KR101212272B1 - Ozone generator - Google Patents

Abstract

The present invention simplifies the equipment by improving the cooling configuration for rapidly dissipating the high temperature heat generated by the device when generating ozone, and accurately measures and controls the amount of ozone generated inside the unit space, thereby excessively generated. The present invention relates to an ozone generating apparatus capable of preventing the air from being polluted by ozone.
To this end, the present invention, and a case for each component is installed; An ozone generating unit installed inside the case and provided with an ozone generating unit including a dielectric inside the housing to generate ozone through silent discharge; Is installed inside the case, the cooling pipe body is installed on the outer side of the dielectric inside the housing of the ozone generating unit circulating a refrigerant for dissipating the heat of high temperature generated by the discharge is installed, the cooling pipe body in the form of gas It is configured to include; a cooling unit provided with a refrigerant supply unit for supplying the refrigerant to the cooling pipe by transforming the gas after the liquid material is supplied to supply the refrigerant of the.

Description

Ozone apparatus

The present invention relates to an ozone generator.

In detail, the present invention simplifies the equipment by improving the cooling configuration for rapidly dissipating the high temperature heat generated by the device when generating ozone, and accurately measures and controls the amount of ozone generated inside the unit space, thereby excessively The present invention relates to an ozone generating device capable of preventing air from being contaminated by generated ozone.

Ozone is a substance with high oxidizing power, and is used for sterilization, deodorization, and discoloration. In particular, ozone is disinfected in oxygen in theaters, schools, hospitals, etc., to disinfect beverages by purifying and disinfecting air. In addition to the daily life, such as bleaching and the determination of the structure of organic compounds, as well as industrial water treatment, wastewater treatment is essential for the process of solving the increasingly serious environmental pollution.

As a technique for artificially generating such ozone, Korean Patent Application No. 1992-15181 (Non-discharge type ozone generating device, hereinafter, Patent Application Invention 1) and Korean Patent Application No. 2007-49828 (Ozone generator, hereinafter, Patent Report) In the original invention 2, the configuration of the apparatus for generating ozone described above is presented.

The above-mentioned original invention 1, "Forming a cooling water circulation system on the outside of the metal tube made of stainless steel material, fixedly installed in a concentric circle inside the metal tube and forming a gap between the body and the inner body It is applied to the internal electrode by inserting a circular winding wound at a predetermined interval inside the dielectric, and a cooling water tube for cooling the high temperature heat generated in the discharge process to the outside of the dielectric.

[0011] The present invention 2 discloses an ozone generator, comprising: a first electrode tube forming a first electrode and flowing a cooling material into an internal space; A dielectric tube spaced apart from the first electrode tube at a predetermined interval to form a discharge space and inducing ozone generation in the discharge space; A heat sink positioned outside the dielectric tube and integrally forming a second electrode tube forming a second electrode, and dissipating heat generated in the discharge space; It is fastened to one side of the second electrode tube is fixed to one side of the first electrode tube and the dielectric tube, the air flow inlet for introducing oxygen (O2) or air into the discharge space of the first electrode tube A first stopper of non-conductive material having a cooling inlet for introducing the cooling material into the interior space; And an airflow outlet and the first electrode tube which are fastened to the other side of the second electrode tube to fix the first electrode tube and the other side of the dielectric tube and discharge ozone (O3) or air from the discharge space. And a second stopper of the non-conductive material having a cooling outlet for discharging the cooling material from the inner space of the ".

As described above, the present invention 1 and the invention 2 are commonly provided with a dielectric for generating ozone and generating ozone, and a cooling structure for dissipating high temperature heat generated during discharge is provided at the outside. .

Specifically, in the case of the invention of the present invention 1 to form a water jacket-type cooling water pipe to the outside of the dielectric to perform heat dissipation, and in the case of the invention of the invention 2 to allow the cooling water or the refrigerant to pass through the internal space of the first electrode plate. The heat sink is installed outside the dielectric tube to perform heat dissipation.

In the configurations of the present invention 1 and the original invention 2, it is suggested that the cooling configuration basically uses the cooling water. However, when the cooling water is used as the refrigerant, the configuration of a pump or the like having a considerable capacity is circulated to circulate the cooling water having a high specific gravity. This not only increases the size of the equipment, but also exposes the problem of complicated configuration.

In addition, in the configurations of the above-mentioned source invention 1 and the above-mentioned source invention 2, only the ozone is generated, and only the specific amount (the amount of ozone regulated by the government) causes ozone pollution. There is a problem that the secondary pollution caused by excessive ozone generation in the unit space, the unit area because there is not proposed a configuration to control the degree.

The present invention has been invented to solve the above problems.

Accordingly, the present invention simplifies the equipment by improving the cooling configuration for rapidly dissipating the high temperature heat generated by the device when generating ozone, and accurately generates and excessively generates the amount of ozone generated inside the unit space. It is an object of the present invention to provide an ozone generating device capable of preventing the air pollution caused by the ozone.

In order to achieve the above object, the present invention has the following configuration.

The present invention provides a case for installing each component; An ozone generating unit installed inside the case and provided with an ozone generating unit including a dielectric inside the housing to generate ozone through silent discharge; Is installed inside the case, the cooling pipe body is installed on the outer side of the dielectric inside the housing of the ozone generating unit circulating a refrigerant for dissipating the heat of high temperature generated by the discharge is installed, the cooling pipe body in the form of gas It is configured to include; a cooling unit provided with a refrigerant supply unit for supplying the refrigerant to the cooling pipe by transforming the gas after the liquid material is supplied to supply the refrigerant of the.

In addition, the present invention, the sensor is installed in the outlet of the ozone discharge of the ozone generator unit for measuring the amount of ozone; And a controller for controlling the power supplied to the ozone generator by determining whether the ozone generator is driven in comparison with the amount of ozone sensed by the sensor and a preset allowable discharge amount previously input.

In particular, the present invention, when the amount of ozone generated and discharged in the ozone generating unit is excessively generated and discharged than the set amount, the valve is installed on the outlet side for discharging ozone to the outside, branched off the outlet side An ozone treatment unit for treating excessively generated ozone induced through the branch pipe is installed inside the case.

As described above, the present invention simplifies the equipment by circulating the heat generated during the operation of the ozone generating unit with a low specific gravity refrigerant vaporized in advance so that the entire equipment can be installed inside the compact case, thereby miniaturizing the apparatus. It can be effected.

In addition, the present invention is to set the amount to generate ozone in the unit space and the unit area, the amount of ozone generated by the real-time ozone is accurately measured so that the amount of ozone can be automatically controlled, so There is an effect that can prevent the secondary pollution of the air.

1 is a block diagram of an ozone generator according to the present invention.
Figure 2 is a perspective view of the ozone generator of the ozone generator according to the present invention.
3 is a cross-sectional view of the ozone generator of the ozone generator according to the present invention.
Figure 4 is an illustration of the actual installation state of the ozone generator according to the present invention.

1 is a block diagram of an ozone generator according to the present invention, Figure 2 is a perspective view of the ozone generator according to the present invention, Figure 3 is a cross-sectional view of the ozone generator according to the present invention, Figure 4 Exemplary installation state of the ozone generator according to the invention.

Referring to the drawings, the ozone generator according to the present invention is configured by installing the ozone generator 20, the cooling unit 30 in the case 10. In addition to such a configuration, the present invention includes a sensor 40, a controller 50, and an ozone treatment unit 60.

The case 10 provides a space in which each component is installed, and a discharge passage 11 for discharging ozone generated by the ozone generator 20 to the outside is formed at one side. At this time, the discharge passage 11 or the discharge port 22 of the housing 21 of the ozone generator 20 to be described later is provided with a valve 12 for controlling the discharge of ozone.

The ozone generating unit 20 is provided with an ozone generating unit 23 for generating ozone by generating a silent discharge in the housing 21. Here, the ozone generating unit 23 has a dielectric 24 to allow the corona discharge (CORONA DISCHARGE) to be performed smoothly, it is well known that a plurality of electrodes are installed around the dielectric 24 same.

In particular, the housing 21 is formed with an oxygen inlet 25 through which oxygen or air is introduced to generate ozone, and an outlet 22 through which the ozone generated by the silent discharge is discharged is formed at the other side. .

The cooling unit 30 has a configuration installed in association with the housing 21 in the case 10, the cooling tube 31, the refrigerant supply unit 32.

The cooling pipe 31 is installed outside the dielectric 24 inside the housing 21 of the ozone generator 20. The cooling pipe body 31 is configured to circulate a refrigerant for dissipating high temperature heat generated by discharge in the housing 21.

That is, the cooling pipe body 31 is provided with a plurality of radially from the outside of the dielectric 24, the refrigerant inside is progressed and is formed of a fine tube (diameter of a small diameter) of the proper diameter to perform a rapid heat dissipation.

The refrigerant supply unit 32 is in communication with the cooling pipe 31, and is configured to receive a liquid cooling material (typically cooling water) from the outside to transform it into a gas and then supply it to the refrigerant. To this end, the refrigerant supply unit 32 is applied to a carburetter (carburetter, 氣化 器), it is composed of a small vacuum ejector (or a small vacuum pump) for supplying the vaporized refrigerant.

By the configuration of the cooling unit 30 so as to receive the liquid material and transform it to supply the refrigerant of the gas, the ozone generator can install all the components in a single small case 10.

In other words, the ozone generator is supplied with a liquid cooling material from the outside to be changed to a gas with a low specific gravity, and then can be supplied to the pump to replace the pump of a considerable capacity with a small vacuum ejector or a small vacuum pump. In addition, it is possible to obtain an excellent heat dissipation effect according to a more smooth heat dissipation action by the circulation of the gas refrigerant with active flow.

In an additional configuration, the ozone generator includes a configuration of the sensor 40 and the control unit 50. This additional configuration is a configuration for solving the excessive amount of ozone emissions that cause secondary pollution by accurately measuring the amount of ozone generated.

The sensor 40 is installed at the outlet 22 through which ozone of the ozone generator 20 and the housing 21 is discharged. The sensor 40 is for measuring the emission of ozone, and in conjunction with the sensor 40, the case 10 may be provided with a display configuration such as a meta or 7-segment or an LCD liquid crystal panel.

The controller 50 is basically configured to control whether the ozone generator 20 is driven and to control the power supplied to the ozone generator 20. That is, the controller 50 contrasts the amount of ozone sensed by the sensor 40 with a preset allowable discharge amount. Subsequently, it is determined whether the ozone generator 20 is driven based on the prepared data to control the power supplied to the ozone generator 20.

To this end, the controller 50 may be configured as a control circuit by a microprocessor with the simplest circuit configuration, or may be applied to a microcomputer (microcom) or the like for more precise data input and precise control.

In a further additional configuration, the ozone generator is configured to guide the discharge of ozone to the other side of the power supply of the ozone generator 20 to the other side to neutralize it or to use it separately. You will have more.

The ozone treatment unit 60 may include a branch pipe 61 branched from an outlet 22 of the housing 21 of the ozone generator 20 or a discharge passage 11 of the case 10 extending from the outlet 22. It is coupled to communicate with each other, and the valve 12 is installed in the outlet 22 of the ozone generator 20, the housing 21 or the discharge passage 11 of the case 10.

The ozone treatment unit 60 is a valve 12 installed on the outlet 22 side for discharging ozone to the outside when the amount of ozone generated and discharged from the ozone generator 20 is excessively generated and discharged. ) And through the branch pipe 61 branched from the outlet 22 side to handle excessively generated ozone.

At this time, the ozone treatment is to supply oxygen to the ozone treatment unit 60 to neutralize the ozone, or once the ozone is stored and resupply the stored ozone into the housing 21 when the ozone generator 20 is re-driven. Ozone generation efficiency can be improved. In addition, the stored ozone may be used for other purposes by forming a separate discharge configuration in the ozone treatment unit 60.

10: case 20: ozone generator
30: cooling part 40: sensor
50: control unit 60: ozone treatment unit

Claims (3)

A case 10 for installing each component; An ozone generating unit 20 installed inside the case 10 and provided with an ozone generating unit 23 including a dielectric 24 to generate ozone through silent discharge inside the housing 21; ; Is installed inside the case 10, the refrigerant is installed inside the housing 21 of the ozone generator 20 to the outside of the dielectric 24 to dissipate the heat of high temperature generated by the discharge circulation Cooling pipe 31 is installed, the liquid material is supplied to supply the refrigerant in the form of gas to the cooling pipe 31, and then transformed into a gas to supply the refrigerant to the cooling pipe 31 to supply the refrigerant And a cooling unit 30 including the unit 32.
A sensor (40) installed at an outlet (22) through which ozone of the ozone generator (20) housing (21) is discharged and for measuring the amount of ozone; A controller 50 for controlling the power supplied to the ozone generator 20 by determining whether the ozone generator 20 is driven in consideration of the amount of ozone sensed by the sensor 40 and a preset allowable discharge amount previously input; More,
When the amount of ozone generated and discharged by the ozone generator 20 is excessively generated and discharged than a set amount, the valve 12 installed at the outlet 22 side for discharging ozone to the outside is blocked, and the outlet ( 22) The ozone generator, characterized in that the ozone treatment unit 60 for inducing excessively generated ozone through the branch pipe (61) branched from the side installed in the case (10).
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