CN219251087U - Atomized ozone plasma disinfection equipment - Google Patents

Abstract

The utility model relates to the technical field of disinfection equipment, in particular to atomization ozone plasma disinfection equipment, which comprises an ozone generation module, an air pump, a shell, an atomizer and a water tank, wherein the ozone generation module and the air pump are arranged in the shell, the atomizer and the water tank are fixed outside the water tank, the ozone generation module generates ozone and plasma, after water in the water tank is introduced into the atomizer, the atomizer atomizes the water, the shell is provided with an air source inlet and an ozone outlet, an air inlet of the air pump is opposite to the air source inlet, an air outlet of the air pump is connected with the air inlet of the ozone generation module, an outlet of the ozone generation module is communicated with the ozone outlet, and a water mist outlet of the atomizer and the ozone outlet are positioned on the same side of the shell and are close together.

Description

Atomized ozone plasma disinfection equipment

Technical Field

The utility model relates to the field of disinfection equipment, in particular to atomized ozone plasma disinfection equipment.

Background

Ozone is a high-efficiency and quick bactericide, has strong universality in sterilization, can kill various bacteria, viruses and microorganisms which are pathogenic to people and animals, and damages the structures of the bacteria, the viruses and other microorganisms in a short time, so that the bacteria, the viruses and other microorganisms lose viability. The principle of plasma disinfection is that the generated positive ions and negative ions are adopted to neutralize positive and negative charges in the air to instantaneously generate huge energy release, thereby leading to the change of the surrounding bacterial structure or the energy conversion, leading to the death of bacteria and realizing the sterilization function. Because the number of negative ions is larger than that of positive ions, redundant negative ions still float in the air, so that the effects of eliminating smoke, removing dust, eliminating peculiar smell and improving the quality of the air can be achieved, and the health care effect of human health is promoted. So that the sterilizing equipment manufactured by utilizing the ozone sterilization principle and the plasma sterilization principle is also generated. Ozone and plasma are both products of corona discharge generation and can be prepared simultaneously by one device.

However, after the ozone comes out of the disinfection equipment, the ozone cannot be uniformly and rapidly diffused into the space, and often can only float around the ozone outlet, cannot reach more distant space positions, and cannot achieve the purpose of disinfection in other parts of the space far away from the disinfection equipment.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is that the connecting component of the existing wallboard is exposed outside for a long time, the connecting component can be aged and damaged and dust is accumulated, so that the wallboard can be loosened, potential safety hazard is caused, and the position is not easy to slide and adjust after the wallboard with new specification is replaced due to more dust.

In order to solve the technical problems, the utility model provides an atomized ozone plasma disinfection device, which comprises an ozone generating module, an air pump, a shell, an atomizer and a water tank, wherein the ozone generating module and the air pump are arranged in the shell, the ozone generating module generates ozone and plasma, the atomizer and the water tank are fixed outside the shell, water in the water tank is introduced into the atomizer and then atomized by the atomizer, the shell is provided with an air source inlet and an ozone outlet, an air inlet of the air pump is opposite to the air source inlet, an air outlet of the air pump is connected with the air inlet of the ozone generating module, an outlet of the ozone generating module is communicated with the ozone outlet, and a water mist outlet of the atomizer and the ozone outlet are positioned on the same side of the shell and are close to each other.

Further, the atomizer can be dismantled and fixed the top of water tank, the bottom of atomizer is equipped with the water inlet, the water tank top is equipped with the opening, the water tank with adopt first cotton stick pipe and second cotton stick pipe butt joint to carry the water between the atomizer, first cotton stick pipe is vertical state, the second cotton stick pipe is the state of bending, the second cotton stick pipe sets up in the atomizer.

Further, the second cotton swab tube is provided with a notch in the middle.

Further, the water tank or the atomizer is detachably fixed with a clamping groove arranged outside the shell through a spring buckle.

Further, the ozone generating device further comprises a turbine cooling fan, the turbine cooling fan is arranged in the shell, a cold air inlet is formed in the shell, the inlet of the turbine cooling fan is opposite to the cold air inlet, and the outlet of the turbine cooling fan is opposite to the ozone generating module.

Further, the ozone generator also comprises an air outlet nozzle, wherein the air outlet nozzle is arranged in the ozone outlet, and the air outlet nozzle is communicated with the outlet of the ozone generating module.

Further, the novel energy-saving ozone generator comprises a power module, wherein the power module is fixed in the shell, the power module can be electrically connected with a municipal power supply through a power line, and the output end of the power module is electrically connected with the input end of the atomizer, the ozone generating module, the air pump and the turbine cooling fan through electric wires.

Further, the device further comprises a control main board, wherein the control main board is fixed in the shell, the control main board is connected with the atomizer, the ozone generating module, the air pump and the turbine radiator fan in a bidirectional signal mode, the shell is composed of a rear cover and a face cover which are detachably connected, and a starting switch is arranged on the face cover.

The technical scheme of the utility model has the following beneficial effects:

the atomized ozone plasma disinfection equipment provided by the utility model is not only provided with an ozone generating module and an air pump, but also provided with an atomizer and a water tank, ozone and plasma are prepared through the ozone generating module, the atomizer discharges water mist after water body atomization from the shell of the disinfection equipment, ozone is also discharged from the shell of the disinfection equipment, and two discharge outlets are closely together, so that the following advantages can be brought: firstly, ozone can be combined with water mist, so that the suspension and diffusion effects of the ozone are improved, the ozone is better attached to the surface of an object, and the space and the object in the space are disinfected; secondly, the water mist increases the humidity, is more favorable for the combination of plasmas, and has a longer-lasting disinfection effect; thirdly, ions are combined with water mist to generate hydroxyl free radicals, and due to extremely strong oxidability and reactivity, the hydroxyl free radicals can rapidly attack and abstract hydrogen atoms on virus, bacterial proteins or envelopes, so that the hydroxyl free radicals are induced to lose normal physiological functions and die, the disinfection effect is improved, and the suspension effect of ozone and plasma is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded schematic view of an atomized ozone plasma sterilization device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of an atomized ozone plasma sterilization device according to an embodiment of the present utility model, with a cover removed;

FIG. 3 is a schematic view of an atomized ozone plasma sterilization device according to an embodiment of the present utility model, with a cover removed and a control main board;

FIG. 4 is a rear view of an atomized ozone-plasma sterilization device according to an embodiment of the present utility model;

FIG. 5 is a first cross-sectional view of the atomizer, water tank provided by the present utility model;

FIG. 6 is a top view of an atomized ozone plasma sterilization device according to the present utility model;

FIG. 7 is a perspective view of the atomizer of the present utility model;

fig. 8 is a side view of an atomizer ozone plasma sterilization apparatus, according to an embodiment of the present utility model;

fig. 9 is a second cross-sectional view of the atomizer, water tank provided in an embodiment of the present utility model;

fig. 10 is a schematic view of a second cotton swab tube provided in an embodiment of the present utility model before bending.

Reference numerals illustrate: 1. an ozone generating module; 2. an air pump; 3. a housing; 31. an air source inlet; 32. an ozone outlet; 33. a clamping groove; 34. a cold air inlet; 35. a rear cover; 36. a face cover; 37. starting a switch; 38. a display screen; 4. an atomizer; 41. a water inlet; 5. a water tank; 51. a through port; 52. a first cotton swab tube; 53. a second cotton swab tube; 531. a notch; 6. a spring buckle; 7. a turbine radiator fan; 8. an air outlet nozzle; 9. a power module; 10. a control main board; 11. a first heat radiation port; 12. and a second heat radiation port.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

The utility model provides an atomized ozone plasma disinfection device, which comprises an ozone generating module 1, an air pump 2, a shell 3, an atomizer 4 and a water tank 5, wherein the atomizer 4 and the water tank 5 are fixed outside the shell 3, the ozone generating module 1 and the air pump 2 are arranged in the shell 3, the ozone generating module 1 generates ozone and plasma, the water in the water tank 5 is atomized by the atomizer 4 after being introduced into the atomizer 4, the shell 3 is provided with an air source inlet 31 and an ozone outlet 32, the air inlet of the air pump 2 is opposite to the air source inlet 31, the air outlet of the air pump 2 is connected with the air inlet of the ozone generating module 1, the outlet of the ozone generating module 1 is communicated with the ozone outlet 32, and the water mist outlet of the atomizer 4 and the ozone outlet 32 are positioned on the same side of the shell 3 and are abutted together.

When the utility model is started, the gas pumped by the air pump 2 sequentially enters the air pump 2 through the gas source inlet 31 and the air inlet of the air pump 2, then is sent into the ozone generating module 1, then the ozone generating module 1 prepares ozone, and the ozone generated by the ozone generating module 1 is discharged into the air through the ozone outlet 32; meanwhile, the atomizer 4 atomizes the water body introduced by the water tank 5 into water mist, and then the water mist is discharged to the air through the water mist outlet. Since the water mist outlet and the ozone outlet 32 are located on the same side of the housing 3 and are closely together, the following advantageous effects can be brought about: firstly, ozone can be combined with water mist, so that the suspension and diffusion effects of the ozone are improved, the ozone is better attached to the surface of an object, and the space and the object in the space are disinfected; secondly, the water mist increases the humidity, is more favorable for the combination of plasmas, and has a longer-lasting disinfection effect; thirdly, ions are combined with water mist to generate hydroxyl free radicals, and due to extremely strong oxidability and reactivity, the hydroxyl free radicals can rapidly attack and abstract hydrogen atoms on virus, bacterial proteins or envelopes, so that the hydroxyl free radicals are induced to lose normal physiological functions and then die, and the suspension effect of ozone and plasma is improved.

The ozone generating module 1 in the utility model adopts a corona discharge principle, belongs to the prior art device, and the specific structure is not limited in the embodiment of the utility model, as long as ozone and plasma can be manufactured by adopting the corona discharge principle, and the specific structure and principle are not described in the embodiment of the utility model.

The water tank 5 is transparent or semitransparent, and the water tank 5 or the atomizer 4 is detachably fixed with a clamping groove 33 arranged outside the shell 3 through a spring buckle 6.

The atomizer 4 is an ultrasonic microporous atomizer 4, the atomizer 4 is detachably fixed at the top of a water tank 5, a water inlet 41 is formed in the bottom of the atomizer 4, a through hole 51 is formed in the top of the water tank 5, a first cotton stick pipe 52 and a second cotton stick pipe 53 are adopted between the water tank 5 and the atomizer 4 to butt and convey water bodies, the first cotton stick pipe 52 is in a vertical state, the second cotton stick pipe 53 is in a 90-degree bending state, the second cotton stick pipe 53 is arranged in the atomizer 4, the top end of the first cotton stick pipe 52 is communicated with the second cotton stick pipe 53, and meanwhile, the water tank 5 is internally provided with the second cotton stick pipe 53. Preferably, the bottom end of the first cotton swab tube 52 is in contact with the bottom of the water tank 5.

The first and second cotton swab tubes 52, 53 are common prior art products and are commonly used in humidifiers, the first cotton swab tube 52 being adapted to absorb water from the water tank 5 and to be transported through the second cotton swab tube 53 to the atomizer 4. The ultrasonic microporous atomizer 4 is also a prior art device, and its specific structure is not limited in the embodiment of the present utility model, so long as it can atomize a water body by using ultrasonic waves, and the specific structure and principle are not explained in the embodiment of the present utility model.

The second cotton swab tube 53 is provided with a triangular notch 531 in the middle, which facilitates bending.

When water in the water tank 5 is lacking, the atomizer 4 or the water tank 5 is detached from the shell 3, then the atomizer 4 is detached from the top of the water tank 5, water is replenished from the through hole 51, and finally the water tank is installed as it is.

The utility model also comprises a turbine radiator fan 7, the turbine radiator fan 7 is arranged in the shell 3, the cold air inlet 34 is arranged on the shell 3, the inlet of the turbine radiator fan 7 is opposite to the cold air inlet 34, and the outlet of the turbine radiator fan 7 is opposite to the ozone generating module 1. The turbine radiator fan 7 pumps in external cold air, the cold air firstly enters from the cold air inlet 34 and then enters into the turbine radiator fan 7, then part of the cold air is blown onto the ozone generating module 1 after coming out of the turbine radiator fan 7 to radiate heat, so that the ozone generating module 1 is prevented from being damaged due to overheating, and finally, the cold air is discharged from the first radiating port 11, part of the cold air is blown between the ozone generating module 1 outlet and the ozone outlet 32, and when the part of air comes out from the ozone outlet 32, ozone can be taken out from the ozone outlet 32 along the way, so that the discharging speed of the ozone from the ozone outlet 32 is improved.

The utility model also comprises an air outlet nozzle 8, wherein the air outlet nozzle 8 is arranged in the ozone outlet 32, and the air outlet nozzle 8 is communicated with the outlet of the ozone generating module 1. The outlet nozzle 8 can diffuse ozone gas to the outside when discharging ozone gas from the ozone outlet 32.

The utility model also comprises a power supply module 9, wherein the power supply module 9 is fixed in the shell 3, the power supply module 9 can be electrically connected with a municipal power supply by a power line, and the output end of the power supply module 9 is electrically connected with the input ends of the atomizer 4, the ozone generating module 1, the air pump 2 and the turbine radiator fan 7 by adopting the power line. The power module 9 supplies power to the atomizer 4, the ozone generating module 1, the air pump 2 and the turbo cooling fan 7, and conforms to preset voltage and current values. The wind blown by the turbo cooling fan 7 can also be blown onto the power module 9 to cool the power module 9, and finally, the wind is discharged from the second cooling port 12.

The utility model also comprises a control main board 10, the control main board 10 is fixed in the shell 3, the control main board 10 is connected with the atomizer 4, the ozone generating module 1, the air pump 2 and the turbine radiator fan 7 in a bidirectional signal way, the shell 3 consists of a rear cover 35 and a face cover 36 which are detachably connected, a starting switch 37 and a display screen 38 are arranged on the face cover 36, the control main board 10 controls the atomizer 4, the ozone generating module 1, the air pump 2 and the turbine radiator fan 7 through logic control language edited in advance, and the starting switch 37 can control the electrifying of the power module 9, so that the starting and stopping of the disinfection equipment are controlled.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (8)

1. An atomized ozone plasma disinfection device comprises an ozone generation module (1), an air pump (2) and a shell (3), wherein the ozone generation module (1) and the air pump (2) are arranged in the shell (3), and the ozone generation module (1) generates ozone and plasma, and is characterized by further comprising an atomizer (4) and a water tank (5) which are fixed outside the shell (3), water in the water tank (5) is atomized by the atomizer (4) after being introduced into the atomizer (4), the shell (3) is provided with an air source inlet (31) and an ozone outlet (32), an air inlet of the air pump (2) is opposite to the air source inlet (31), an air outlet of the air pump (2) is connected with the air inlet of the ozone generation module (1), and an outlet of the ozone generation module (1) is communicated with the ozone outlet (32), and a water mist outlet of the atomizer (4) and the ozone outlet (32) are located on the same side of the shell (3) and are close to each other.

2. An atomized ozone plasma disinfection apparatus according to claim 1, characterized in that the atomizer (4) is detachably fixed at the top of the water tank (5), a water inlet (41) is arranged at the bottom of the atomizer (4), a through opening (51) is arranged at the top of the water tank (5), a first cotton stick pipe (52) and a second cotton stick pipe (53) are adopted between the water tank (5) and the atomizer (4) for butt joint of conveying water, the first cotton stick pipe (52) is in a vertical state, the second cotton stick pipe (53) is in a 90-degree bending state, and the second cotton stick pipe (53) is arranged in the atomizer (4).

3. An atomized ozone plasma disinfection apparatus according to claim 2, characterized in that the second cotton swab tube (53) is cut with a notch (531) in the middle.

4. An atomized ozone plasma disinfection device according to claim 3, characterized in that the water tank (5) or the atomizer (4) is detachably fixed with a clamping groove (33) arranged outside the housing (3) through a spring buckle (6).

5. An atomized ozone plasma disinfection apparatus according to claim 4, characterized in that it further comprises a turbo cooling fan (7), said turbo cooling fan (7) being arranged in said housing (3), said housing (3) being provided with a cold air inlet (34), said turbo cooling fan (7) inlet being opposite to said cold air inlet (34), said turbo cooling fan (7) outlet being opposite to said ozone generating module (1).

6. An atomized ozone plasma disinfection apparatus according to claim 5, characterized in that it further comprises an air outlet nozzle (8), said air outlet nozzle (8) being mounted in said ozone outlet (32), said air outlet nozzle (8) being in communication with the outlet of said ozone generating module (1).

7. An atomized ozone plasma disinfection apparatus according to claim 6, further comprising a power supply module (9), wherein the power supply module (9) is fixed in the housing (3), the power supply module (9) is electrically connected with a municipal power supply by a power line, and an output end of the power supply module (9) is electrically connected with an input end of the atomizer (4), the ozone generating module (1), the air pump (2) and the turbo cooling fan (7) by electric wires.

8. An atomized ozone plasma disinfection device according to claim 7, characterized in that the device further comprises a control main board (10), wherein the control main board (10) is fixed in the housing (3), the control main board (10) is connected with the atomizer (4), the ozone generating module (1), the air pump (2) and the turbine radiator fan (7) in a bidirectional signal manner, the housing (3) is composed of a rear cover (35) and a face cover (36) which are detachably connected, and a start switch (37) is arranged on the face cover (36).

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