KR100797376B1 - A plate type ozonizer - Google Patents

Abstract

A plate type ozonizer is provided to reduce thickness of an electric discharge plate and enable the electric discharge plate to perform electric discharge in a state that humidity does not affect the electric discharge plate by forming an electric discharge uniformizing glass epoxy layer on a surface of an electric discharge electrode, and improve durability of the electric discharge plate by allowing an air permeation blocking layer to block permeation of air and water into the electric discharge electrode. In a plate type ozonizer including an electric discharge plate(1), the plate type ozonizer is characterized in that: the electric discharge plate comprises an electric discharge electrode(20) formed on both faces of a plate type electrode body(10) formed from glass epoxy, an electric discharge uniformizing glass epoxy layer(30) formed on a surface of the electric discharge electrode to uniformize electric discharge, and an air permeation blocking layer(40) formed between the electric discharge electrode and the electric discharge uniformizing glass epoxy layer to prevent oxidation of the electric discharge electrode; the electric discharge uniformizing glass epoxy layer is heated and bonded to the electric discharge electrode by means of an adhesive epoxy resin(32); and a side face insulation part is formed between the edge of the electric discharge electrode formed on the electrode body and the edge of the electrode body to prevent the electric discharge electrode from being electrically discharged in the side direction of the electric discharge electrode. Further, the air permeation blocking layer is coated by a UV hardening resin hardened rapidly by UV dried rapidly in order to prevent an erosion after forming the electric discharge electrode on the electrode body.

Description

Plate type ozonizer {A plate type ozonizer}

The present invention relates to a flat plate type ozone generating device, and more particularly, in the construction of a flat plate type ozone generating device, a discharge electrode is formed into a flat plate, a discharge layer is formed on the surface of the discharge electrode, and an epoxy layer is formed on the surface of the discharge electrode. And an air penetration barrier layer that prevents oxidation of the discharge electrode between the discharge homogeneous glass and the epoxy layer, so that the discharge through the discharge electrode is uniformly distributed and discharged through the epoxy layer in the discharge uniform glass and induces uniform discharge. The purpose of the present invention is to prevent oxidation of the discharge electrode by the air introduced through the homogenized glass epoxy layer so that stable, uniform and durable ozone production is achieved.

In general, ozone generators generate a ozone by combining an oxygen molecule in the air by silently discharging a voltage of 5 to 25 kV, and ozone generated through the above silent discharge is used for sterilization, deodorization, and air purification. .

Ozone produced through the ozone generator as described above is effective in sterilization and deodorizing air purification, and is used in an air purifier or a sterilizer.

Conventional ozone generator as described above is composed of a discharge electrode having a pointed tip and a discharge electrode having a wide surface, so that the ozone generation in the silent discharge process through the discharge electrode and the discharge electrode, but the ozone generation amount As disclosed in Korean Patent Laid-Open Publication No. 2003-96751, a flat plate ozone generator has been developed in which ceramic layers are formed on both sides of a plate-shaped discharge electrode to make the discharge uniform.

However, the conventional flat ozone generator as described above has been developed for the purpose of purifying the exhaust gas of the vehicle, and its operation is performed smoothly in a high temperature and dry environment such as the vehicle exhaust gas, but the humidity is high. If high, the operation is not smooth, there was a problem that damage caused by local discharge due to the absorbed moisture occurs.

In addition, as described above, the ceramic layer formed on the discharge electrode has a thick thickness, and has a low dielectric constant and operates at a frequency of 250 kHz or higher. There was a problem.

Thus, the present invention is to solve the problems of the conventional flat plate type ozone generator as described above, which is vulnerable to humidity and its operating frequency is high and its application range is limited.

That is, in the present invention, in the construction of a flat plate type ozone generator, a discharge electrode is formed into a flat plate, a discharge homogeneous glass epoxy layer is formed on a surface of the discharge electrode, and a discharge positive electrode is formed between the discharge electrode and the discharge homogenized glass epoxy layer. The air permeation barrier layer is formed to prevent oxidation.

Therefore, the present invention forms a thin epoxy layer on the discharge uniformizing glass made of glass epoxy on the surface of the discharge electrode, the thickness is thinner, uniform discharge is achieved without being affected by humidity, and the air penetrating barrier layer discharges to the discharge electrode. Air and moisture penetration is blocked, so durability is improved.

Hereinafter, described in detail by the accompanying drawings as follows.

Prior to the description of the invention, the terms or words used in this specification and claims should not be construed as limiting in their usual or dictionary meanings, and the inventors should use the concept of terms to best explain their invention in the best possible way. Based on the principle that can be properly defined should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

The present invention is to ensure a uniform discharge without being affected by the humidity in the flat plate type ozone generating device and to improve the durability by preventing oxidation of the discharge electrode due to air penetration during the discharge process.

That is, the present invention operates the power supply unit 110 for supplying power, the high pressure generator 120 and the high pressure generator 120 to generate a high pressure for silent discharge by receiving power from the power supply unit 110. In the flat plate type ozone generating device comprising a control plate 130 for controlling and a plate-shaped discharge plate (1) to generate ozone by silent discharge of the high-voltage power supplied from the high-pressure generator 120, the discharge plate (1) ) Forms a discharge electrode 20 on both sides of the plate-shaped electrode body 10 formed of glass epoxy, and a discharge uniformity glass epoxy layer 30 for uniformizing the discharge on the surface of the discharge electrode 20. will be.

In addition, an air penetration barrier layer 40 is formed between the discharge electrode 20 and the discharge uniformity glass epoxy layer 30 to prevent oxidation of the discharge electrode 20.

In addition, the air permeation barrier layer 40 is coated on the surface of the electrode body 10 with an ultraviolet curable resin which is rapidly cured by ultraviolet light which is rapidly dried to prevent oxidation corrosion after formation of the discharge electrode 20. It can be carried out, the air penetration barrier layer 40 made of the ultraviolet curable resin prevents the oxidation of the discharge electrode 20 formed on the electrode body 10 and discharge uniformity glass epoxy layer in which the discharge is performed in the discharge process ( It is to prevent air from penetrating through 30).

In addition, the discharge uniform glass epoxy layer 30 is configured to be heat-bonded to the discharge electrode 20 through the bonding epoxy resin 32, the bonding epoxy resin 32 is a bonding surface with the discharge electrode 20. By discharging the microgroove 31 formed on the surface of the discharge homogenization glass epoxy layer 30 formed on the side, a uniform resistance value is formed between the discharge electrode 20 so that local discharge of the discharge process is suppressed. will be.

In addition, the discharge electrode 20 formed on the electrode body 10 is formed by forming a side insulating portion 11 formed with a gap with the edge of the electrode body 10 on the edge to prevent discharge to the side. As can be, the side insulation portion 11 is preferably formed by forming a thickness of 2 to 5 times or more of the discharge uniformity glass epoxy layer 30.

On the other hand, in the practice of the present invention, the thickness of the electrode body 10 can be carried out by forming a thickness of the strength that does not cause distortion deformation by the applied voltage, the thickness can be carried out to about 1mm or so In order to facilitate the manufacture and to reduce the production cost, it is preferable to form the thickness to 1.6mm.

The thickness of the discharge electrode 20 formed on both surfaces of the electrode body 10 and the air penetration barrier layer 40 formed of ultraviolet curable resin on the surface of the discharge electrode 20 is 150 μm, respectively. It can be carried out by, but it is preferable to form the thickness to 100㎛ for ease of manufacture and reduction of production cost.

In addition, the thickness of the discharge homogeneous glass epoxy layer 30, which is heat-bonded to the surface of the air penetration barrier layer 40 via an epoxy resin, has a thickness of 0.2 mm or less such that its insulation resistance forms 100 to 600 MΩ / cm 3. The thickness and insulation resistance can be appropriately selected according to the area and distance of the discharge electrode, and it is formed by 300㎛ for ease of manufacture and reduction of production cost. It is preferable.

Hereinafter, the operation of the present invention will be described.

As described above, in the flat plate type ozone generating apparatus, the discharge plate 1 forms discharge electrodes 20 on both sides of the plate-shaped electrode body 10 formed of glass epoxy, and the discharge electrode 20 An air penetration barrier layer for forming a discharge uniformity glass epoxy layer 30 for uniformizing the discharge on the surface and preventing oxidation of the discharge electrode 20 between the discharge electrode 20 and the discharge uniformity glass epoxy layer 30 ( When the power supply is applied to the discharge electrode 20 of the discharge plate 1 by applying the present invention in which 40 is formed, the discharge uniformity glass epoxy layer 30 formed on the surface of the discharge electrode 20 is applied. Local discharge is suppressed and the current spreads uniformly throughout.

As described above, the microgroove 31 formed on the surface of the discharge homogenizing glass epoxy layer 30 in a state where power is applied to the discharge electrode 20 of the discharge plate 1 has a lower resistance value than other portions. As described above, the discharge of the power is made through a number of fine grooves having relatively low resistance values, and the silent discharge on the surface is performed, and ozone is generated in this process.

On the other hand, the discharge uniformity glass epoxy layer 30 of the present invention has a high dielectric constant and can be operated at a frequency of commercial power supplied to a home, such as 50 to 60 Hz, thereby simplifying the configuration of the controller for its operation.

Therefore, the present invention forms a thin epoxy layer on the discharge uniformizing glass made of glass epoxy on the surface of the discharge electrode, the thickness is thinner, uniform discharge is achieved without being affected by humidity, and the air penetrating barrier layer discharges to the discharge electrode. Air and moisture penetration is blocked, so durability is improved.

1 is a main configuration showing an embodiment according to the present invention.

Figure 2 is a detailed perspective view of the discharge plate showing an embodiment according to the present invention.

Figure 3 is a side cross-sectional view showing an embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: discharge plate

10: electrode body

11: side insulation

20: discharge electrode

30: discharge homogenizing glass epoxy layer

31: fine groove

32: epoxy resin

40: air penetration barrier

110: power supply unit 120: high pressure generating unit 130: control unit

Claims (2)

In the flat plate type ozone generator comprised of the plate-shaped discharge plate 1; The discharge plate 1 forms a discharge electrode 20 on both sides of the plate-shaped electrode body 10 formed of glass epoxy, and uniforms the discharge on the surface of the discharge electrode 20. 30, and forming an air penetration barrier layer 40 to prevent oxidation of the discharge electrode 20 between the discharge electrode 20 and the discharge homogenizing glass epoxy layer 30, The discharge uniform glass epoxy layer 30 is configured to be heat-bonded to the discharge electrode 20 via the bonding epoxy resin 32, Discharge electrode 20 formed on the electrode body 10 is characterized in that the side insulating portion 11 is formed between the edge of the electrode body 10 on the edge to prevent discharge to the side Flat ozone generator. The method of claim 1; The air permeation barrier layer 40 is formed of a coating of an ultraviolet curable resin that is rapidly cured by ultraviolet light which is rapidly dried to prevent oxidation corrosion after formation of the discharge electrode 20 on the surface of the electrode body 10. Flat type ozone generating device.

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