KR102370130B1 - Cleaner of livestock house using ozone water - Google Patents

Abstract

We present a cleaning device using ozone water that generates a high concentration of ozone to increase the cleaning effect and neutralize harmful gases such as active oxygen, which is a by-product. The device is connected to an electrolysis tank that generates oxygen and hydrogen, is connected to the electrolysis tank, and is connected to a plasma ozone generator and plasma ozone generator that generate ozone by receiving oxygen generated in the electrolysis tank. It includes an ozonated water generator to be produced.

Description

Cleaner of livestock house using ozone water

The present invention relates to a cleaning apparatus, and more particularly, to an apparatus for cleaning a pollutant using ozone water in which ozone generated by plasma is dissolved.

Ozone generated by plasma has high sterilizing and oxidizing power, so it is widely used, for example, to clean pollutants generated in livestock houses. Livestock such as cattle, pigs and chickens are usually raised in barns. Inside the barn, there is a strong odor and harmful gas, which is mainly composed of ammonia, hydrogen sulfide, and low-fatty acid from the excrement of livestock, and a large amount of particulate pollutants from daily activities or feed of livestock is generated. In addition, if the air inside the barn is not kept clean, livestock will die from various diseases, so it must be cleaned periodically. Various methods such as plasma, biofilter, activated carbon adsorption, biochemical scrubber, and chlorine dioxide are applied for air purification in livestock houses. Among them, active species generated by plasma have a strong oxidizing and sterilizing power that is about 7 times that of chlorine, and thus have great effects such as sterilization and propagation prevention, and are attracting attention because of their excellent odor removal.

Korean Patent Registration No. 10-1036954 and the like suggest a cleaning method using ozone generated by plasma. However, the conventional plasma method has low ozone generating efficiency, so that the cleaning effect by ozone is not properly exhibited. In addition, in the paper on the physiological characteristics and active oxygen generation of Narra (Pterocarpus indicus) seedlings according to high-concentration ozone treatment, published on August 21, 2008 by Baek Sang-gle, Chonbuk National University, etc. The problem of active oxygen generation by ozone treatment is presented. Accordingly, even if ozone is used to clean livestock, it is necessary to neutralize harmful gases such as active oxygen, which is a by-product.

The problem to be solved by the present invention is to generate a high concentration of ozone to increase the cleaning effect and to provide a cleaning device using ozone water that neutralizes harmful gases such as active oxygen, which is a by-product.

A cleaning apparatus using ozone water for solving the problems of the present invention includes an electrolysis tank for generating oxygen and hydrogen, a plasma ozone generator connected to the electrolysis tank and receiving oxygen generated in the electrolysis tank to generate ozone; It is connected to the plasma ozone generator and includes an ozonated water generator in which ozone and a fluid are mixed to generate ozone water.

In the apparatus of the present invention, the cleaning device may further include a spray nozzle connected to the ozone water generator to spray the ozone water in the form of droplets. The electrolysis tank may include a plurality of electrolysis cells. A hydroxyl group is generated in the ozone water generator. The ozone water generator includes a fluid inlet part, a venturi tube, and an ozone inlet part, and the venturi tube finely converts ozone bubbles introduced from the ozone inlet part. The ozone water generator includes a fourth pipe connected to the injection nozzle, a capillary tube and a vibrator are installed on the fourth pipe, and the vibrator is attached to an outer circumference of the capillary tube.

In a preferred device of the present invention, the cleaning device may further include a hydrogen water generator connected to the electrolysis tank, receiving hydrogen generated in the electrolysis tank, mixing the hydrogen with a fluid, and generating hydrogen water . The cleaning device may further include a spray nozzle connected to the hydrogen water generator to spray the hydrogen water in the form of droplets. The hydrogen water generator includes a fluid inlet, a venturi tube, and a hydrogen inlet, and the venturi tube finely converts bubbles of hydrogen introduced from the hydrogen inlet. The hydrogen water generator includes a fifth pipe connected to the injection nozzle, a capillary tube and a vibrator are installed in the fifth pipe, and the vibrator is attached to an outer periphery of the capillary tube. The hydrogen water neutralizes ozone and active oxygen contained in the ozone water.

In the apparatus of the present invention, the spray nozzle is sprayed toward the cleaning chamber for cleaning the contaminant. The cleaning device can clean the pollutant generated from the livestock house raising livestock. The ozone water and the hydrogen water may be sprayed simultaneously or alternately.

According to the cleaning apparatus using ozone water of the present invention, by generating ozone water with a high concentration of ozone, a high concentration of hydroxyl groups is generated to increase the cleaning effect. In addition, a hydrogen water generator is added to neutralize harmful gases such as active oxygen contained in ozone water. In addition, hydrogen water can obtain ancillary effects such as anti-aging, disease prevention, exercise ability improvement, immunity enhancement, skin disease improvement, etc. along with antioxidant action.

1 is a view for schematically explaining a cleaning apparatus according to the present invention.
FIG. 2 is a view showing the cleaning apparatus of FIG. 1 .
FIG. 3 is a view for explaining the ozone water generator of FIG. 2 .
FIG. 4 is a view for explaining the hydrogen water generator of FIG. 2 .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described in detail below. The embodiments of the present invention are provided to more completely explain the present invention to those of ordinary skill in the art. On the other hand, terms indicating positions such as upper, lower, front, etc. are only related to those shown in the drawings. In practice, the cleaning device can be used in any optional orientation, and in actual use, the spatial orientation changes according to the orientation and rotation of the cleaning device.

An embodiment of the present invention provides a cleaning device for generating ozone water with a high concentration of ozone, thereby increasing the cleaning effect by generating high concentration of ozone and neutralizing harmful gases such as active oxygen, which is a by-product. To this end, a cleaning device for supplying ozone water and hydrogen water will be studied in detail, and a process of cleaning using the cleaning device and neutralizing harmful gases such as active oxygen will be described in detail. The hydrogen water has side effects useful for sterilization and disease prevention, skin care, etc. as well as neutralization of active oxygen. Herein, the side effects will also be described in detail. There are various objects to be cleaned by the ozone water, but it will be mainly described here with a livestock house.

1 is a view for schematically explaining a cleaning apparatus 100 according to an embodiment of the present invention. However, the drawings are not expressed in a strict sense, and there may be components not shown in the drawings for convenience of description.

Referring to FIG. 1 , it is preferable that the cleaning device 100 is connected to the barn LH, and the cleaning device 100 is located outside the barn LH. The barn (LH) is a place where cattle, pigs, chickens, etc. are raised, for example, facilities such as a heat exchanger (HE), a washing machine, and a bulkhead are installed. Contaminants such as harmful odor gas and particulate pollutants generated in the livestock house LH are introduced into the cleaning room 12 through the suction fan 10 and the suction path 11 . In the cleaning chamber 12 , the pollutant source is cleaned from ozone water, hydrogen water, or a combination thereof sprayed from the cleaning device 100 . Preferably, the cleaning chamber 12 is expanded compared to the suction passage 11 to induce expansion and turbulence of the pollutant source, thereby increasing the cleaning effect. The pollutant that has passed through the cleaning room 12 is discharged to the livestock house LH by the discharge fan 14 through the discharge path 13 .

FIG. 2 is a view showing the cleaning apparatus 100 of FIG. 1 . In this case, the cleaning apparatus 100 will be referred to in FIG. 1 . Here, one example of the cleaning apparatus 100 is presented, and various modifications may be made within the scope of the present invention.

According to FIG. 2 , the cleaning apparatus 100 includes an electrolysis tank 20 , a plasma ozone generator 30 , an ozone water generator 40 , a hydrogen water generator 50 , and a spray nozzle 60 . Oxygen generated from the electrolysis tank 20 is supplied to the plasma ozone generator 30 through the first pipe 21, and hydrogen generated from the electrolysis tank 20 is supplied to the hydrogen water generator 30 through the second pipe 22 50) is supplied. The high-concentration ozone generated from the plasma ozone generator 30 is supplied to the ozone water generator 40 through the third pipe 31 . The ozonated water generator 40 and the hydrogen water generator 50 are connected to the first and second injection nozzles 61 and 62 through the fourth and fifth pipes 62 and 63, respectively, to remove the ozone water and hydrogen water into the cleaning chamber ( 12) to spray.

The electrolysis tank 20 is a device that electrolyzes water to generate oxygen and hydrogen. In the electrolysis, an oxidation reaction and a reduction reaction proceed at the anode by applying electric energy to the two electrodes in the electrolyte. Electrolysis of water yields oxygen and hydrogen. Faraday's law holds for the relationship between the amount of electricity during electrolysis and the amount of material produced. The electrolysis tank 20 may be provided with a known separate means to obtain sufficient oxygen and hydrogen. Although the drawings show one first and second pipes 21 and 22, respectively, when the electrolysis tank 20 includes a plurality of electrolysis cells, a plurality of first and second pipes 21 and 22 are provided. can do.

Plasma of the plasma ozone generator 30 is called a fourth material other than solid, liquid, and gas, and the plasma generates high concentration of ozone (O ₃ ) by oxygen introduced from the first pipe 21 . The high-concentration ozone is mixed with water in the ozone water generator 40 through the third pipe 31 to generate OH radicals (hydroxyl groups). The hydroxyl group is harmless to the human body and has excellent oxidizing power. The oxidizing power of the hydroxyl group is strong next to fluorine (F), and it is stronger than ozone (O ₃ ) and chlorine (Cl ₂ ), but it is not toxic or harmful to the human body like fluorine, chlorine, or ozone. The hydroxyl group sterilizes and disinfects pollutants, has a sterilization rate that is about 2,000 times faster than ozone and 180 times faster than ultraviolet rays, and is directly involved in pollutants in air and water to sterilize, deodorize, and decompose.

The conventional plasma method has low ozone generation efficiency, and thus does not properly exhibit cleaning effects such as sterilization and odor removal by ozone. The plasma ozone generator 30 according to the embodiment of the present invention generates the high concentration of ozone by utilizing the high concentration of oxygen generated in the electrolysis tank 20 . When the ozone is high in concentration, the efficiency of generating the hydroxyl group in the ozonated water generator 40 increases. When the amount of the hydroxyl group is increased, the cleaning effect of the pollutant introduced from the livestock house (LH) is increased. By the way, the ozone water generated from the ozonated water generator 40 also generates the hydroxyl groups, but partially contains ozone and active oxygen. The ozonated water generator 40 will be described later with reference to a preferred example.

The hydrogen water generator 50 reacts with the hydrogen introduced from the second pipe 22 to generate hydrogen water. Hydrogen water means water in which hydrogen is dissolved in a high dissolved amount. The hydrogen water acts as an antioxidant to remove active oxygen and ozone dissolved in the ozone water generated by the hydrogen generated from the ozonated water generator 40 . The active oxygen and ozone cause various diseases and aging of livestock. In addition to the antioxidant action of removing the active oxygen and ozone, the hydrogen water has ancillary effects such as anti-aging, disease prevention, exercise ability improvement, immunity enhancement, skin disease improvement, and the like. The hydrogen water generator 50 will be described with reference to a preferred example later.

The injection nozzle 60 includes first and second injection nozzles 60a and 60b. The first injection nozzle 60a is connected to the ozone water generator 40 through a fourth pipe 62 , and the second injection nozzle 60b is connected to the hydrogen water generator 50 through a fifth pipe 63 . The first and second injection nozzles 60a and 60b generate the ozone water and hydrogen water droplets, respectively. The droplet has a large specific surface area, so that the probability of colliding with fine dust together with the pollution source increases, thereby increasing the cleaning effect. The blower 61 includes first and second blowers 61a and 61b connected to the first and second injection nozzles 60a and 60b, respectively. When the wind pressure of the first and second blowers 61a and 61b is applied to the ozone water and the hydrogen water, the size of the droplets prevents aggregation and scatters compared to the case where there is no wind pressure, thereby exhibiting the effect of making the droplets smaller. . When the droplets become finer, collisions with fine dust and the like with the pollution source occur more frequently, thereby further enhancing the cleaning effect.

Although not shown, an electric valve for adjusting or opening and closing a flow rate may be installed in the cleaning apparatus 100 according to an embodiment of the present invention, and a control unit for controlling the operation of the cleaning apparatus 100 may be provided. In addition, in order to obtain an efficient cleaning effect, the first to fifth pipes ( 21 , 22 , 31 , 62 , 63 ), electric valves, etc. may be appropriately disposed. In some cases, the cleaning apparatus 100 may be cleaned by the ozone water and hydrogen water without the injection nozzle 60 .

FIG. 3 is a view for explaining the ozone water generator 40 of FIG. 2 . In this case, the cleaning apparatus 100 will be referred to in FIG. 2 .

Referring to FIG. 3 , the ozone water generator 40 is connected to the fluid storage tank 70a, the third pipe 31 and the fourth pipe 62 . The fluid reservoir 70a provides a fluid, such as water, to the ozonated water generator 40 . The fluid is mixed with the high concentration ozone introduced into the ozone water generator 40 to generate ozone water. The third pipe 31 supplies ozone generated from the plasma ozone generator 30 , and the fourth pipe 62 supplies the ozone water to the first injection nozzle 60a. In some cases, a check valve for preventing the reverse flow of ozone may be installed in the third pipe 31 . An electric valve for controlling or opening and closing a flow rate may be installed between the fluid storage tank 70a and the ozone water generator 40 .

The ozonated water generator 40 includes a fluid inlet 41 , a venturi tube 42 , and an ozone inlet 43 . The venturi tube 42 is positioned between the fluid inlet part 41 and the fourth pipe 62 , and the ozone inlet part 43 is disposed at a position before the ozone enters the venturi tube 42 . Ozone introduced from the third pipe 31 is introduced into the ozone water generator 40 in the form of bubbles. A portion of the ozone is dissolved in the fluid inlet 41 through the ozone inlet 43 and a portion of the ozone is maintained in the form of bubbles. In the ozone water in which the ozone is dissolved, a hydroxyl group (OH radical) is generated. The venturi tube 42 makes the bubbles fine by the venturi effect, thereby increasing the solubility of the ozone and generating more hydroxyl groups. The finer ozone bubbles make it easier to generate the hydroxyl group in the process of passing through the fourth pipe 62 .

The fourth pipe 62 includes a capillary tube 44 , and a vibrator 45 may be attached to an outer circumference of the capillary tube 44 . The vibrator 45 is an element that induces vibration, such as a piezoelectric element. The vibrator 45 is preferably made of a piezoelectric material. Examples of piezoelectric materials include, but are not necessarily limited to, PZT, lithium niobate, quartz, and combinations thereof. In addition, the vibrator 26 may be a Langevin transducer or a vibration generator made of other materials, or a device capable of generating vibration or surface displacement of the capillary tube 44 .

When vibration is generated by the vibrator 45 , cavitation is caused in the ozone water in the capillary tube 44 . The cavitation refers to that when a low pressure is generated in the ozone water, the gas contained in the ozone water escapes from the water and bubbles are formed, thereby creating an empty space without the ozone water. Specifically, the pressure drops on the surface of the object moving the ozonated water at a high speed, and steam is generated at a portion where the pressure is lower than the saturated vapor pressure of the ozonated water or the gas dissolved in the ozonized water comes out to form a cavity, that is, a bubble. At this time, when the bubble disappears and disappears, as the volume of the bubble is rapidly reduced, the pressure of that part becomes very large. When cavitation is applied to the ozone water, the solubility of the ozone is increased to generate more hydroxyl groups.

FIG. 4 is a view for explaining the hydrogen water generator 50 of FIG. 2 . In this case, the cleaning apparatus 100 will be referred to in FIG. 2 .

Referring to FIG. 4 , the hydrogen water generator 50 is connected to the fluid storage tank 70b, the second pipe 22 and the fifth pipe 63 . The fluid storage tank 70b provides a fluid to the hydrogen water generator 50 . The fluid is mixed with the hydrogen introduced into the hydrogen water generator 50 to generate hydrogen water. The second pipe 22 supplies oxygen generated from the electrolysis tank 20, and the fifth pipe 63 supplies the hydrogen water in which the hydrogen and the fluid are mixed to the second injection nozzle 60b. In some cases, a check valve for preventing the reverse flow of oxygen may be mounted on the second pipe 22 . An electric valve for controlling or opening and closing a flow rate may be installed between the fluid storage tank 70b and the hydrogen water generator 50 .

The hydrogen water generator 50 includes a fluid inlet 51 , a venturi tube 52 , and a hydrogen inlet 53 . The venturi tube 52 is positioned between the fluid inlet 51 and the fifth pipe 63 , and the hydrogen inlet 53 is disposed at a position before the hydrogen enters the venturi tube 52 . Hydrogen introduced from the second pipe 22 is introduced into the hydrogen water generator 50 in the form of bubbles. A portion of the hydrogen is dissolved in the fluid inlet 51 through the hydrogen inlet 53 and a portion is maintained in the form of bubbles. When the hydrogen is dissolved, hydrogen water is generated. The venturi tube 52 makes the bubbles fine by the venturi effect to increase the solubility of the hydrogen to generate more hydrogen water. The finer hydrogen bubbles make it easier to generate the hydrogen water while passing through the fifth pipe 63 . In addition, the capillary tube 54 and the vibrator 55 serve to generate more hydrogen water like the capillary tube 44 and the vibrator 45 of the ozone water generator 40 .

Meanwhile, in the cleaning apparatus 100 of the present invention, any one of the venturi tubes 42 and 52 and at least one of the vibrator 45 may be selected. For example, the combination of the venturi tube 52 and the capillary tube 44 and the vibrator 45 in the hydrogen water generator 50 may not exist. In addition, the injection nozzle 60 may be added with means for making the droplets fine. In this case, the ozone water and the hydrogen water may be sprayed at the same time or alternately sprayed at a predetermined time interval.

As mentioned above, although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the scope of the technical spirit of the present invention. possible.

10; suction fan 11; by suction
12; cleaning room 13; exhaust furnace
14; exhaust fan 20; electrolysis tank
21, 22, 31, 62, 63; first to fifth pipes
30; plasma ozone generator
40; Ozone water generator
41, 51; fluid inlet
42, 52; venturi tube
43; ozone inlet
44, 54; capillary
45, 55; vibrator
50; hydrogen water generator 53; hydrogen inlet
60; spray nozzle 61; air blower
70a, 70b; fluid reservoir

Claims (14)

an electrolysis tank for generating oxygen and hydrogen;
a plasma ozone generator connected to the electrolysis tank and receiving oxygen generated in the electrolysis tank to generate ozone; and
It is connected to the plasma ozone generator and includes an ozone water generator that generates ozone water by mixing the ozone and fluid,
The cleaning device includes a hydrogen water generator connected to the electrolysis tank, receiving hydrogen generated in the electrolysis tank, mixing the hydrogen with a fluid, and generating hydrogen water,
The hydrogen water is a cleaning device using ozone water, characterized in that neutralizing ozone and active oxygen contained in the ozone water. The washing device using ozone water according to claim 1, wherein the washing device further comprises a spray nozzle connected to the ozone water generator to spray the ozone water in the form of droplets. The washing apparatus using ozone water according to claim 1, wherein the electrolysis tank includes a plurality of electrolysis cells. The washing apparatus using ozone water according to claim 1, wherein a hydroxyl group is generated in the ozone water generator. According to claim 1, wherein the ozonated water generator includes a fluid inlet, a venturi tube and an ozone inlet, the venturi tube is characterized in that it converts the ozone bubbles introduced from the ozone inlet to a minute using ozonated water cleaning device. 3. The ozone water according to claim 2, wherein the ozonated water generator includes a fourth pipe connected to the injection nozzle, a capillary tube and a vibrator are installed on the fourth pipe, and the vibrator is attached to an outer circumference of the capillary tube. cleaning device using delete According to claim 1, wherein the cleaning device is connected to the hydrogen water generator, the cleaning device utilizing ozone water, characterized in that it further comprises a spray nozzle for spraying the hydrogen water in the form of droplets. According to claim 1, wherein the hydrogen water generator comprises a fluid inlet, a venturi tube and a hydrogen inlet, wherein the venturi tube utilizes ozone water, characterized in that the hydrogen bubbles introduced from the hydrogen inlet are converted finely. one cleaning device. The method of claim 2, wherein the hydrogen water generator includes a fifth pipe connected to the injection nozzle, the fifth pipe is provided with a capillary tube and a vibrator, and the vibrator is attached to the outer periphery of the capillary tube. A cleaning device using ozone water. delete The cleaning apparatus using ozone water according to any one of claims 2 to 8, wherein the spray nozzle is sprayed toward the cleaning chamber for cleaning the pollutant source. The washing device using ozone water according to claim 1, wherein the washing device cleans pollutants generated from livestock houses. The cleaning apparatus using ozone water according to claim 1, wherein the ozone water and the hydrogen water are sprayed simultaneously or alternately.

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