KR200303529Y1 - Ozone generating lamp for preventing blacking - Google Patents

Abstract

In an ozone generating lamp having a transparent tube and an electrode structure having a cylindrical main electrode and an auxiliary electrode which is provided at both ends of the transparent tube and spaced apart inside the main electrode, the cylindrical main electrode has both ends of the transparent tube. An ozone generating lamp whose diameter increases as it proceeds from the inside to the inside is disclosed. Since there is no light transmitted from the outer surface of the main electrode to the transparent tube, it is possible to prevent blackening and increase the life of the lamp.

Description

Ozone generating lamp for preventing blacking

The present invention relates to an ozone generating lamp, and more particularly, the hollow electrode constituting the main electrode installed at both ends of the transparent tube is reduced in diameter as it proceeds inward from both ends of the transparent tube to the inside of the hollow electrode. The present invention relates to an ozone generating lamp in which a discharge only occurs and blackening does not proceed rapidly.

In general, ozone (ozone) is an allotrope of oxygen, which is composed of three oxygen atoms, is a light blue gas with a specific smell, and ozone is formed when discharged in dry oxygen. It is widely used for sterilization, disinfection and air purification using oxidation.

Conventionally, in order to generate ozone, it has been mainly performed through electrical high voltage discharge, but there is a problem of generating harmful substances such as nitrogen oxides (NOx, SOx), etc., and there is a problem in safety due to the use of high voltage.

Therefore, an ozone lamp that generates ozone by using light instead of a method of generating ozone through such a high voltage discharge has been proposed.

Conventional ozone generating lamps that generate ozone have a mainstream filament type, but the life of the lamp is shortened by stress applied to the lamp due to the high current required at initial lighting, and barium (Ba) By using an electrode coated with an oxide of calcium (Ca), ultraviolet rays are rapidly decreased according to the period of use and the number of ON / OFF times.

An alternative to this is the lamp shown in FIG. 1, wherein an end portion of the transparent tube 5 is formed with an encapsulation portion 8 interposed with a metal foil 9 to seal the inside of the transparent tube 5 and the metal foil 9. An external power source is applied to the main electrode 3 and the auxiliary electrode 2 through each.

In addition, the auxiliary electrode 2 is positioned inside the main electrode 3 and the main electrode 3 of the cylindrical electrode so that electrons are moved through the space between the main electrode 3 and the auxiliary electrode 2 and argon ( Ultraviolet rays were emitted by discharge of a mixed gas atmosphere consisting of Ar), neon (Ne), nitrogen (N), and mercury (Hg).

Therefore, the lamp of such a structure has the advantage that the lifetime of the lamp is increased because the discharge is generated by electron movement between the electrodes without the oxide being coated on the electrode.

However, according to this conventional ozone generating lamp, since light (4 (parts indicated by dotted lines in Fig. 1)) is generated not only inside the main electrode but also by discharge along the outer surface from the end portion of the cylindrical main electrode. Since the inside of the transparent tube close to the main electrode is rapidly blackened, there is a problem that the life of the lamp is reduced.

Accordingly, an object of the present invention is to provide an ozone generating lamp that prevents blackening of the lamp and improves the life of the lamp.

Other objects and features of the present invention will be more clearly understood through the preferred embodiments described below.

1 is a cross-sectional view showing a conventional ozone generating lamp.

2 is a cross-sectional view showing another ozone generating lamp according to the present invention.

3 is a perspective view showing the structure of an electrode applied to the present invention.

According to the present invention, in the ozone generating lamp having a transparent tube and an electrode structure having an auxiliary electrode which is provided at both ends of the transparent tube and is spaced apart from the inside of the main electrode, the cylindrical main electrode An ozone generating lamp whose diameter increases as the silver proceeds inward from both ends of the transparent tube is disclosed.

Preferably, the transparent tube is made of high purity quartz of SiO ₂ 99.99% or more, the main electrode may be made of nickel or nickel plating, and the auxiliary electrode may be made of molybdenum.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in detail.

The present inventors interpreted that the phenomenon caused by the conventional lamp electrode was generated along the outer surface by the discharge between the outer surface of the main electrode and the auxiliary electrode by the relationship between the shape of the main electrode and the auxiliary electrode. Therefore, in order to eliminate this phenomenon, it was determined that changing the shape of the main electrode could be an alternative.

2 is a cross-sectional view showing the configuration of an ozone lamp according to an embodiment of the present invention, Figure 3 is a perspective view showing an electrode structure according to the present invention.

An end portion of the transparent tube 15 made of high purity quartz (SiO ₂ 99.99% or more) is formed with an encapsulation portion 18 interposed with the metal foil 19 to seal the inside of the transparent tube 15 and externally through the metal foil 19. Power is applied to the main electrode 13 and the auxiliary electrode 12, respectively.

The transparent tube 15 of the present invention applies ultra-high-purity quartz tube to emit 184.9nm UV, which is short wavelength, in addition to the 253.7nm sterilization line, so that the strong deodorizing effect and sterilization of the non-irradiated surface less than UV light can be achieved.

Referring to FIG. 3, the cylindrical main electrode 13 has a shape in which the diameter of the cylinder gradually increases toward the inside with respect to the encapsulation side.

For example, the diameter D1 of the encapsulation side of the main electrode is 5 mm, the diameter D2 of the other side is about 7 mm, and the length L may be about 11 mm. Nickel is used as the material of the main electrode, and molybdenum may be applied to the auxiliary electrode and the metal foil.

According to the ozone generating lamp according to the present invention, when the power is applied, the electrons are moved through the space formed between the main electrode and the auxiliary electrode, according to the argon (Ar), neon (Ne), nitrogen ( N), ultraviolet rays are emitted by discharge of a mixed gas atmosphere composed of mercury (Hg).

At this time, according to the electrode structure of the present invention, the discharge between the auxiliary electrode and the outer surface of the main electrode is prevented, the discharge is generated only inside the cylindrical main electrode, and the light generated accordingly is generated between the opposite ends of the electrodes It is only passed into space. This is interpreted as not leaking to the outer surface of the main electrode due to the discharge form between the auxiliary electrode and the main electrode.

Therefore, since there is no light transmitted from the outer surface of the main electrode to the transparent tube, it is possible to eliminate the blackening phenomenon.

In addition, since light is transmitted only between the electrodes at both ends of the transparent tube, the amount of ultraviolet rays output is increased.

In the above described with reference to a preferred embodiment of the present invention, it can be variously changed or modified at the level of those skilled in the art. For example, the rate at which the cylindrical diameter of the main electrode increases can be appropriately adjusted. In addition, of course, the material constituting the main electrode or the auxiliary electrode may be replaced with another material or plating technology may be applied as necessary.

As described above, according to the present invention, the diameter of the cylindrical shape of the main electrode increases toward the inside, thereby eliminating discharge between the auxiliary electrode and the outer surface of the main electrode, thereby transmitting light from the outer surface of the main electrode to the transparent tube. Since there is no there is an advantage that can prevent the blackening phenomenon to increase the life of the lamp.

In addition, since light is transmitted only between the electrodes at both ends of the transparent tube, the amount of ultraviolet light output is increased.

Claims (3)

In an ozone generating lamp having a transparent tube, and an electrode structure having a cylindrical main electrode and the auxiliary electrode which is provided spaced apart from the inside of the main electrode, which is provided at both ends of the transparent tube, The cylindrical main electrode ozone generating lamp to prevent blackening, characterized in that the diameter increases as it proceeds inward from both ends of the transparent tube. The ozone generating lamp of claim 1, wherein the transparent tube is made of high purity quartz of SiO ₂ 99.99% or more. The ozone generating lamp of claim 1, wherein the main electrode is made of nickel or nickel plating, and the auxiliary electrode is made of molybdenum.