housing 31 includes an upper housing 32 and a lower housing 33, the lower housing 33 has a female buckle 35, the upper housing 32 has a male buckle 34, and the upper housing 32 is mounted on the lower housing 33 by the male buckle 34 cooperating with the female buckle 35. The lower case 33 is provided with a first mounting hole 36, a second mounting hole 37 and a third mounting hole 38, the first mounting hole 36 being used for mounting the sensing element 50, and the second mounting hole 37 and the third mounting hole 38 being used for mounting the purification module operation module 40. In this embodiment, the housing 31 is further provided with a power interface 39, the power interface 39 is a Micro interface, and the power interface 39 can be externally connected to a power supply or a charger to provide a power source for the purification lamp 30. In this embodiment, the upper housing 32 is provided with a gas hole (not shown) for the circulation of gas.

The working module 40 is mounted to the housing 31, and the working module 40 includes an illumination module 41, a sterilization module 42, and a purification module 43. In the present embodiment, the lighting module 41 includes an LED lamp (not shown), the LED lamp is installed in the housing 31, the LED lamp is connected to the controller 70, and the turn-on time of the LED lamp is 90 seconds; the sterilization module 42 comprises a UVC LED lamp (not shown), the UVC LED lamp is installed in the housing 31, the UVC LED lamp is connected to the controller 70, and the UVC LED lamp is turned on for 15 minutes and then turned off for 120 minutes, so that the operation is cycled, in this embodiment of the market, the UVC LED lamp is installed in the housing 31, the surface of the UVC LED lamp is coated with a polymer material, the polymer material is titanium dioxide, and the titanium dioxide can not only adsorb volatile organic compounds, but also react with short-wave ultraviolet rays generated by the UVC LED lamp to generate ozone for sterilization; the purification module 43 includes a UVA LED lamp (not shown) installed in the housing 31, the UVA LED lamp being connected to the controller 70, the UVA LED lamp being installed in the second and

third installation holes

37 and 38, and the UVA LED lamp being automatically turned off for 60 minutes after being turned on for 60 minutes, and thus being cycled. The UVC LED lamp and the UVA LED lamp do not work when the LED lamps work. When someone opens the cabinet, the sensing element 50 detects the human body heat source, the controller 70 controls the illumination module 41 to work, the LED lights are on, the normal situation is on for 90 seconds, and when the human body heat source is detected to exist all the time, the illumination module 41 will work continuously. If the heat source disappears, the sensing element 50 cannot detect a heat source signal, the controller 70 controls the lighting module 41 to be turned off, the LED lamp to be turned off, the controller 70 controls the sterilization module 42 and the staticizing module 43 to be turned on, the sterilization module 42 is automatically stopped for 120 minutes after being started for about 15 minutes, and the operation is circulated. The circuit of the staticizing module 43 is switched on for 60 minutes and then switched off for 60 minutes, and the operation is cycled. Whether or not the sterilization module 42 or the staticizing module 43 is in progress, such as when the cabinet is turned on again, the controller 70 controls all functions to be stopped immediately, then controls the lighting module 41 to be turned on, and then recycles the above functions. The LED lamp is used for daily illumination; the UVC LED lamp can emit short-wave ultraviolet rays, the short-wave ultraviolet rays react with titanium dioxide on the surface of the UVC LED lamp to generate ozone, and the generated ozone is emitted into the cabinet body 10 through the air holes to sterilize stored articles; the UVA LED lamp can send out the long wave ultraviolet ray, because the long wave ultraviolet ray has very strong penetrability, so can be to clothes, shoes etc. by the inside short wave ultraviolet ray of storing and can not the place that penetrates go through disinfection of disinfecting, further improve the bactericidal ability of purifying lamp.

The sensing element 50 is mounted on the first mounting hole 36, the sensing element 50 is an infrared probe 51, and the infrared probe 51 is connected with the controller 70; the infrared probe 51 can detect a human body heat source, when a person opens the cabinet, the detected information can be fed back to the controller 70, and the controller 70 controls the LED lamp on the lighting module 41 to work.

The plasma generator 60 is installed on the inner wall of the cabinet 10, and the plasma generator 60 has a high voltage oscillating module for converting an input dc low voltage into a high voltage. Plasma generator 60's setting can be with the direct current low voltage of input rely on its inside oscillation module who sets up to change into high voltage, to purify the dust in the air, improves the clean and tidy degree in the cabinet body 10, reduces breeding of bacterium, and the last plasma that produces of plasma generator simultaneously can be used for disinfecting and sterilizing, further improves the sterilization and disinfection ability of the cabinet body 10.

The controller 70 is installed on the fixing plate 21, a single chip microcomputer 71 is installed in the controller 70, and the single chip microcomputer 71 is respectively connected with the LED lamp, the UVC LED lamp, the UVA LED lamp, the induction element 50 and the plasma generator 60; the single chip microcomputer 71 is used for controlling the work of each component, and the model number of the single chip microcomputer 71 is HS 2300-P. Due to the arrangement of the single chip microcomputer 71, work among the components can be effectively controlled, and the situation that the cabinet body is not favorable for sterilization and disinfection due to disordered work is avoided.

Drying device 80 is installed in cabinet 10, and drying device 80 includes drying-machine 81 and moisture detector 82, and moisture detector 82 links to each other with drying-machine 81. When humidity detector 82 detects that the humidity in the cabinet body 10 exceeds the default, can feed back information to drying-machine 81, drying-machine 81 starts work and comes to dry in the cabinet body 10, avoids the interior humidity of cabinet body 10 too high to lead to being stored article to breed the bacterium.

The utility model discloses a theory of operation does: after the whole body is electrified, the purification lamp 30 carries out self-checking, the LED lamp of the illumination module 41 is in a standby state after being turned on for forty seconds, when a person opens the cabinet, the sensing element 50 detects a human body heat source and sends detected information to the single chip microcomputer 71, the single chip microcomputer 71 controls the illumination module 41 to work, the normal situation is that the illumination module 41 is started for 90 seconds, and when the human body heat source is detected to exist all the time, the illumination module 41 can continuously work. If the heat source disappears, the sensing element 50 cannot detect a heat source signal, the lighting module 41 is turned off, then the single chip microcomputer 71 controls the sterilization module 42 and the staticizing module 43 to work, the sterilization module 42 starts to work for about 15 minutes and then automatically stops for 120 minutes, and the process is circulated. The circuit of the staticizing module 43 is turned on for 60 minutes and then turned off for 60 minutes, and the process is repeated. Whether the sterilization module 42 or the staticizing module 43 is in process or not, if the cabinet is turned on again, the single chip microcomputer 71 controls all the modules to stop working immediately, then controls the lighting circuit module to work again, and then recycles the functions.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An intelligent purification cabinet is characterized by comprising a cabinet body and a placing device arranged in the cabinet body; the placing device comprises a fixed plate, a plurality of purification lamps and a plurality of placing frames are mounted on the fixed plate, the purification lamps are arranged at equal intervals, the placing frames are arranged at equal intervals, and the placing frames are arranged between two adjacent purification lamps; the cabinet body is also internally provided with a plasma generator and a controller, the purification lamp comprises a shell, and a working module and an induction element which are arranged in the shell, and the working module comprises a lighting module, a sterilization module and a purification module; the controller is respectively connected with the plasma generator, the induction element, the lighting module, the sterilization module and the purification module.

2. The intelligent purification cabinet according to claim 1, wherein the controller is mounted on the fixing plate, a single chip microcomputer is mounted in the controller, and the single chip microcomputer is respectively connected with the illumination module, the sterilization module, the purification module, the induction element and the plasma generator; the model of the single chip microcomputer is HS 2300-P.

3. The intelligent purification cabinet according to claim 2, wherein the sensing element is mounted on the housing, the sensing element is an infrared probe, and the infrared probe is connected with the single chip microcomputer; the plasma generator is arranged on the inner wall of the cabinet body and is provided with a high-voltage oscillation module.

4. The intelligent purification cabinet of claim 1, wherein the lighting module comprises an LED lamp mounted within the housing, the LED lamp being connected to the controller.

5. The intelligent purification cabinet of claim 4, wherein the sterilization module comprises UVC LED lamps mounted within the housing, the UVC LED lamps being connected to the controller, the UVC LED lamps being surface coated with a polymeric material.

6. The intelligent decontamination cabinet of claim 5, wherein the decontamination module comprises UVA LED lights mounted within the housing, the UVA LED lights being connected to the controller.

7. The intelligent purification cabinet of claim 6, wherein the UVC LED lights and the UVA LED lights are both not operational when the LED lights are operational.

8. The intelligent purification cabinet of claim 1, wherein the housing comprises an upper housing and a lower housing, the lower housing has a female button, the upper housing has a male button, and the upper housing is mounted to the lower housing through the mating of the male button and the female button.

9. The intelligent purification cabinet of claim 8, wherein the lower housing is provided with a first mounting hole, a second mounting hole and a third mounting hole, the first mounting hole is used for mounting the inductive element, and the second mounting hole and the third mounting hole are used for mounting the purification module.

10. The intelligent purification cabinet according to claim 1, further comprising a drying device, wherein the drying device comprises a dryer and a humidity detector, the dryer and the humidity detector are both mounted on the inner wall of the cabinet body, and the humidity detector is connected with the dryer.