KR100312288B1 - Ozon generator using double pipe - Google Patents

Abstract

The present invention relates to an ozone generator using a chrome plated ceramic cylindrical tube and a heat resistant glass tube wound with a titanium alloy electrode wire as a double tube. The present invention has a chromium plated cylindrical ceramic tube and has a wire made of a titanium alloy for electrodes. By winding the heat-resistant glass tube as an inner tube, the two cylindrical tubes are properly spaced so that air flows between them to supply electricity, thereby causing a discharge phenomenon between the two electrodes to generate ozone from the air.

Description

Ozon generator using double pipe

The present invention relates to an ozone generator using a chrome plated ceramic cylindrical tube and a heat resistant glass tube wound with a titanium alloy electrode wire as a double tube.

Conventional ozone generators generally use a plate-shaped insulator, on which one side is mounted an electrode plate, and one or more solid derivatives are mounted on the other side to generate a discharge. It is difficult to adjust the separation distance therebetween, so there is a problem that only one local discharge occurs and the ozone generation efficiency is not good because it is not widely distributed on the surface of the electrode plate.

The present invention has a chromium-plated ceramic tube in order to solve the conventional drawbacks, and formed into a double tube made of a heat-resistant glass tube wrapped with a titanium alloy wire inside the inner tube to be wide on the entire surface between the double tube An object of the present invention is to produce a large amount of ozone by causing the discharge phenomenon evenly.

1 is a front view of the present invention

2 is a cross-sectional view of the present invention

Figure 3 is a high voltage electrode assembly of the present invention

4 is a detailed view of a cylinder of the present invention.

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

1, 2: pedestal 3: double pipe

4: cylindrical ceramic cylinder 5: electrode wire

6: heat-resistant glass tube 7: air inlet

8: wire 9: ozone gas outlet

10: earth ship

This will be described in detail based on the accompanying drawings.

A double tube 3 is mounted between the pedestals 1 and 2 on both sides, and the chrome-plated cylindrical ceramic cylinder 4 has an appearance, and the heat-resistant glass tube 6 in which the electrode wire 5 made of titanium alloy is wound. Air flows into the space between them as an inner pipe, and the air inlet 7 and the electric wire 8 are connected to one of the pedestals 1, and the ozone gas outlet 9 and the other pedestal 2 are connected. The earth wire 10 is connected.

The wire 8 of the pedestal 1 is used for the watertight pipe 11 and the connecting material 12 to connect to the electrode wire 5, and the earth terminal 13 to connect the earth wire 10 to the opposite pedestal 2 ) And terminal 14 are used.

The pedestals 1 and 2 are fitted with 0-rings 15 and O-ring guides 16 to prevent air from leaking.

Fixing screw 17 and the support plate 18 is for fixing the base.

According to the present invention configured as described above, when electric power is supplied to the wire 8, a discharge path is formed by the surface of the cylindrical ceramic cylinder 4 between the electrode wire 5 made of titanium alloy and the chromium. Ozone is generated from the air injected between the glass tube 6 and the ceramic cylinder 4 through the outlet 9.

At this time, the heat generated by the discharge phenomenon is dissipated to the atmosphere through the air-cooled cooling fins (19).

Ozone is generated by the discharge that ceramic tube acts as an insulator while supplying power by keeping the proper intervals with the chrome plated cylindrical ceramic tube as the inner tube and the heat-resistant glass tube wound the electrode wire as the inner tube. Since ozone is generated by the discharge phenomenon due to the separation of the electrodes, the standard is capable of miniaturization and generates a large amount of ozone.

As described above, the ozone generator of the present invention generates a large amount of ozone at a minimum size by allowing ozone to be generated by a discharge in a space separated by a double tube made of a chrome plated ceramic cylindrical tube and a heat resistant glass tube wound with titanium alloy electrode wire. Therefore, the ozone generation efficiency is maximized.

Claims (1)

A double tube 3 is mounted between the pedestals 1 and 2 on both sides, and the chrome-plated cylindrical ceramic cylinder 4 has an appearance, and the heat-resistant glass tube 6 in which the electrode wire 5 made of titanium alloy is wound. Air flows into the space between them as an inner pipe, and the air inlet 7 and the electric wire 8 are connected to one of the pedestals 1, and the ozone gas outlet 9 and the other pedestal 2 are connected. Ozone generator using a double pipe, characterized in that to connect the earth line (10).