阅读说明：本技术 臭氧及水的混合装置 (Mixing device of ozone and water ) 是由 邱国光 于 2020-06-16 设计创作，主要内容包括：本发明为一种臭氧及水的混合装置,包含：喷雾产生器,具有壳体,以及设于所述壳体上的喷嘴；混合元件,具有环壁,以及由所述环壁界定出的一容置空间,所述混合元件设于所述壳体上并容纳所述喷嘴,使所述喷嘴位于所述容置空间内,所述环壁上开设有连通所述容置空间的喷口；臭氧产生器,供以产生臭氧并输送至所述容置空间内。由于臭氧积聚于混合元件的容置空间内,并在所述混合元件中形成特殊的流动方式,当所述喷嘴喷出雾状液体时,雾状液体能够有效地与积聚于混合元件中的臭氧结合,形成含臭氧的喷雾液体。(The invention is a mixing device of ozone and water, comprising: a spray generator having a housing and a nozzle disposed on the housing; the mixing element is provided with a circular wall and an accommodating space defined by the circular wall, the mixing element is arranged on the shell and accommodates the nozzle, so that the nozzle is positioned in the accommodating space, and the circular wall is provided with a nozzle communicated with the accommodating space; the ozone generator is used for generating ozone and transmitting the ozone into the accommodating space. Because ozone is accumulated in the accommodating space of the mixing element and a special flowing mode is formed in the mixing element, when the nozzle sprays the atomized liquid, the atomized liquid can be effectively combined with the ozone accumulated in the mixing element to form the atomized liquid containing ozone.)

1. An ozone and water mixing apparatus, comprising:

a spray generator having a housing and a nozzle disposed on the housing;

the mixing element is provided with a circular wall and an accommodating space defined by the circular wall, the mixing element is arranged on the shell and accommodates the nozzle, so that the nozzle is positioned in the accommodating space, and the circular wall is provided with a nozzle communicated with the accommodating space;

the ozone generator is used for generating ozone and inputting the ozone into the accommodating space.

2. The ozone and water mixing device as claimed in claim 1, wherein the ozone generator further comprises a gas pipe connected to the accommodating space.

3. The ozone and water mixing device of claim 1, wherein the annular wall is composed of a side wall and a top wall, one side of the side wall is connected to the housing and surrounds the nozzle, the other side of the side wall is connected to the top wall, and the nozzle is disposed on the top wall and allows the spray from the nozzle to pass through the nozzle.

4. The ozone and water mixing device of claim 1, wherein the annular wall is composed of a side wall and a top wall, one side of the side wall is connected to the housing and surrounds the nozzle, the other side of the side wall is connected to the top wall, and the nozzle is disposed on the side wall and allows the spray from the nozzle to pass through the nozzle.

5. The ozone and water mixing device of claim 1, wherein the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the housing and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the gas pipe is connected with the side wall.

6. The ozone and water mixing device of claim 1, wherein the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the housing and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the gas pipe is connected with the top wall.

7. The ozone and water mixing device as claimed in claim 1, wherein the pipe surface of the gas pipe is provided with at least one opening, the gas pipe is communicated with the accommodating space through each opening, and ozone flows into the accommodating space through the gas pipe from each opening.

8. The ozone and water mixing device of claim 1, wherein the annular wall is composed of a side wall and a top wall, one side of the side wall is connected to the housing and surrounds the nozzle, the other side of the side wall is connected to the top wall, and a spoiler is disposed in the accommodating space of the mixing element and is obliquely connected to the side wall of the mixing element.

9. The ozone and water mixing device of claim 1, wherein the number of the spoilers is plural, and each of the spoilers is connected to the side wall of the mixing element at the same inclination angle.

10. The ozone and water mixing device as claimed in claim 1, wherein the ozone generator further comprises a motor connected to the air pipe.

Technical Field

The present invention relates to the field of ozone generating devices, and more particularly, to a mixing device for ozone and water.

Background

Ozone (molecular formula O3) is an allotrope of oxygen (O2), which is a colorless gas with a special odor at room temperature. Ozone is mainly present in the ozone layer at the lower part of the stratosphere at a distance of 20 km from the earth's surface, and is present at a content of about 50ppm, and ozone is mainly used to absorb short-wave ultraviolet rays harmful to the human body and prevent them from reaching the earth.

Ozone has a special property, which can kill floating bacteria in the air in a short time, neutralize and decompose toxic gas, and remove offensive odor. Ozone, as a gaseous strong oxidant at normal temperature, can rapidly diffuse into the whole sterilization space, and the sterilization is very thorough. Ozone is therefore commonly used for air purification and, sterilization, treatment of industrial waste and as a bleaching agent.

The sterilization principle of ozone is as follows: the sterilization process belongs to biochemical oxidation reaction. Ozone can directly oxidize the cell bodies of bacteria, namely destroy DNA of the bacteria to achieve the effect of inhibition, and also destroy RNA of viruses; has certain oxidation effect on various toxins and reduces the toxicity of the toxins.

Ozone can oxidize enzymes needed for decomposing glucose in bacteria, and ozone directly acts with bacteria and viruses to destroy organelles, DNA and RNA of the bacteria, so that metabolism of the bacteria is destroyed, and the bacteria die.

However, ozone is generally difficult to react with water (H)₂O) fusion. In view of the above, it is necessary to provide a technical means for combining ozone and water to increase the utilization rate of ozone sterilization.

Disclosure of Invention

The invention aims to solve the problem that ozone is difficult to dissolve in water and is difficult to be used for eliminating bacteria.

To achieve the above object, the present invention provides a mixing device for ozone and water, comprising:

a spray generator having a housing and a nozzle disposed on the housing;

the mixing element is provided with a circular wall and an accommodating space defined by the circular wall, the mixing element is arranged on the shell and accommodates the nozzle, so that the nozzle is positioned in the accommodating space, and the circular wall is provided with a nozzle communicated with the accommodating space;

the ozone generator is used for generating ozone and conveying the ozone into the accommodating space.

In a preferred embodiment, the ozone generator further comprises a gas pipe communicated with the accommodating space.

In a preferred embodiment, the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the housing and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the nozzle is arranged on the top wall and enables the spray sprayed from the nozzle to pass through the nozzle.

In a preferred embodiment, the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the housing and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the nozzle is arranged on the side wall and enables the spray sprayed by the nozzle to pass through the nozzle.

In a preferred embodiment, the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the shell and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the gas pipe is connected with the side wall.

In a preferred embodiment, the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the shell and surrounds the nozzle, the other side of the side wall is connected with the top wall, and the gas pipe is connected with the top wall.

In a preferred embodiment, the pipe surface of the gas pipe is provided with at least one opening, the gas pipe is communicated with the accommodating space through each opening, and ozone flows into the accommodating space from each opening through the gas pipe.

In a preferred embodiment, the annular wall is composed of an annular side wall and a top wall, one side of the side wall is connected with the housing and surrounds the nozzle, the other side of the side wall is connected with the top wall, and a spoiler is arranged in the accommodating space of the mixing element and is obliquely connected to the side wall of the mixing element.

In a preferred embodiment, the number of the spoilers is multiple, and each spoiler is connected to the side wall of the mixing element at the same inclination angle.

In a preferred embodiment, the ozone generator further comprises a motor communicated with the gas pipe.

Because ozone is accumulated in the accommodating space of the mixing element and a special flowing mode is formed in the mixing element, when the nozzle sprays the atomized liquid, the atomized liquid can be effectively combined with the ozone accumulated in the mixing element, so that the sprayed atomized liquid contains the ozone, bacteria in the atomized liquid can be eliminated, and the atomized liquid containing the ozone can be sprayed on the surfaces of air and objects to achieve the effect of disinfection and sterilization.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is an exploded view of the present invention in a first embodiment;

FIG. 3 is a cross-sectional view showing the flow of the gas stream in the first embodiment of the present invention;

FIG. 4 is a cross-sectional view of the airflow at another perspective of the first embodiment of the present invention;

FIG. 5 is an exploded view of the present invention in a second embodiment;

FIG. 6 is a cross-sectional view showing the flow of the gas stream in the second embodiment of the present invention;

fig. 7 is a sectional view showing a flow state of an air current in a third embodiment of the present invention.

Description of the symbols in the drawings:

spray generator 10

Housing 11

Nozzle 12

Mixing element 20

Annular wall 21

Side wall 211

Top wall 212

Accommodating space 22

Spout 23

Spoilers 24

Side hole 25

Ozone generator 30

Gas pipe 31

Opening 311

Motor 32

Detailed Description

The technical solutions of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 and 2, the present invention is a mixing device of ozone and water, mainly comprising a spray generator 10, a mixing element 20 and an ozone generator 30, wherein:

the spray generator 10 has a housing 11, and a nozzle 12 provided on the housing 11; in the present embodiment, the nozzle 12 communicates with the housing 11, and it should be particularly mentioned that the nozzle 12 can spray fan-shaped spray in different directions according to different models; in the third embodiment, as shown in fig. 7, another type of nozzle 12 is used, and the nozzle 12 is caused to spray in a lateral direction.

The mixing element 20 has a circular wall 21 and an accommodating space 22 defined by the circular wall 21, the mixing element 20 is disposed on the housing 11 and accommodates the nozzle 12, so that the nozzle 12 is located in the accommodating space 22, and the circular wall 21 is provided with a nozzle 23 communicated with the accommodating space 22; in this embodiment, the annular wall 21 is composed of an annular side wall 211 and a top wall 212, one side of the side wall 211 is connected to the housing 11 and surrounds the nozzle 12, the other side of the side wall 211 is connected to the top wall 212, the nozzle 23 is selectively disposed on the side wall 211 or the top wall 212, and the nozzle 12 of a corresponding type is used, so that the spray from the nozzle 12 can pass through the nozzle 23.

The ozone generator 30 is used for generating ozone and transmitting the ozone into the accommodating space 22, in the embodiment, the ozone generator 30 is provided with a gas transmission pipe 31 communicated with the accommodating space 22; preferably, the ozone generator 30 is not limited to a specific device, and the ozone is produced in various ways, such as: the ozone can be obtained by performing silent discharge with dry air or oxygen under 5-25kv AC voltage. The most advanced method for preparing ozone at present is to utilize high-energy ultraviolet rays to photolyze air to correspondingly generate pure ozone. In addition, ozone can be produced by electrolyzing dilute sulfuric acid at low temperature or by heating liquid oxygen. The above-mentioned methods for producing ozone are many and well-known, and therefore, the ozone generator 30 is not limited to the above-mentioned methods.

Secondly, at least one opening 311 is opened on the pipe surface of the air pipe 31, the air pipe 31 is communicated with the accommodating space 22 through each opening 311, and ozone flows into the accommodating space 22 from each opening 311 through the air pipe 31.

As shown in fig. 3, the gas pipe 31 is connected to the side hole 25 on the side wall 211, so that ozone enters the accommodating space 22 from the gas pipe 31, and then forms an annular gas flow in the accommodating space 22, as shown in fig. 4, the nozzle 12 continuously sprays fan-shaped mist liquid towards the nozzle 23, so that the mist liquid can flow through the ozone which fills the accommodating space 22 and flows, and the mist liquid can form turbulent flow by surrounding the ozone in the accommodating space 22 when passing through the accommodating space 22, and the ozone is easily combined with fine water molecules, so that the ozone can be combined with the mist liquid in the accommodating space 22, and the mist liquid can become mist liquid containing ozone when spraying out the nozzle 23. As shown in fig. 7, in the third embodiment, the air pipe 31 can be selectively connected to the top wall 212 and then connected to the accommodating space 22, which has the same effect as the connecting sidewall 211.

Finally, the ozone generator 30 further has a motor 32 connected to the air pipe 31, and since ozone generated in the ozone generator 30 is accumulated only in the ozone generator 30 and is difficult to flow into the accommodating space 22 by itself, the ozone generated in the ozone generator 30 is pushed out by the motor 32, so that ozone can enter the accommodating space 22 of the mixing element 20 more quickly.

As shown in fig. 5, in the second embodiment, one or more spoilers 24 are disposed in the accommodating space 22 of the mixing element 20, and each spoiler 24 is connected to the side wall 211 of the mixing element 20 at the same inclination angle, so that the included angle between each spoiler 24 and the side wall 211 is the same angle, as shown in fig. 6, by disposing each spoiler 24, the flow manner of ozone entering the accommodating space 22 through the air pipe 31 is more complicated, so that the ozone is more easily combined with the atomized liquid sprayed from the nozzle 12 in the accommodating space 22. It is worth mentioning that the turbulent flow effect can be achieved by only arranging one spoiler 24, and the ozone flowing effect can be improved by arranging more spoilers 24, so that the combination effect of ozone and water is increased.

In view of the foregoing, the structural configuration and connection relationship of the present invention in a preferred embodiment thereof, the usage and effects of the present invention are as follows:

as shown in fig. 3, when the user uses the ozone generator 30, the ozone generated by the ozone generator 30 passes through the air pipe 31 and then enters the accommodating space 22 of the mixing element 20 from the opening 311 of the air pipe 31, and since the air pipe 31 is assembled on the side wall 211 of the mixing element 20, the ozone entering the mixing element 20 from the air pipe 31 forms an annular air flow in the accommodating space 22.

As shown in fig. 4, the nozzle 12 ejects the liquid contained in the housing 11, the liquid changes into a fan-shaped atomized liquid after passing through the nozzle 12, the atomized liquid is ejected toward the opening 311 of the mixing element 20, the atomized liquid is combined with the ozone in the accommodating space 22 after passing through the accommodating space 22, and the atomized liquid contains the ozone when being ejected from the opening 311.

As shown in fig. 6, in the second embodiment of the present invention, since the ozone is disturbed by the spoilers 24 in the accommodating space 22, the ozone can flow in the accommodating space 22 repeatedly, and after the mist liquid is sprayed from the nozzle 12, the mist liquid passes through the ozone having a complicated flow, the mist liquid is more efficiently combined with the ozone, and is simultaneously sprayed from the mixing element 20 when the mist liquid passes through the opening 311.

As shown in FIG. 7, in the third embodiment of the present invention, the nozzle 23 is disposed on the side wall 211, and the air pipe 31 is connected to the top wall 212, so that the direction of the spray can be changed and changed to be suitable for different applications.

Because ozone is accumulated in the accommodating space 22 of the mixing element 20 and a special flowing mode is formed in the mixing element 20, when the nozzle 12 sprays the atomized liquid, the atomized liquid can be effectively combined with the ozone accumulated in the mixing element 20, so that the sprayed atomized liquid contains ozone, bacteria in the atomized liquid can be eliminated, and the atomized liquid containing ozone can be sprayed on the air and the surface of an object to achieve the effects of disinfection and sterilization.

In summary, the above embodiments are merely preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.