KR20010002028A - An ozonizer - Google Patents

Abstract

PURPOSE: An apparatus for generating ozone(O3) for use in water supply and drainage, and sludge treatment or foods sterilization is provided, which is characterized in that several thermal radiating plates surrounding a dielectric quartz tube are installed to prevent the internal temperature of an ozone generating tube from elevating so that it is possible to be used in a high temperature. CONSTITUTION: The apparatus comprises an ozone generating tube(1), that is, a dielectric quartz tube(10) whose inside is installed with a coil and whose circumference is surrounded by a copper plate(30) linking with several radiating plates(40) in a radial manner; a transformer generating high voltage; a case(90) with electronic parts, on which a cooling fan(50) is backside. Also, this apparatus designed for supplying ozone into water has a connecting tube(80) projecting outside through the ozone generating tube.

Description

Ozone generator {AN OZONIZER}

The present invention relates to an ozone generator, and more particularly, it is possible to supply ozone (O ₃ ) generated by high voltage to water to perform water and sewage treatment and sludge treatment as water treatment, or to sterilize food such as meat or vegetables. To an ozone generator.

Ozone is a structure that combines three oxygen atoms at room temperature. It is a colorless gas at room temperature, and has a sterilizing action and a deodorizing action by strong oxidizing power.

The ozone generating principle of the ozone generating tube will be described with reference to the accompanying drawings, FIG. 1.

1 is a conceptual diagram for explaining the principle of ozone generation.

Applying a high voltage of alternating current to the electrode 10 with the two electrodes 10 facing in parallel with the glass, which is the dielectric 20, between the dielectric 20 and the electrode 10 in the space between the corona discharge (CORONA) DISCHARGE) occurs and the corona discharge breaks the ring of oxygen molecules and forms the principle that ozone is generated by attaching oxygen atoms to the oxygen molecules by force.

The ozone generating tube which generates ozone by using this principle is to make ozone by installing a coil wound in a spring type inside a glass tube which is a dielectric and applying alternating current high voltage to the coil.

At this time, in order to prevent the magnetic field from leaking to the outside, the copper plate is tightly wrapped around the outer periphery of the glass tube, and the ozone generating tube is accommodated in a box or the like.

The ozone generator consists of an ozone generator tube, a transformer for generating high pressure, and a PCB in which electronic components are inserted.

The ozone generator applied to the present invention supplies ozone generated in water, and for this purpose, a connection pipe connected to the ozone generator is protruded to one side of the ozone generator and a tube is connected to the ozone through the tube. Ozone generated from the generator pipe is supplied to the water.

However, the conventional ozone generator used in the ozone generator is housed in a box or the like, and if it is used for a long time, the high temperature heat generated inside the ozone generator tube does not radiate to the outside and the glass tube is heated (the softening point of the glass tube is about 800 ° C). There is a problem such as corrosion or melting, can not be used for a long time and there is an inconvenience to turn off the ozone generator by hand after a certain time to prevent the glass tube from melting.

In addition, the air flowing into the ozone generator is introduced into an unpurified state, and the discharge generated in the ozone generating tube is in contact with the unpurified air to generate ozone.

The present invention has been made to solve the above-described problems, by using a quartz tube of a high softening point dielectric and by installing a heat sink on the outer periphery of the quartz tube can be used at high temperatures while preventing the inside of the ozone generating tube rises to a high temperature It is an object of the present invention to provide an ozone generator in which air is introduced through a filter and discharge generated by high pressure comes into contact with purified air to generate ozone.

In order to achieve the above object, the present invention provides an ozone generating tube in which a coil is embedded in a glass tube, which is a dielectric, and a copper plate is tightly wrapped around the outer periphery of the dielectric, a transformer generating high pressure, and a PCB in which an electronic component is inserted. An ozone generator that is protected by a case;

The dielectric is made of a quartz tube, a plurality of heat sinks connected to the copper plate is formed radially, and to provide an ozone generator, characterized in that the cooling fan is installed on the rear of the case in which the ozone generating tube is located.

1 is a conceptual diagram illustrating the principle of ozone generation;

2 is a perspective view of an ozone generator according to the present invention,

3 is a perspective view of the inside of the ozone generating tube portion in FIG.

<Explanation of symbols for main parts of drawing>

Reference Signs List 1 ozone generating tube, 10 dielectric, 20 electrode, 30 copper plate, 40 heat sink, 50 cooling fan, 60 timer, 70 filter case, 72 inlet, 80 connector, 90 case, 92: power switch.

Hereinafter, the present invention will be described with reference to the accompanying drawings, FIGS. 2 and 3.

FIG. 2 is a perspective view of the ozone generator according to the present invention, and FIG. 3 is an internal perspective view of the ozone generating tube part of FIG. 2.

First, the basic configuration of the present invention, the ozone generating tube (1), the coil is embedded in the glass tube which is the dielectric (10) and the copper plate 30 is tightly wrapped on the outer periphery of the dielectric (10), and the transformer for generating high pressure And an ozone generator in which the PCB in which the electronic component is inserted is embedded and protected by the case 90;

The dielectric 10 is formed of a quartz tube, and a plurality of radiating plates 40 connected to the copper plate 30 are formed radially, and a cooling fan 50 is formed on the rear surface of the case 90 in which the ozone generating tube 1 is located. It is characterized by being installed.

In more detail, the ozone generating tube 1 has a spring wound coil (omitted in the drawing) inside a quartz tube, which is a dielectric 10, to prevent the magnetic field from flowing out. The copper plate 30 is wrapped in close contact with the outer periphery of the dielectric 10.

The softening point of the quartz tube used in the present invention is about 1600 ° C.

At this time, the ozone generating tube 1 is not accommodated in a box or the like as conventionally and is exposed to the air inside the ozone generator as it is.

In order to cool the heat generated in the ozone generating tube (1), a plurality of heat sinks (40) connected to the copper plate (30) by soldering or the like are formed radially in plural and directly in the case 90 where the ozone generating tube (1) is located. The cooling fan 50 is installed on the rear side.

The ozone generator is constructed by incorporating such an ozone generating tube 1, a transformer (not shown) for generating high pressure, a PCB (not shown) and an electronic component inserted therein.

The ozone generator applied to the present invention supplies ozone generated in water, and for this purpose, a connection pipe 80 connected to the ozone generator 1 is protruded to one side of the case 90 of the ozone generator. A tube is connected to 80 so that ozone generated in the ozone generating tube 1 is supplied to the water through the tube.

On the other hand, a filter case 70 with a built-in filter is installed on the side of the case 90 in which the inlet 72 is formed so that only the purified air flows into the ozone generator, and the front of the case 90 It is preferable to install the timer 60 so that the ozone generation time is controlled by the operation of the timer 60.

As such, the high temperature rising together with the ozone generated by the high-pressure discharge of the ozone generating tube 1 is first cooled by the exposed air, secondly cooled by the heat sink 40, and thirdly cooled by the cooling fan 50. Therefore, it is possible to use for a long time while preventing the ozone generating tube 1 from rising to a high temperature, and it can be used even at a high temperature by using a quartz tube resistant to high temperature as the dielectric material 10.

In addition, the ozone generation time can be adjusted by the operation of the timer 60, so that the inconvenience of turning off the power switch 92 manually after a predetermined time is eliminated, and the discharge generated by the high pressure is in contact with the purified air. It can generate ozone.

As described above, the present invention can be used at high temperature while preventing the rising of the inside of the ozone generating tube to a high temperature by using a quartz tube which is a dielectric having a high softening point and installing a heat sink on the outer periphery of the quartz tube. It is a useful invention to generate ozone in contact with the purified air discharged by the high pressure by introducing the.

Claims (2)

An ozone generating tube (1) in which a coil is embedded in a glass tube, which is a dielectric (10), and the copper plate (30) is wrapped closely on the outer periphery of the dielectric (10), a transformer generating high pressure, and a PCB in which electronic components are inserted An ozone generator internally protected by the case 90; The dielectric 10 is formed of a quartz tube, and a plurality of radiating plates 40 connected to the copper plate 30 are formed radially, and a cooling fan 50 is formed on the rear surface of the case 90 in which the ozone generating tube 1 is located. Ozone generator characterized in that the installation. According to claim 1, wherein the filter case 70 is a filter built-in is installed on the side of the case 90, the inlet hole 72 is formed, characterized in that the timer 60 is installed on the front of the case 90 Ozone generator.