KR100514103B1 - an Ozone lamp that radiates an anion - Google Patents

Abstract

The present invention relates to an ozone lamp that emits negative ions.

Particularly, a tube in which SiO ₂ , B ₂ O ₂ , ZnO, Al ₂ O ₃ , Na ₂ O, FeO are mixed at a predetermined ratio, is connected to an end of the tube, and a mercury mixture and a zirconium mixture are formed on both sides of the electrode plate. It is configured to include an electrode to which the electrode material is applied.

Thus, the ozone lamp can be manufactured in a free shape, and the anion and ozone are emitted to be used as a sterilizer, a liquid treatment device or an air cleaner.

Description

An ozone lamp that emits negative ions

The present invention relates to an ozone lamp for emitting anions, and more particularly, a tube in which silicic acid, boric acid, and zinc oxide, alumina, sodium oxide and iron oxide are mixed at a predetermined ratio, and connected to an end of the tube, the electrode The present invention relates to an ozone lamp that emits negative ions to emit negative ions and far-infrared rays in a configuration including an electrode to which electrode materials each consisting of a mercury mixture and a zirconium mixture are coated on both sides of the plate.

In general, the air cleaner is a high frequency method, discharged from the outside of the discharge or corona discharge type, the negative ions generated by discharge from the outside immediately combined with various foreign substances in the air generated only ions that do not help the human body at all.

As an apparatus for preventing such discharge in the atmosphere, there are ultraviolet lamps used in various apparatuses and devices such as sterilizers, and specifically used in liquid treatment devices such as sterilizers or air cleaners.

In addition, the ultraviolet lamp is required for the ability to effectively remove or decompose harmful components, and the ultraviolet lamp can be roughly divided into the use of ultra-violet soft glass and quartz glass, and the transmittance of quartz glass is higher than that of soft glass. Because of its high quality, quartz glass is commonly used as a glass bulb.

Such an ultraviolet lamp having a quartz glass bulb can irradiate ultraviolet rays having wavelengths of 253.7 nm and 184.9 nm, and ultraviolet rays of 184.9 nm decompose oxygen molecules (O ₂ ) in the air into oxygen atoms (O).

In addition, the oxygen atom (O) combines with the oxygen molecule (O ₂ ) to generate ozone (O ₃ ), the ozone has a sterilizing action, but at a high concentration it is detrimental to health and preferably kept below 0.1 ppm. Do.

The lamp for ozone generation, because the high melting point temperature of the glass when the quartz tube is used, the hydrogen gas must be used to melt the glass, the processing time and production speed increases.

In addition, when the electrode is formed by adhering (coating) a powdery electronic substance using a mixture of CaCO ₃ , BaCO ₃ , SrCO ₃ to the filament, the electronic substance is buried together with alcohol and a binder nitroceloloid, and then uniform dofotorox inhaler. In addition to the strict quality control in processing, it has a very weak binding condition, which shortens the lamp's lifespan, and is not applicable to glass tubes of small diameter using filament as an electrode. It is difficult to control the length of the lamp because it is sensitive to the heating temperature.

That is, since the tube voltage and tube current are different according to the size of the lamp, the corresponding ballast must be newly produced to increase the cost.

In addition, the electrode material constituting the filament is dropped little by little every time the lamp is turned on, which reduces the life of the lamp.

On the other hand, there is a method of using a metal to prevent corrosion to apply to a small diameter glass tube as an electrode. In this case, the use of a quartz tube also increases the cost, the production efficiency is reduced, as well as the sealing of the lead wire and glass tube is unnecessary. It is long enough to be easily damaged.

In addition, the mercury injected into the lamp can operate even if only a very small amount is injected, such as 1,000 to 6,000 ppm, but excessively injected to compensate for the loss caused by evaporation or the like during the exhaust of the glass heated to a high temperature of 600 ° C. There is a disadvantage that causes a problem.

An object of the present invention for improving the above disadvantages, to control the amount of ozone and at the same time to properly control the injection amount of mercury, to freely modify the shape of the glass tube to be able to produce a variety of light bulbs, sterilization The present invention provides an ozone lamp that emits negative ions that can transmit ultraviolet rays and can be used as a sterilizer or a cleaning device.

In order to achieve the above object, a tube in which SiO ₂ , B ₂ O ₂ , ZnO, Al ₂ O ₃ , Na ₂ O, FeO is mixed in a predetermined ratio; And,

An ozone lamp is connected to an end of the tube and emits negative ions formed on the both sides of the electrode plate and includes an electrode to which an electronic material composed of a mercury mixture and a zirconium mixture is applied.

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

As shown in FIGS. 1 to 3 (b), the ozone lamp 300 of the present invention includes a tubular body 100 having a predetermined shape and an electrode 200 connected to an end of the tubular body 100.

The tube 100 has a predetermined ratio of silicic acid (SiO ₂ ), boric acid (B ₂ O ₂ ), zinc oxide (ZnO), alumina (Al ₂ O ₃ ), sodium oxide (Na ₂ O), and iron oxide (FeO). It is mixed with and melted to form a predetermined shape.

In addition, the tubular body 100 may contain 75.439% SiO ₂ , 13.82% B ₂ O ₂ , 1.40% ZnO, 4.30% Al ₂ O ₃ , 5.04% Na ₂ O, and 0.001% or less FeO. And it melt | dissolves at high temperature 1500 degreeC or more, and manufactures transparent glass.

At this time, the expansion coefficient of the glass is 52 ~ 60 10 ^-7 / ℃, the component for producing the tube is a carbonic acid, SiO ₂ oxide is silica sand (SiO ₂ ), Al ₂ O ₃ oxide is alumina (Al ₂ O ₃ ), Na ₂ O carbonate is Na ₂ CO ₃ , B ₂ O ₃ is borax (Na ₂ B ₄ O ₇ ) by blending the carbonic acid raw material and then glass It is heated in a melting furnace to decompose and release CO ₂ at about 1000 ° C., and only oxide is fused at a temperature of 1500 ° C. to prepare transparent glass.

At this time, the CO ₂ is not extracted 100% remains on the glass surface and when used to heat it to about 600 ℃.

In addition, the glass made of the above material is through the sterilized ultraviolet light (peak wavelength 253.7nm) to perform anion and active oxygen generation and sterilization at the same time.

The electrode 200 is connected to an end of the tubular body 100 to form a vacuum inside the tubular body 100, and a lamp base 210 connected to the tubular body 100 and an electrode plate connected to the inside thereof ( 220 and a terminal 230 protruding outward.

The electrode plate 220 is formed by laminating a mercury mixture layer 220b and an electronic material layer 220c on both sides of the electrode body 220a.

In addition, the electrode body 220a in which 1 μm-thick nickel is plated on the 0.3 mm-thick iron plate 220a-1, and 54% Hg and 46% Ti are mixed to adhere to one surface of the electrode body 220a. The layer 220b and the electronic material layer 220c adhered to the other surface of the electrode body 220a with a composition of 16% Al and 84% Zr.

On the other hand, a lattice metal screen 330 is installed to surround the outer diameter of the ozone lamp 300 made of a configuration in which the electrode 200 is connected to the end of the tube 100.

In addition, as shown in Figures 3 (a) and 3 (b), in addition to the general structure in which the openings are formed at both ends of the tube 100, only one end of the tube 100 is formed to be opened, and then the electrode 200 is sealed. ) Are connected to each other, and the arc generator 270 is integrally protruded and installed on one side of the electrode 200, that is, the shortest close distance.

The operation of the present invention having the configuration as described above will be described.

1 to 3 (b), the amount of ozone released to the outside without exceeding the appropriate amount, that is, 0.05 ppm, while producing the ozone lamp 300 and passing the proper ozone, that is, the tube 100 of the ozone lamp. Only the appropriate amount of ozone to be released is added to the amount to be produced and the amount of ozone saturated in normal air, that is, not to exceed 0.005 to 0.03 ppm / cc.

In addition, the remaining amount other than the amount of ozone contained in the air is changed into negative ions while passing through the screen 330 installed outside the ozone lamp 300 to minimize the ozone concentration in the air as well as provide freshness such as in the forest. do.

Such a tube can block ultraviolet rays below 184.9nm, and can pass ultraviolet rays above 253.7nm, and can be used for an air cleaner to simultaneously generate and sterilize negative ions.

O ₂ + 184.9 mm → O + 0

0 ₂ + O → O ₃

O ₃ + 253.7 mm → O ₂ + O ^-2

That is, an ultraviolet lamp emitting 184.9 nanometers and 253.7 nanometers of ultraviolet rays first decomposes oxygen into oxygen atoms by irradiating 184.9 mm ultraviolet rays to oxygen in the air, and the atoms combine with oxygen in the air to produce ozone.

In addition, when the ozone is irradiated with ultraviolet rays of 253.7mm, ozone is finally separated into oxygen and free radicals to release free radicals.

In addition, the ozone lamp generates an anion effective for a living body while hitting a metal network before ultraviolet rays of 184.9 nm generate ozone by a screen that prevents corrosion on the outside of the ozone lamp.

In addition, the ultraviolet rays of 253.7nm to decompose ozone harmful to human body into oxygen and active oxygen.

As described above, using an ozone lamp that emits two ultraviolet rays, anion useful for the human body and ozone which is incidentally generated are decomposed into active oxygen.

In addition, zirconium used as an electronic material has a band gap in the range of 4.5 to 6.7 eV and does not change chemically.

The ozone lamp 300 irradiates ultraviolet rays of wavelengths of 253.7 nm and 184.9 nm, wherein the wavelength of 253.7 nm sterilizes water and activates photodegradable materials.

The electrode plate 220 is coated with a mercury mixture layer 220b and an electronic material layer 220c on both sides of the electrode body 220a on which nickel is plated to be integrally laminated to each other to increase lamp life. Prevents natural fallout

In addition, by attaching an appropriate amount of mercury in the form of particles by the mercury mixture layer 220b which is mixed with 54% Hg and 46% Ti and adhered to one surface of the electrode body 220a, overfilling of mercury or contaminants after use is caused. To prevent.

On the other hand, at the end of the tube 100, the electrode 200 is installed to cover the outer diameter of the ozone lamp 300 is configured to connect the grid metal screen 330 is installed to collect the ozone passing through the tube 100. To prevent the occurrence of excessive ozone.

In addition, openings are formed at both ends of the tube body 100 so that the electrodes 200 are connected to each other so as to be sealed, and the arc generating unit 270 is integrally protruded on one side of the electrode 200. It can be easily applied to a lamp having a shape or a spherical shape.

The lamp having the above-described configuration, after the lamp is vacuumed, seals the lamp base, and when heated to a temperature of 900 ° C. by passing a high frequency through the outside of the lamp, mercury decomposes and collides with an electronic material inside the lamp. At this time, it is vaporized.

As described above, according to the present invention, it is possible to remove or decompose harmful organic components in the air by irradiating ultraviolet rays of 253.7 nm and 184.9 nm wavelengths, to freely change the shape of the tube, and to accurately inject the amount of mercury. Minimize post-pollution and remove or degrade bacteria, odors or contaminants.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit or scope of the invention as provided by the following claims. I would like to clarify that those who have knowledge of this can easily know.

1 is a perspective view showing an ozone lamp according to the present invention.

Figure 2 is a sectional view of the main part of the ozone lamp according to the present invention.

3 (a) and 3 (b) are perspective views showing an ozone lamp according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings

100 tube 200 electrode

210 ... lamp base 220 ... electrode plate

230 ... terminal 270 ... arc generating part

300 ... ozone lamp 330 ... screen

Claims (6)

A tube mixed with SiO ₂ at 75.439%, B ₂ O ₂ at 13.82%, ZnO at 1.40%, Al ₂ O ₃ at 4.30%, Na ₂ O at 5.04%, and FeO at a rate of 0.001% or less; In the ozone lamp which is connected to the end of the tube, and emits an anion comprising an electrode to which the electronic material consisting of a mercury mixture and a zirconium mixture is fixed to both sides of the electrode plate, The electrode is an electrode plate plated with nickel on the iron plate; Hg 54% and Ti 46% is mixed with a mercury layer adhered to one side of the electrode plate, and an electronic material adhered to the other side of the electrode plate with a composition of 16% Al and 84% Zr. An ozone lamp for emitting negative ions, characterized in that the lattice metal screen is provided on the outside of the tube. delete delete delete delete The ozone lamp of claim 1, wherein the mercury mixture and the plurality of electrodes to which the electronic material is fixed are provided at the opening of the tube having at least one opening, respectively, on both sides of the electrode plate.