CN111789991A - Ultrasonic gas disinfection purifier - Google Patents

Abstract

The invention discloses an ultrasonic gas disinfection purifier, which comprises: the mounting body is provided with an air jet; the storage container is stored with chlorine dioxide disinfectant; the ultrasonic atomization device is arranged on the mounting body and communicated with the storage container; the demisting device is simultaneously communicated with the ultrasonic atomization device and the air nozzle and is used for blocking water mist particles and discharging chlorine dioxide gas molecules through the air nozzle; and the intelligent control system is used for controlling the release of the chlorine dioxide gas and detecting the concentration value of the external chlorine dioxide gas. The ultrasonic gas disinfection purifier provided by the invention has double functions of disinfection and air purification, directly releases mixed air with disinfection components, and can purify air through water mist molecules, thereby effectively solving the problem that the spray disinfection in the market cannot be suitable for air disinfection and purification in other workplaces.

Description

Ultrasonic gas disinfection purifier

Technical Field

The invention relates to the field of air disinfection, in particular to an ultrasonic gas disinfection purifier.

Background

Chlorine dioxide is a high-efficiency, safe and broad-spectrum disinfection and sterilization agent, has 100% of sterilization effect on bacteria, fungi, viruses and spores, can effectively kill germs and molds in the air and on the surfaces of objects only by containing chlorine dioxide with enough concentration in a specified space, and realizes the dual effects of sterilization and disinfection on the air. Meanwhile, the decomposed atomic oxygen can refresh the air, various microorganisms in the air can be killed through the strong oxidation of the chlorine dioxide, the chlorine dioxide has very ideal degradation effect on harmful substances such as formaldehyde, benzene, toluene and the like in the indoor air, the chlorine dioxide can be reduced to the safety standard, and the low-concentration chlorine dioxide does not bring harm and side effects to human bodies. However, in the current market, when chlorine dioxide is used for disinfection, air is often purified and disinfected in a spray mode, but some places which cannot adapt to spray disinfection exist.

Disclosure of Invention

The invention mainly aims to provide an ultrasonic gas disinfection purifier, aiming at solving the problem that spray disinfection in the market cannot be adapted to places at present.

In order to achieve the above object, the present invention provides an ultrasonic gas sterilization purifier comprising:

the mounting body is provided with an air jet;

the storage container is arranged on the mounting body, and a chlorine dioxide disinfection solution is stored in the storage container and is internally provided with a waste liquid bin;

the ultrasonic atomization device is mounted on the mounting body and communicated with the storage container so as to atomize the chlorine dioxide disinfectant stored in the storage container into water mist particles and chlorine dioxide gas molecules;

the demisting device is simultaneously communicated with the ultrasonic atomization device and the air nozzle and is used for blocking water mist particles and discharging chlorine dioxide gas molecules through the air nozzle;

intelligence accuse system, intelligence accuse system set up in on the installation body, ultrasonic atomization device with the defogging device all with intelligence accuse system signal connection or electricity are connected, intelligence accuse system can be used for detecting external chlorine dioxide concentration value and adjust the gaseous volume of release chlorine dioxide.

In one embodiment, the ultrasonic atomization device comprises an atomization plate and a plurality of atomization nozzles, the atomization nozzles are arranged on the atomization plate, and the atomization nozzles are used for atomizing chlorine dioxide disinfectant into water mist particles and chlorine dioxide gas molecules.

In one embodiment, the atomizer head comprises:

the device comprises a body, a first inlet and a first outlet are respectively formed at two opposite ends of the body along the extending direction of the body;

the conveying pipe is arranged in the body, a second inlet and a second outlet are formed in the two opposite ends of the conveying pipe in the length direction of the conveying pipe, the first inlet is communicated with the second inlet, and the first outlet is communicated with the second outlet;

the ultrasonic atomization head is connected with the body and communicated with the first outlet.

In one embodiment, the atomizer further comprises an impact head connected to the body and located at an end of the ultrasonic atomizer head away from the delivery tube.

In an embodiment, the atomizing nozzle comprises a plurality of connecting rods, one end of each connecting rod is connected to the outer wall surface of the body, and the other end of each connecting rod is connected to the outer wall of the impact head, so that an atomizing and spraying channel is formed between the impact head and the ultrasonic atomizing head.

In an embodiment, the defogging device includes a collecting hopper and a filter element, an opening is opened at an end of the collecting hopper, the opening faces the atomizing plate to receive atomized water fog particles and chlorine dioxide gas molecules, the other end of the collecting hopper is communicated with the air jet, and the filter element is arranged in the collecting hopper and used for blocking the water fog particles.

In one embodiment, the number of the filter elements is two, and the two filter elements are uniformly arranged at intervals along the height direction of the collecting hopper.

In one embodiment, the pore size of the filter element near the atomization plate is not greater than 100 μm, and the pore size of the filter element far from the atomization plate is not greater than 50 μm.

In an embodiment, the ultrasonic gas disinfection purifier further comprises an aeration pressurizing device, the aeration pressurizing device is arranged between the atomization plate and the collection hopper, and the aeration pressurizing device is used for blowing high-pressure gas so as to drive the water mist particles and the chlorine dioxide gas molecules to be blown into the collection hopper through the high-pressure gas.

In one embodiment, the aeration pressurization device comprises a high-pressure fan and an aeration nozzle communicated with the high-pressure fan.

In the technical scheme of the invention, after the chlorine dioxide disinfectant is stored in the storage container and is subjected to ultrasonic atomization by the ultrasonic atomization device, forming water mist particles and chlorine dioxide gas molecules, when the chlorine dioxide gas molecules are discharged into the air, can effectively disinfect and purify air, and the ultrasonic gas disinfection purifier also comprises a demisting device, when the demisting device is used, the water mist particles can be blocked, so that chlorine dioxide gas molecules are discharged through the gas nozzle of the installation body, so that the water mist particles can not be discharged through the gas nozzle along with the chlorine dioxide gas molecules in the disinfection process, only chlorine dioxide gas molecules are discharged from the gas nozzle, so that the problem of air disinfection and purification in places which cannot be adapted to spray disinfection and other workplaces in the market at present is effectively solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an ultrasonic gas disinfection purifier according to an embodiment of the present invention;

fig. 2 is a schematic disassembled view of the atomizer according to the embodiment of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Moreover, the technical solutions in the embodiments of the present invention may be combined with each other, but it is necessary to be able to be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

The invention provides an ultrasonic gas disinfection purifier.

As shown in fig. 1, an ultrasonic gas disinfection purifier provided by an embodiment of the present invention includes:

the mounting structure comprises a mounting body 10, wherein an air jet 11 is formed in the mounting body 10;

a storage container 40, wherein the storage container 40 is installed on the installation body 10, and a chlorine dioxide disinfection solution is stored in the storage container 40 and a waste solution bin is arranged in the storage container;

an ultrasonic atomizing device 20, wherein the ultrasonic atomizing device 20 is installed on the installation body 10 and is communicated with the storage container 40 to atomize the chlorine dioxide disinfectant stored in the storage container 40 into water mist particles and chlorine dioxide gas molecules;

and the demisting device 30 is communicated with the ultrasonic atomizing device 20 and the air nozzle 11 at the same time, and the demisting device 30 is used for blocking water mist particles and discharging chlorine dioxide gas molecules through the air nozzle 11.

In the present embodiment, after the chlorine dioxide disinfectant is stored in the storage container 40 and the chlorine dioxide disinfectant is ultrasonically atomized by the ultrasonic atomizing device 20, forming water mist particles and chlorine dioxide gas molecules, when the chlorine dioxide gas molecules are discharged into the air, can effectively disinfect and purify air, and also comprises a demisting device 30, when the demisting device 30 is used, the water mist particles can be blocked, the chlorine dioxide gas molecules can be discharged through the gas nozzle 11 of the installation body 10, so that in the process of disinfection, the water mist particles can not be discharged through the gas nozzle 11 along with the chlorine dioxide gas molecules, only chlorine dioxide gas molecules are discharged from the gas nozzle 11, so that the problem of air disinfection and purification in places which cannot be adapted to spray disinfection and other workplaces in the market at present is solved.

In addition, in the embodiment, harmful gases such as particulate matters, bacteria and germs, formaldehyde and the like in the air can be purified simultaneously through the water mist particles and the chlorine dioxide gas molecules, so that the effects of sterilizing and purifying the air can be achieved simultaneously, the sterilization is not performed in an atomized form, but performed in a gaseous form (chlorine dioxide gas molecules), the environment with low air humidity requirement can be adapted, and the corrosion to metal substances in the surrounding environment can be greatly reduced.

Further, in an optional embodiment, ultrasonic wave gaseous disinfection clarifier still can include the intelligence system of controlling, the intelligence system of controlling sets up on the installation body, ultrasonic atomization device 20 and defogging device 30 all control system signal connection or electricity with the intelligence and are connected, the intelligence system of controlling includes a peristaltic pump, the both ends of peristaltic pump communicate with storage container 40 and ultrasonic atomization device 20 respectively, thereby can control the volume that chlorine dioxide antiseptic solution got into ultrasonic atomization device 20, and then the concentration of the chlorine dioxide gas molecule in the control release air, so that the chlorine dioxide gas concentration that can intelligent control releases is applicable to different disinfection places.

The ultrasonic gas disinfection purifier provided by the invention has double functions of disinfection and air purification, directly releases mixed air with disinfection components, and can purify air through water mist molecules, thereby effectively solving the problem that the spray disinfection in the market cannot be suitable for air disinfection and purification in other workplaces.

And the blocked water mist molecules can flow into the waste liquid bin for storage, so that water formed by the water mist molecules can directly flow into the waste liquid bin.

Further, ultrasonic atomization device 20 includes atomization board 21 and a plurality of atomizer 22, and is a plurality of atomizer 22 all set up in on the atomization board 21, atomizer 22 is used for atomizing chlorine dioxide disinfectant into water smoke particle and chlorine dioxide gas molecule. In the present embodiment, the chlorine dioxide disinfectant is atomized by the plurality of atomizing nozzles 22, and chlorine dioxide gas molecules and mist particles can be formed after atomization.

In an optional embodiment, referring to fig. 2, the atomizer 22 includes:

the body 221, two opposite ends of the body 221 along its own extension direction are respectively provided with a first inlet and a first outlet;

the conveying pipe 222 is installed in the body 221, a second inlet and a second outlet are formed in two opposite ends of the conveying pipe 222 along the length direction, the first inlet is communicated with the second inlet, and the first outlet is communicated with the second outlet;

and the ultrasonic atomizing head 223 is connected with the body 221 and communicated with the first outlet. Ultrasonic wave atomizing head 223 can utilize ultrasonic wave directional pressure for the surface of chlorine dioxide antiseptic solution is uplifted, and take place cavitation around the liquid level of uplift, make liquid atomization become the aerial fog of micromolecule, and atomize through ultrasonic wave atomizing head 223, can release a large amount of anions at atomizing in-process, thereby can produce electrostatic reaction with smog, dust etc. that float in the air, make its deposit, can also effectively get rid of harmful substance such as formaldehyde, carbon monoxide, bacterium simultaneously, make the air obtain purifying, reduce the emergence of disease.

Further, the atomizer 22 further comprises an impact head 224, the impact head 224 is connected to the body 221 and located at an end of the ultrasonic atomizer 223 far from the delivery pipe 222, so that in this embodiment, when chlorine dioxide gas molecules and mist particles are released from the atomizer 22, the chlorine dioxide gas molecules and the mist particles collide with the impact head 224, and when the mist particles collide with the impact head 224, the mist particles may condense on a surface of the impact head 224, so that the mist particles can be condensed into water and flow away.

In addition, the atomizer 22 includes a plurality of connecting rods 225, one end of each connecting rod 225 is connected to the outer wall surface of the body 221, and the other end of each connecting rod 225 is connected to the outer wall of the impact head 224, so that an atomizing spray channel 226 is formed between the impact head 224 and the ultrasonic atomizing head 223. The atomizer 22 is connected with the impact head 224 through the connecting rod 225, so that an atomizing spray channel 226 is formed between the impact head 224 and the ultrasonic atomizing head 223, chlorine dioxide gas molecules are sprayed from the atomizing spray channel 226 in a circle shape, the release range during releasing atomized particles can be increased, and the release efficiency is improved.

The defogging device 30 includes a collecting hopper 31 and a filter element 32, an opening 311 is opened at an end of the collecting hopper 31, the opening 311 faces the atomizing plate 21 to receive atomized water fog particles and chlorine dioxide gas molecules, the other end of the collecting hopper 31 is communicated with the air jet 11, and the filter element 32 is disposed in the collecting hopper 31 and used for blocking the water fog particles. Therefore, when the water mist particles and chlorine dioxide gas molecules atomized by the chlorine dioxide disinfectant pass through the filter element 32, the filter element 32 can block the atomized particles, and the chlorine dioxide gas molecules can pass through the filter element 32, so that only the chlorine dioxide gas molecules are left in the atomized particles passing through the filter element 32. When the mist particles enter the collecting hopper 31, the collecting hopper 31 is tapered, and the mist particles can contact the inner wall surface of the collecting hopper 31, condense to form water droplets, flow down along the inner wall surface of the collecting hopper 31, and flow into the waste liquid bin to be stored.

Specifically, the atomizer 22 further includes a vibrating circuit, a piezoelectric vibrating plate and a spraying plate, so that when the atomizer 22 vibrates at a frequency of 100kHz to 200Hz, the particle size of the atomized chlorine dioxide gas molecules is between 50 μm and 100 μm, and the particle sizes of the water mist particles and impurities, dust and common gas molecules in the air are all greater than 100 μm, so in an optional embodiment, the number of the filter elements 32 is two, the two filter elements 32 are uniformly spaced along the height direction of the collecting hopper 31, the pore size of the filter element 32 close to the atomizing plate 21 is not greater than 100 μm, and the pore size of the filter element 32 far away from the atomizing plate 21 is not greater than 50 μm. Thereby through setting up two filter cores 32, and the aperture that is close to the filter core 32 of atomizing board 21 is not more than 100 mu m, and the aperture of the filter core 32 of keeping away from atomizing board 21 is not more than 50 mu m for water smoke particle can't pass through from filter core 32, and has guaranteed that chlorine dioxide gas molecule can pass through smoothly, thereby effectively solved the air disinfection of the unable place that adapts to of spray disinfection and other workplaces on the market at present and purified. And, when the water smoke particle gets into filter core 32, filter core 32 can further absorb the water smoke particle to reach the purpose of blocking the water smoke particle, and chlorine dioxide is the gas molecule and can pass filter core 32 and discharge through the gas jet in order to disinfect, purify the air.

Further, in the above embodiment, the ultrasonic gas disinfection purifier further comprises an aeration pressurization device 50, the aeration pressurization device 50 is disposed between the atomization plate 21 and the collection hopper 31, and the aeration pressurization device 50 is configured to blow out high-pressure gas, so that the high-pressure gas drives the water mist particles and the chlorine dioxide gas molecules to blow into the collection hopper 31. The aeration pressurizing device 50 comprises a high-pressure fan and an aeration nozzle 51 communicated with the high-pressure fan. Therefore, the atomized water mist particles and chlorine dioxide gas molecules can enter the filter element 32 through the high-pressure gas generated by the aeration nozzle 51, and the flow efficiency of the atomized particles is improved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An ultrasonic gas disinfection purifier, comprising:

the mounting body is provided with an air jet;

the storage container is arranged on the installation body, and chlorine dioxide disinfectant is stored in the storage container and is internally provided with a waste liquid bin;

the ultrasonic atomization device is mounted on the mounting body and communicated with the storage container so as to atomize the chlorine dioxide disinfectant stored in the storage container into water mist particles and chlorine dioxide gas molecules;

the demisting device is simultaneously communicated with the ultrasonic atomization device and the air nozzle and is used for blocking water mist particles and discharging chlorine dioxide gas molecules through the air nozzle;

intelligence accuse system, intelligence accuse system set up in on the installation body, ultrasonic atomization device with the defogging device all with intelligence accuse system signal connection or electricity are connected, intelligence accuse system is used for detecting external chlorine dioxide concentration value and adjusts the gaseous volume of release chlorine dioxide.

2. The ultrasonic gas disinfection purifier of claim 1, wherein the ultrasonic atomization device comprises an atomization plate and a plurality of atomization nozzles, the plurality of atomization nozzles are disposed on the atomization plate, and the atomization nozzles are configured to atomize the chlorine dioxide disinfectant into water mist particles and chlorine dioxide gas molecules.

3. The ultrasonic gas disinfection purifier of claim 2, wherein the atomizer head comprises:

the device comprises a body, a first inlet and a first outlet are respectively formed at two opposite ends of the body along the extending direction of the body;

the conveying pipe is arranged in the body, a second inlet and a second outlet are formed in the two opposite ends of the conveying pipe in the length direction of the conveying pipe, the first inlet is communicated with the second inlet, and the first outlet is communicated with the second outlet;

the ultrasonic atomization head is connected with the body and communicated with the first outlet.

4. The ultrasonic gas disinfection purifier of claim 3, wherein the spray head further comprises an impact head connected to the body and located at an end of the ultrasonic spray head distal from the delivery tube.

5. The ultrasonic gas disinfection purifier of claim 4, wherein said atomizer head comprises a plurality of connecting rods, one end of said connecting rods is connected to the outer wall surface of said body, and the other end of said connecting rods is connected to the outer wall of said impact head, so that an atomizing spray channel is formed between said impact head and said ultrasonic atomizer head.

6. The ultrasonic gas disinfection purifier as recited in claim 1, wherein said mist eliminator comprises a collection hopper and a filter element, wherein an opening is opened at an end of said collection hopper, said opening faces said atomization plate to receive atomized water mist particles and chlorine dioxide gas molecules, another end of said collection hopper is communicated with said gas jet, and said filter element is disposed in said collection hopper and is used for blocking said water mist particles.

7. An ultrasonic gas sterilizing purifier as defined in claim 6 wherein the number of said filter elements is two, and two of said filter elements are arranged at regular intervals in the height direction of said collecting hopper.

8. An ultrasonic gas disinfection purifier as claimed in claim 7, wherein said filter elements proximal to said atomization plate have a pore size no greater than 100 μm and said filter elements distal from said atomization plate have a pore size no greater than 50 μm.

9. An ultrasonic gas disinfection purifier as claimed in claim 6, further comprising an aeration pressurizing means disposed between said atomization plate and said collection hopper, said aeration pressurizing means being adapted to blow high pressure gas to drive said water mist particles and said chlorine dioxide gas molecules into said collection hopper by said high pressure gas.

10. An ultrasonic gas disinfection purifier as claimed in claim 9, wherein said aeration pressurization means comprises a high pressure blower and an aeration nozzle in communication with said high pressure blower.

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