CN219784317U

CN219784317U - Low-temperature plasma nano sterilizer

Info

Publication number: CN219784317U
Application number: CN202222990680.9U
Authority: CN
Inventors: 臧世涛
Original assignee: Anhui Kebaisheng Environmental Protection Equipment Co ltd
Current assignee: Anhui Kebaisheng Environmental Protection Equipment Co ltd
Priority date: 2022-11-10
Filing date: 2022-11-10
Publication date: 2023-10-03
Anticipated expiration: 2032-11-10

Abstract

The utility model discloses a low-temperature plasma nano sterilizer which comprises a sterilizer body, wherein a nano atomizing nozzle is arranged at the top end of the sterilizer body, a controller is arranged on the surface of the sterilizer body, and an air inlet is formed in the bottom end of one side of the sterilizer body. When the air sterilizing device is used, through the arrangement of the humidifying mechanism, water in the water tank enters the atomizer through the water guide pipe to realize atomization, air after sterilization enters the air-liquid mixing box through the second air guide pipe, atomized liquid enters the air-liquid mixing box through the third air guide pipe, and the air after sterilization and the atomized liquid are mixed through the air-liquid mixing box and are guided into the nano atomizing nozzle through the communicating pipe to be sprayed out, so that the effect of humidifying the air can be achieved while the air is sterilized, and the problem that indoor air is dried due to the fact that the sterilizer is used for sterilizing the air for a long time is solved.

Description

Low-temperature plasma nano sterilizer

Technical Field

The utility model relates to the technical field of plasma nano disinfection, in particular to a low-temperature plasma nano disinfection machine.

Background

The low-temperature plasma nano sterilizer uses the super-energy ion generator to instantly excite megahundred million-level positive and negative ions, can sterilize efficiently, has extremely strong sterilization effect and short action time, and is far from high-intensity ultraviolet rays.

At present, a low-temperature plasma nano sterilizer utilizes plasma to ionize electrons so as to convert the electrons into positive ions and negative ions, organic waste gas is pumped by a fan to pass through plasma purifying equipment, and the low-temperature plasma purifying equipment utilizes plasma to carry out synergistic decomposition oxidation reaction on the organic waste gas to realize sterilization, but the conventional sterilizer does not have an air humidifying function, and the sterilizer is used for sterilizing indoor air for a long time so as to dry the indoor air.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a low-temperature plasma nano sterilizer.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a low temperature plasma nanometer sterilizer, includes the sterilizer body, the top of sterilizer body is provided with nanometer atomizer, the surface of sterilizer body is provided with the controller, the air intake has been seted up to one side bottom of sterilizer body, the inside bottom fixedly connected with air-blower of sterilizer body, the exhaust end fixedly connected with air-supply line of air-blower, air-supply line and air intake fixedly connected with, the air-out end fixedly connected with first guide duct of air-blower, the top of air-blower is provided with the plasma disinfection case, the both sides of plasma disinfection case respectively with the inner wall fixed connection of sterilizer body, the plasma disinfection case communicates through first guide duct with the air-blower, the top of plasma disinfection case is provided with humidification mechanism.

Further, the surface of plasma sterilization case is provided with the second guide duct, the one end and the plasma sterilization case intercommunication of second guide duct, the other end intercommunication of second guide duct has the gas-liquid mixing case, the both sides of gas-liquid mixing case respectively with the inner wall fixed connection of sterilizer body, the surface of gas-liquid mixing case is provided with communicating pipe, the both ends of communicating pipe communicate with gas-liquid mixing case and nanometer atomizer respectively, the surface of second guide duct is provided with first fan, first fan and second guide duct intercommunication can be with the air-guiding gas-liquid mixing incasement after the disinfection through the second guide duct, and communicating pipe can be with the air-guiding of having moisture to nanometer atomizer in the blowout after mixing.

Further, humidification mechanism includes water tank, atomizer, water tank and atomizer all are located between plasma disinfection case and the gas-liquid mixing case, one side of water tank and one side of atomizer respectively with the inner wall fixed connection of sterilizer body, be provided with the water guide pipe between water tank and the atomizer, the both ends of water guide pipe communicate with water tank and atomizer respectively, the fixed surface of water guide pipe is connected with the quantitative valve, realizes the atomizing through the water guide pipe with the water guide in the water tank to the atomizer in.

Further, the surface of atomizer is provided with the third guide duct, the both ends of third guide duct communicate with atomizer and gas-liquid mixing box respectively, the surface of third guide duct is provided with the second fan, second fan and third guide duct intercommunication, the liquid after will atomizing through the third guide duct is leading-in gas-liquid mixing box, through the gas-liquid mixing box with the air after the disinfection and the liquid intensive mixing and blowout after the atomizing.

Further, the surface of the sterilizer body is provided with a humidity sensor, the humidity sensor is electrically connected with the controller, and the humidity sensor can transmit indoor humidity to the controller.

Further, the controller is electrically connected with the quantitative valve, and the quantitative valve is opened through the controller when the indoor humidity is dry.

Further, the filter screen is arranged in the air inlet, and can play a role in preliminary filtration to intercept larger particles in the air.

The utility model has the beneficial effects that:

when the air sterilizing device is used, through the arrangement of the humidifying mechanism, water in the water tank enters the atomizer through the water guide pipe to realize atomization, air after sterilization enters the air-liquid mixing box through the second air guide pipe, atomized liquid enters the air-liquid mixing box through the third air guide pipe, and the air after sterilization and the atomized liquid are mixed through the air-liquid mixing box and are guided into the nano atomizing nozzle through the communicating pipe to be sprayed out, so that the effect of humidifying the air can be achieved while the air is sterilized, and the problem that indoor air is dried due to the fact that the sterilizer is used for sterilizing the air for a long time is solved.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a front cross-sectional view of the present utility model;

fig. 3 is an enlarged view of the utility model at a.

Legend description:

1. a sterilizer body; 2. a nano atomizing nozzle; 3. a controller; 4. an air inlet; 5. an air inlet pipe; 6. a blower; 7. a first air guide pipe; 8. a plasma sterilization box; 9. a second air guide pipe; 10. a first fan; 11. a gas-liquid mixing box; 12. a water tank; 13. a water conduit; 14. an atomizer; 15. a third air guide pipe; 16. a second fan; 17. a communicating pipe; 18. a dosing valve; 19. a humidity sensor; 20. and (3) a filter screen.

Detailed Description

As shown in fig. 1 and 2, relate to a low temperature plasma nanometer sterilizer, including sterilizer body 1, sterilizer body 1's top is provided with nanometer atomizer 2, sterilizer body 1's surface is provided with controller 3, air intake 4 has been seted up to sterilizer body 1's one side bottom, sterilizer body 1's inside bottom fixedly connected with air-blower 6, air-extracting end fixedly connected with air-supply line 5 of air-blower 6, air-supply line 5 and air intake 4 fixed connection, air-out end fixedly connected with first guide duct 7 of air-blower 6, air-blower 6's top is provided with plasma disinfector 8, plasma disinfector 8 and air-blower 6 are through first guide duct 7 intercommunication respectively with sterilizer body 1's inner wall fixed connection, plasma disinfector 8's top is provided with humidification mechanism, plasma disinfector 8's surface is provided with second guide duct 9, second guide duct 9's one end and plasma disinfector 8 intercommunication, second guide duct 9's the other end intercommunication has gas-liquid case 11, gas-liquid mixture case 11's both sides respectively with sterilizer body 1's inner wall fixed connection first guide duct 7, gas-liquid mixture case 17 and second guide duct 10 intercommunication, gas-liquid mixture case 17 and second communicating pipe 10 are provided with first communicating pipe 10 respectively with the inner wall of sterilizer body 1, the first guide 17, the communicating pipe is provided with the first communicating pipe 10.

As shown in fig. 1-3, the humidifying mechanism comprises a water tank 12 and an atomizer 14, the water tank 12 and the atomizer 14 are both positioned between the plasma sterilizing box 8 and the gas-liquid mixing box 11, one side of the water tank 12 and one side of the atomizer 14 are respectively and fixedly connected with the inner wall of the sterilizing machine body 1, a water guide pipe 13 is arranged between the water tank 12 and the atomizer 14, two ends of the water guide pipe 13 are respectively communicated with the water tank 12 and the atomizer 14, a quantitative valve 18 is fixedly connected with the surface of the water guide pipe 13, a third air guide pipe 15 is arranged on the surface of the atomizer 14, two ends of the third air guide pipe 15 are respectively communicated with the atomizer 14 and the gas-liquid mixing box 11, a second fan 16 is arranged on the surface of the third air guide pipe 15, the second fan 16 is communicated with the third air guide pipe 15, a humidity sensor 19 is arranged on the surface of the sterilizing machine body 1, the humidity sensor 19 is electrically connected with the controller 3, the controller 3 is electrically connected with the quantitative valve 18, and a filter screen 20 is arranged inside the air inlet 4.

When in use, the utility model is characterized in that: the air blower 6 is started to extract organic waste gas through the air inlet 4 and the air inlet pipe 5, low-temperature plasma sterilization is realized in the plasma sterilization box 8 through the first air guide pipe 7, the filter screen 20 can play a role in preliminary filtration, air after sterilization is extracted through the first air blower 10 and enters the gas-liquid mixing box 11 through the second air guide pipe 9, when the humidity sensor 19 detects that indoor air is dry, signals are transmitted to the controller 3, the quantitative valve 18 is opened through the controller 3, water in the water tank 12 enters the atomizer 14 through the water guide pipe 13 to realize atomization, liquid after atomization is extracted through the second air blower 16 and enters the gas-liquid mixing box 11 through the third air guide pipe 15, the gas-liquid mixing box 11 fully mixes air and atomized liquid and guides the air into the nano atomization nozzle 2 through the communicating pipe 17 to be sprayed out, and the effect of humidifying air can be played while the air is sterilized.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims

1. The utility model provides a low temperature plasma nanometer sterilizer, includes sterilizer body (1), its characterized in that: the utility model provides a disinfection machine, including disinfection machine body (1), air inlet (4) are offered to the top of disinfection machine body (1) be provided with nanometer atomizer (2), the surface of disinfection machine body (1) is provided with controller (3), air intake (4) have been offered to one side bottom of disinfection machine body (1), the inside bottom fixedly connected with air-blower (6) of disinfection machine body (1), the convulsions end fixedly connected with air-supply line (5) of air-blower (6), air-supply line (5) and air intake (4) fixed connection, the air-out end fixedly connected with first guide duct (7) of air-blower (6), the top of air-blower (6) is provided with plasma disinfect box (8), the both sides of plasma disinfect box (8) are respectively with the inner wall fixed connection of disinfection machine body (1), plasma disinfect box (8) communicate through first guide duct (7) with air-blower (6), the top of plasma disinfect box (8) is provided with humidification mechanism.

2. The low temperature plasma nano-sterilizer of claim 1, wherein: the surface of plasma disinfection case (8) is provided with second guide duct (9), the one end and the plasma disinfection case (8) intercommunication of second guide duct (9), the other end intercommunication of second guide duct (9) has gas-liquid mixing case (11), the both sides of gas-liquid mixing case (11) are respectively with the inner wall fixed connection of sterilizer body (1), the surface of gas-liquid mixing case (11) is provided with communicating pipe (17), the both ends of communicating pipe (17) are respectively with gas-liquid mixing case (11) and nanometer atomizer (2) intercommunication, the surface of second guide duct (9) is provided with first fan (10), first fan (10) and second guide duct (9) intercommunication.

3. The low temperature plasma nano-sterilizer of claim 1, wherein: the humidifying mechanism comprises a water tank (12) and an atomizer (14), wherein the water tank (12) and the atomizer (14) are both positioned between a plasma sterilizing box (8) and a gas-liquid mixing box (11), one side of the water tank (12) and one side of the atomizer (14) are fixedly connected with the inner wall of a sterilizing machine body (1) respectively, a water guide pipe (13) is arranged between the water tank (12) and the atomizer (14), two ends of the water guide pipe (13) are communicated with the water tank (12) and the atomizer (14) respectively, and a quantitative valve (18) is fixedly connected to the surface of the water guide pipe (13).

4. A low temperature plasma nano-sterilizer as claimed in claim 3, wherein: the surface of atomizer (14) is provided with third guide duct (15), the both ends of third guide duct (15) are respectively with atomizer (14) and gas-liquid mixing case (11) intercommunication, the surface of third guide duct (15) is provided with second fan (16), second fan (16) and third guide duct (15) intercommunication.

5. The low temperature plasma nano-sterilizer of claim 1, wherein: the surface of the sterilizer body (1) is provided with a humidity sensor (19), and the humidity sensor (19) is electrically connected with the controller (3).

6. The low temperature plasma nano-sterilizer of claim 5, wherein: the controller (3) is electrically connected with the quantitative valve (18).

7. The low temperature plasma nano-sterilizer of claim 1, wherein: a filter screen (20) is arranged in the air inlet (4).