KR19990083090A - Ultraviolet light irradiation apparatus - Google Patents

Abstract

The present invention is to prevent the reaction product caused by ultraviolet light from adhering to the window member and to prevent the lowering of the ultraviolet radiation intensity, thereby preventing the generation of dust due to the reaction product. The dielectric barrier discharge lamp 2 ) Is disposed and a window member (3) is formed in the container (1) for extracting ultraviolet rays emitted from the dielectric discharge lamp (2), wherein the window member (3) is 100 ° C or more. It relates to an ultraviolet irradiation device, characterized in that a heating means for heating is provided.

Description

Ultraviolet light irradiation apparatus

The present invention relates to an ultraviolet irradiation device for dry cleaning by ultraviolet rays emitted from a dielectric barrier discharge lamp and ozone simultaneously generated by the ultraviolet rays.

Background Art Conventionally, a dry cleaning technique using an ultraviolet irradiation device using an ultraviolet light source has been known, and in the liquid crystal and semiconductor fields, optical earthing and precision light cleaning have been performed by the ultraviolet irradiation device.

Such an ultraviolet irradiation device is conventionally used by a low pressure mercury lamp or a medium pressure mercury lamp that emits ultraviolet rays with good wavelength of 253.7 nm or 184.9 nm as an ultraviolet light source.

And when processing a semiconductor and a liquid crystal device, since various chemical agents, such as an organic solvent, an acid, an alkali, are used, these chemicals are often vaporized and advantageous. These drugs while absorbing ultraviolet light and to decomposition by the light energy and to produce a reaction product by reacting with other chemicals, by way of example, hydrogen sulfide 3 ammonia _{(NH 4) H (SO 4} ) 2 or legacy ammonia (NH _{4) 2} SO ₄ is produced.

Such a reaction product convections as fine dust in a clean room, and when the fine dust collects, it may cause a bad influence on the manufacturing process.

On the other hand, in recent years, instead of the mercury lamp described above, as the ultraviolet light source of such an ultraviolet irradiation device, a dielectric barrier discharge lamp that emits a single wavelength efficiently with strong light energy has been used.

An ultraviolet irradiator using a dielectric barrier discharge lamp as an ultraviolet light source is disposed in a sealed container so as to separate the dielectric barrier discharge lamp from the atmosphere, and the ultraviolet rays emitted from the dielectric barrier discharge lamp pass through a window member provided in a part of the ultraviolet container. To be irradiated to the untreated.

However, the ultraviolet irradiation device using the dielectric barrier discharge lamp has a window member for transmitting ultraviolet rays, and there is a problem that the above-described reaction product is convex and adheres to the window member.

The reason why the reaction product adheres to the window member is that when the dielectric barrier discharge lamp is turned on, the surface temperature of the lamp becomes low at about 70 ° C., so that the window member cannot be sufficiently heated by the radiant heat emitted from the lamp. This is due to a phenomenon in which the reaction product approaching the member is not decomposed by the radiant heat from the window member and adheres directly to the window member.

As a result, there was a problem that the reaction product attached to the window member lowered the transmittance of ultraviolet rays, resulting in uneven ultraviolet intensity in the irradiation area.

In addition, there has been a problem that poor processing or uneven treatment of untreated material occurs, resulting in a lower yield of the product.

In addition, when deposition of the reaction product attached to the window member increases, there is a problem that the reaction product is separated from the window member to become large dust and contaminate the processing environment which is a clean room.

The present invention is due to the above circumstances, and its object is to prevent the reaction product caused by ultraviolet rays from adhering to the window member, thereby preventing the lowering of the ultraviolet radiation intensity and preventing the generation of dust by the reaction product. An ultraviolet irradiation apparatus is provided.

1 is an explanatory view of an ultraviolet irradiation device of the present invention.

2 is an explanatory view of a window member using a thick film heater as the heating means.

3 is an explanatory view of a window member using a micro heater as a heating means.

4 is an explanatory view of a window member using an incandescent lamp as a heating means.

5 is experimental data showing a change in ultraviolet transmittance due to the attachment of the reaction product with the temperature of the window member.

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

1: container

2: dielectric barrier discharge lamp

3: window member

4: reflector

5: incandescent light bulb

H1: thick film heater

H2: linear heater

In order to solve the above problems, the ultraviolet irradiating apparatus of claim 1 includes a dielectric barrier discharge lamp disposed inside the container, and a window member for extracting ultraviolet rays emitted from the dielectric barrier discharge lamp is formed in the container. In

It is characterized in that the heating means for heating the window member to 100 ° C or more is provided.

The ultraviolet irradiating apparatus of claim 2 is the ultraviolet irradiating apparatus of claim 1, wherein the heating means is provided in the ultraviolet irradiating apparatus.

The ultraviolet irradiating apparatus of claim 3 is characterized in that the heating means is a thick film heater formed on the surface of the window member.

The ultraviolet irradiating apparatus of claim 4 is characterized in that the heating means is a linear heater formed on the surface of the window member.

The ultraviolet irradiation device according to claim 5 is characterized in that the electric heating means is an incandescent lamp.

1 is an explanatory diagram of an ultraviolet irradiation device of the present invention.

Inside the container 1 made of stainless steel, a plurality of dielectric barrier discharge lamps 2 for emitting ultraviolet rays are arranged, and in front of the container 1, a window member 3 made of quartz glass for transmitting ultraviolet rays is arranged. It is.

And the heating means H which heats this window member 3 to 100 degrees C or more is formed in the inside of the ultraviolet irradiation device of this window member 3. The heating means H will be described later in detail.

Then, the container 1 is sealed, the dielectric barrier discharge lamp 2 is separated from the atmosphere, and in the container 1, an inert material permeable to light emitted from the dielectric barrier discharge lamp 2, For example, it is filled with gases such as nitrogen, argon and neon.

The dielectric barrier discharge lamp 2 is filled with 250 tons of xenon gas as a discharge gas, and has an input power of 0.2 W per 1 cm 2 of the emitting area, and efficiently emits ultraviolet rays having a maximum value at a wavelength of 172 nm. will be.

4 is a reflector which radiates the ultraviolet-ray radiated | emitted from the dielectric barrier discharge lamp 2 to the window member 3 efficiently.

Next, the heating means will be described.

<Heating means 1>

As shown in Fig. 2, a thick film heater is formed inside the ultraviolet irradiation device of the window member 3, specifically, on the surface of the dielectric barrier discharge lamp side.

This thick-film heater H1 is screen-printed the conductive heating paste on the window member 3 and baked for 30 minutes at 500 ° C.

The heat generation amount of the thick film heater H1 is 1.9 KW.

<Heating means 2>

As shown in FIG. 3, the micro heater H2 which is a linear heater is formed in the inside of the ultraviolet irradiation apparatus of the window member 3, specifically, the surface of the dielectric barrier discharge lamp side.

This micro heater is a linear heater in which a heating element made of nichrome wire is disposed along a microtube made of stainless steel and filled with high purity magnesium powder between the microtubes and is a bendable heater.

This magnesium has an outer diameter of 1.6 mm, a length of 40 m, and a calorific value of about 4 KW.

The reason why the thick film heater or the linear heater, which is a heating means, is formed inside the ultraviolet irradiation device of the window member 3, specifically, on the surface of the dielectric barrier discharge lamp side, is generated at the time of processing the untreated material directly on each heater. It is to prevent the contact of the gas chemicals to prevent the deterioration of the heater or to make a shadow by the heater itself under the heater.

Moreover, the window member 3 can be heated efficiently by forming a thick film heater or a linear heater directly on the surface of the window member 3.

<Heating means 3>

As shown in Fig. 4, a halogen incandescent lamp 5 is disposed inside the container 1 between adjacent dielectric barrier discharge lamps 2.

In this case, the window member 3 is heated by infrared rays emitted from the incandescent lamp.

In this way, when the incandescent lamp is used as the heating means, the manufacture of the ultraviolet irradiation device becomes simpler than the thick film heater or the linear heater described above, and since the shielding of the ultraviolet rays on the window member does not exist completely, the irradiation is performed. The uniformity of the ultraviolet light intensity is further improved.

In this embodiment, the incandescent lamp is a halogen lamp of both ends 500W, 25A.

Next, when the thick film heater was formed in the window member as shown in FIG. 2 in the ultraviolet irradiation device of FIG. 1, an experiment was conducted to examine the state of deposits due to the temperature of the window member. The results are shown in FIG.

In FIG. 5, the vertical axis shows the light transmittance having a wavelength of 172 nm in the window member, and the transmittance increases as the temperature of the window member increases, and thus the reaction product attached to the window member as the temperature of the window member increases. Was decomposed and separated from the window member. When the window member reached 100 ° C., the reaction product disappeared. In addition, when the window member reached 100 ° C., it was found that the reaction product was decomposed by the radiant heat only by approaching the window member and did not adhere to the window member.

As can be seen from this result, by heating the window member to 100 ° C. or more, adhesion of the window member of the reaction product can be prevented, and a decrease in the ultraviolet radiation intensity can be prevented, thereby generating dust by the reaction product. Can be prevented.

As described above, the ultraviolet irradiating apparatus of the present invention heats the window member to 100 ° C or more by a heating means, thereby preventing the UV reaction product caused by various chemicals such as organic solvents, acids, and alkalis from adhering to the window member. It is possible to prevent the fall of the ultraviolet radiation intensity, and to prevent the generation of dust by the reaction product.

In addition, since the heating means is provided in the ultraviolet irradiation device, deterioration by various chemicals such as organic solvents, acids and alkalis does not occur.

Since the window member is directly heated by the heat generated by each heater by using a thick film heater or a linear heater as the heating means, the window member can be efficiently heated.

By using the incandescent lamp as the heating means, the manufacturing can be simplified, the uniformity of the ultraviolet intensity can be further improved, and the window member can be heated.

Claims (5)

In the ultraviolet irradiation device comprising a dielectric barrier discharge lamp disposed inside the container, the window member for extracting the ultraviolet rays emitted from the dielectric barrier discharge lamp is formed in the container, Ultraviolet irradiation apparatus characterized in that the heating means for heating the window member to 100 ° C or more is provided. An ultraviolet irradiating apparatus according to claim 1, wherein said heating means is provided in an ultraviolet irradiating apparatus. The ultraviolet irradiating apparatus according to claim 2, wherein the heating means is a thick film heater formed on the surface of the window member. The ultraviolet irradiating apparatus according to claim 2, wherein the heating means is a linear heater formed on the surface of the window member. The ultraviolet irradiation device according to claim 2, wherein the heating means is an incandescent lamp.