KR20030013212A - A Plasma Discharge Tube - Google Patents

Abstract

PURPOSE: A plasma discharge tube is provided to increase the density and efficiency of discharge by uniformly discharging plasma in a discharge tube. CONSTITUTION: A discharge tube(10) is filled with an inert gas(G). Mercury is inserted into the discharge tube(10). The discharge tube(10) is comprised of a metallic filament(F), an electrode(E) coupled to the metallic filament(F), and an encapsulated glass tube communicating the electrode(E) with the outside. The electrode(E) is electrically connected to a voltage applying unit through a socket(11). A metallic tube(12) is electrically connected to the voltage applying unit and provided on a location spaced from a circumference of the discharge tube(10) about 1.5 mm to 2 mm. Once the voltage applying unit applies a voltage of 2000-3000 V(volt) to the electrode(E), electrons are emitted from the filament(F) connected to the electrode(E) to the inner of the discharge tube(10). Thereafter, mercury is ionized by reacting on the electrons to produce mercury ion. The mercury ion collides with the inert gas to generate plasma energy.

Description

Plasma Discharge Tube

The present invention relates to a discharge tube of a low-temperature plasma generating discharge device for processing and removing harmful environmental pollutant gases and harmful microorganisms in the air by the electrical, physical and chemical action of the high voltage discharge phenomenon, more specifically to increase the discharge density and discharge The present invention relates to a plasma discharge tube with increased efficiency.

In general, as the population grows and the industry develops, emissions of harmful environmental pollutants such as nitrogen oxides, sulfur oxides, carbon oxides, and volatile organic substances are increasing greatly. Each country has established a legal standard and strictly regulates it, and its research methods and methods are carried out with a lot of hard work.

In recent years, a number of researches have been conducted to remove these harmful environmental pollutants, which means that partial discharge by high voltage application, that is, nonthermal plasma discharge, is a means to properly handle hazardous environmental gases. In case of using low temperature plasma as a means of treating harmful environmental pollutants in place of chemical lime treatment method such as wet lime gypsum or ammonia contact reduction, nitric oxide and sulfur oxide can be used as a low temperature plasma discharge device. Hazardous gases such as these can be treated at the same time. Especially, since it is dry, reprocessing of the treated water is unnecessary, and no secondary harmful substances are generated, and it has been proved to have high efficiency and economic effect.

In spite of many of these advantages, the low temperature plasma discharge device is not used for the treatment of harmful environmental pollutant gases due to the undeveloped low temperature plasma discharge tube with high efficiency and reliability.

As a typical low-temperature plasma discharge device of the conventional spatial discharge type, as shown in FIG. 1, a discharge electrode 1 made of a metal tube made of aluminum or stainless steel is internally installed, and the inside is vacuumed and connected to the discharge electrode 1. The discharge tube 3, the electrode 2 of which is projected to the outside, the socket 4 for fixing the discharge tube 3, and the outer peripheral surface of the discharge tube 3 is installed at regular intervals from the outer peripheral surface + electrode It consists of a porous metal tube (5) to serve as, and the body (6) is fixedly mounted to the socket (4) and provided with a voltage application means (not shown) for applying a high voltage to the discharge tube (3).

In the conventional plasma discharge apparatus as described above, when a high voltage is applied to the discharge electrode 1, the plasma discharge is partially generated in a space within a few mm diameter from the surface of the discharge electrode 1.

However, the above-described conventional plasma discharge device has a simple structure, but when the device is enlarged, the discharge space becomes large and the applied voltage must be stepped up very high in proportion to it. When a wide discharge is made to a space within a few tens of millimeters from the surface of the discharge electrode by using the device, there is a problem of advancing into a naturally high plasma arc discharge state near the discharge electrode.

In addition, since the size of the discharge electrode installed and fixed inside the discharge tube must be increased in proportion to the inner diameter of the discharge electrode, the installation thereof is not easy, and the discharge electrode sags downward from the inside of the discharge tube due to the load of the discharge electrode itself. Does not radiate evenly to the outside of the discharge tube, and the discharge electrode is fixed to one end of the discharge tube and sealed to maintain the inside in a vacuum state. There was a problem that could not be maintained.

As such, the inside of the discharge tube is not completely sealed, and thus, the plasma discharge is not smoothly performed to the outside.

In addition, since plasma discharge is generated only at the discharge electrode, there is a problem that the efficiency of plasma discharge is low.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to discharge the plasma evenly inside the discharge tube to increase the size of the device even if a low voltage applied to the high discharge efficiency of the glass material discharge tube The present invention provides a plasma discharge tube that can effectively reduce plasma even by applying a low voltage to reduce defects, reduce manufacturing costs, and reduce productivity.

Plasma discharge tube of the present invention for achieving the object of the present invention as described above is provided with a discharge tube discharged plasma, a socket for fixing the discharge tube, spaced at regular intervals on the outer periphery of the discharge tube and serves as a positive electrode A plasma discharge apparatus comprising a metal tube and voltage applying means for applying a voltage to the discharge tube;

The discharge tube is formed of a glass tube in which an inert gas is filled in an internal space, a predetermined amount of mercury is contained, a metal filament is provided on one side, and an electrode connected to the metal filament is in communication with the outside.

Hereinafter, preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

1 is a cross-sectional view showing a plasma discharge device to which a conventional plasma discharge tube is applied;

2 is a cross-sectional view showing a plasma discharge device to which the plasma discharge tube of the present invention is applied;

* Description of symbols for important parts of the drawings

10: discharge tube 11: socket

12: porous metal tube 13: silicon sealing material

G: Inert gas S: Mercury

F: Pilate Mint E: Electrode

2 illustrates a plasma discharge apparatus to which a plasma discharge tube is applied according to a preferred embodiment of the present invention. The plasma discharge tube 10 of the present embodiment includes a discharge tube 10 through which plasma is discharged and a socket for fixing the discharge tube 10. (11), a porous metal tube 12 spaced at regular intervals on the outer circumference of the discharge tube 10 and serving as a positive electrode, and a plasma discharge comprising a voltage applying means for applying a voltage to the discharge tube 10; In the apparatus 20;

The discharge tube 10 is filled with an inert gas (G) in the interior space, a certain amount of mercury (S) is embedded, the metal filament (F) is provided on one side, the metal filament (F) And the electrode E connected to each other is made of a glass tube T sealed to communicate with the outside.

MDE 13 is a silicone sealant.

In the above, the porous metal tube 12 is electrically connected to the voltage applying means (not shown) to have a + electrode, and is spaced about 1.5 mm-2 mm from the outer circumference of the discharge tube 10, and the electrode E is a socket ( 11) is electrically connected to the voltage application means.

The inert gas (G) is most preferably used in the above argon gas (Ar), because the cost is less than other inert gas because of the economic effect.

In the plasma discharge tube 10 according to the present embodiment, first, when voltages 2000v-3000v are applied to the electrode E by a voltage applying means (not shown), electrons are emitted from the filament F connected to the electrode E. The mercury (S) contained in the interior of the discharge tube 10 is ionized by being discharged into the discharge tube 10 and reacting with the electrons, and ionized mercury ions are discharged into the tube.

When mercury ions are released as described above, the mercury ions collide with the inert gas G filled in the discharge tube 10, and plasma energy is emitted by the collision.

At this time, the mercury ions collide with the inert gas (G) while the traveling direction is shifted and collides with another inert gas (G) to emit plasma energy.

In this way, plasma discharge is performed in various places inside the discharge tube 10.

As such, the plasma radiated from the inside of the discharge tube 10 is discharged to the outside of the discharge tube 10 and is discharged into the air through the porous metal tube 12 provided on the outer circumference of the discharge tube 10.

As such, the plasma discharged into the air removes harmful environmental pollutants and harmful microorganisms such as nitrogen oxides and oxidized oxides contained in the air.

As described above, the plasma discharge tube of the present invention is evenly discharged from the inside of the discharge tube, and even if the device is enlarged, the plasma discharge efficiency is high even when only a low voltage is applied. It can be maximized.

Claims (2)

A plasma including a discharge tube for discharging the plasma, a socket for fixing the discharge tube, a perforated metal tube spaced at regular intervals on the outer circumference of the discharge tube, and serving as a positive electrode, and a voltage applying means for applying a voltage to the discharge tube. In a discharge device; The discharge tube is formed of a glass tube filled with an inert gas in the interior space, a certain amount of mercury is contained, a metal filament is provided on one side, the electrode connected to the metal filament is in communication with the outside. Plasma discharge tube The method of claim 1, Plasma discharge tube characterized in that the above inert gas is made of argon