KR20100092798A - A ionizer - Google Patents

Abstract

PURPOSE: An ionizer is provided to prevent the damage of a pattern and the generation of defects on a print due to static electricity by eliminating the static electricity using the same. CONSTITUTION: An electronic board is installed inside a case for an ionizer(1). An ion generator is installed inside the case for the ionizer. The ion generator includes a high-pressure air-hole and a discharging pin. High-pressure air passes through the high-pressure air-hole. The high-pressure is applied to the discharging pin. The ion generating pipe unit includes a connection part, an ion generating pipe, and a high-pressure air reversion part. A high-pressure air pipe and an inhaling part are connected with the connection part. The high pressure air-hole is formed on a discharging end.

Description

Static eliminator {A ionizer}

The present invention relates to a static eliminator, and more specifically, a device for neutralizing static electricity formed on a charged object by generating cations and anions through a corona discharge and blowing them to a charged object, thereby simplifying the structure and The present invention relates to a static eliminator that can be conveniently used because it is easy to install and becomes inexpensive and does not have a structure in which the discharge needle protrudes.

In general, in the production of electronic components such as semiconductors, LCDs, PDPs, etc., a clean production environment is required. In the production process of these components, static electricity is inevitably generated. The fall of production efficiency, etc. is caused.

Corona discharge type static electricity removal device is commonly used as a device for removing the generated static electricity, in particular corona discharge type static electricity removal device using an alternating voltage in the voltage method is used for the near-field static electricity removal.

Normally, the corona discharge type static eliminator which is applied with DC high voltage is used for the remote static elimination of the distance between the static eliminator and the charged object more than 100cm, but the AC high voltage is applied when the distance between the electrostatic object is within 30cm. Corona discharge type static electricity elimination device is suitable and it is effective to remove static electricity of charging object moving at high speed when using high frequency by using commercial frequency and high frequency of AC. The positive and negative ions generated when the induction electrode side and the discharge electrode side generate a corona discharge have positive and negative polarities due to high frequency alternating voltage and are converted at a very high speed to neutralize static electricity generated in the charged object. This is because the AC high voltage corona discharge type static eliminator is more effective for removing the static electricity in the short distance due to the rapid change of polarity and the large amount of self-neutralization.

The static electricity removing static electricity from the charge by the static electricity is as follows. All objects inherently have positive and negative charges in the same amount, so if these charges are evenly distributed, they are electrically neutral. But if this balance is broken by some cause and either of the positive and negative charges is overheated, the object becomes a charged object. That is to say, the whole. Antistatic neutralizes these overcharged charges to counter-polar charges, returning them to electrical neutrality close to their original state. In other words, a negative charge is supplied to an object that is positively charged and a negative charge is supplied to an object that is positively charged.

In the corona discharge type static elimination device to which the AC high voltage is applied to remove the short-range static electricity, the needle of the needle is exposed to the outside, and thus the production worker is operated by the high voltage applied to the needle or the needle of the needle shape. There is a risk of damaging the body of the discharge needle exposed to the outside can be easily damaged by external shocks and once installed there was a problem that it is difficult to move or adjust the angle.

An object of the present invention is to solve such a problem, the structure is simple and easy to manufacture and installation, since the discharge needle is not exposed to the outside of the static eliminator that can be conveniently used without damaging the operator To provide.

An object of the present invention, the electrostatic case is disposed inside the electrostatic case, and the high-pressure air through the high pressure air is formed in the electrostatic case is passed through is formed adjacent to the end of the high-pressure vent hole is applied high voltage An electrostatic discharger including an ion generating tube portion having a discharge needle is provided, wherein the ion generating tube portion is connected to a connection pipe portion to which a high pressure air pipe is connected, and an inlet end portion thereof is connected to the connection connection pipe portion, and a high-pressure air hole is transversely inside. A high pressure air hole is formed at the other end of the discharge end, and an ion generating tube body having a discharge needle disposed thereon is installed on an arrangement groove of the discharge end of the ion generating tube body and connected to the high pressure air hole to discharge the high pressure air. Antistatic according to the present invention formed to be disposed high-pressure air deflection portion formed inclined high-pressure air hole to pass through the tip of the needle It is achieved by the.

The electrostatic eliminator according to the present invention is provided with an electrostatic eliminator case in which an electromagnetic plate is disposed, and a high pressure air hole through which high pressure air passes and is installed in the electrostatic case and is installed adjacent to an end of the high pressure vent hole and a high voltage is applied thereto. And an ion generating tube including an ion generating tube portion having a discharge needle installed therein, wherein the ion generating tube portion is connected to a connecting tube portion to which a high pressure air pipe is connected, and an inlet end portion thereof is connected to the connecting connecting tube portion, and a high pressure air vent is transverse therein. A high pressure air hole is formed at the other end of the discharge end, and the discharge needle is disposed on the ion generating tube body and the discharge groove of the ion generating tube body is installed on the discharging end of the ion generating tube body and connected to the high pressure air hole. The high pressure air deflector having the inclined high pressure air hole formed thereon is disposed to pass through the tip of the discharge needle, thereby easily removing static electricity. It is easy to manufacture and install because the structure is simple, and because the discharge needle is not exposed to the outside, there is an excellent effect that it is possible to use conveniently without damaging the operator.

As shown in FIG. 1, the static eliminator A according to the first embodiment of the present invention includes a static eliminator case 1 having an electromagnetic plate 11 disposed therein and a static eliminator case 1. It is installed and the high-pressure air through-holes 221 is formed to pass through the high-pressure air is formed adjacent to the end of the high-pressure air through hole 221 and includes an ion generating tube portion 2 is installed with a discharge needle 222 is applied high voltage .

A fixing bracket 12 is detachably fixed to the bottom of the electrostatic case 1. The fixing bracket 12 is formed on the bottom surface of the static eliminator case 1 and is widened and narrowed, and is inserted into the curved insertion tube 121 and the curved insertion tube 121 and of the curved insertion tube 121. Inserted into the inner surface (121a) and includes a support plate 123 protruding the curved protrusion protrusion 122 is formed so that the curved insertion pipe 121 is operated to change the position. In this embodiment, six position change assembly pipes 124 are inserted between the curved insertion pipe 121 and the support plate 123. A curved protrusion protrusion 124a is inserted into the curved insertion tube 121 at an upper portion of the position change assembly tube 124, and a curved insertion tube 124b is formed at a lower portion thereof. Due to such a structure, the ion generating tube part 2 of the static eliminator A can be changed to a desired position.

The ion generating tube portion 2 is connected to the connection pipe portion 21 is connected to the high-pressure air pipe (3), the suction end 22a is one end is connected to the connection connection pipe portion 21 and the high-pressure air through the hole (221) The ion generating tube body 22 in which the high pressure air hole 221 is formed and the discharge needle 222 is formed in the discharge end portion 22b which is formed in the transverse direction and is the other end, and the ion generating tube body 22 is discharged. The high-pressure air deflector is installed on the placement groove 223 of the end 22b and is connected to the high-pressure air through-hole 221 to form the inclined high-pressure air through-hole 231 so that the high-pressure air passes through the tip of the discharge needle 222. 23 is arrange | positioned.

The connection connection tube portion 21 has a screw surface 211 is formed on the outer end of the connection connection tube portion 21 to be screwed with the suction end portion 22a of the ion generating tube body 22 and hollow inside The through-hole 212 is formed is a structure in which the high-pressure air pipe (3) is inserted and fixed.

The ion generating tube body 22 is formed in the high pressure air passage 221 is gradually tapered toward the discharge end (22b) in the present embodiment is formed in three steps thinner and the inner end of the discharge end (22b) The discharge needle fixing hole 224 into which the discharge needle 222 is inserted and fixed is formed on the arrangement groove 223 of the discharge needle 222, and a connection line 225 electrically connected to the lower end of the discharge needle 222 is connected to the discharge needle ( Molecules in the air are ionized by the magnetic field generated by generating high pressure electricity at the tip of 222. The connection line 225 is connected to the electromagnetic plate 11.

Since the high pressure air passage 221 of the discharge end 22b of the ion generating tube body 22 is formed in parallel with the discharge needle 223, the high pressure air deflector 23 is disposed in the arrangement groove for ionization of the high pressure air. 223 will be disposed on. The inclined high pressure air hole 231 of the high pressure air deflection portion 23 is formed to be inclined at about 30 ° so as to be inclined to flow through the tip of the discharge needle 222. In front of the high-pressure air deflection portion 23 is formed in the structure capable of injecting the ionized high-pressure air in front of the expansion pipe 232 is opened to the front is formed.

The outer surface protruding to the outside of the electrostatic case 1 of the discharge end portion 22b of the ion generating tube body 22 is formed with a screw portion 226 and the electrostatic case 1 of the screw portion 226 A ground pin 227 is rotatably installed on an outer side of the inner side to fix the ion generating tube body 22 to the electromagnetic plate 11.

On the screw portion 226 of the ion generating tube main body 22, the ion discharge portion 4 is formed in contact with the expansion pipe portion 232 of the high-pressure air deflection portion 23 and the discharge hole 41 is formed in which the outlet hole gradually decreases. It is.

The static eliminator (A) according to the first embodiment of the present invention having such a structure is installed by using the fixing bracket 12 at a necessary position, and when the static eliminator (A) is turned on, the high voltage on the discharge needle (222) When the corona discharge is started and the high pressure air is introduced through the high pressure air vent 221 of the ion generating tube unit 2 connected to the high pressure air engine 3, the inflow air is inclined high pressure air vent of the high pressure air deflector 23. While passing through 231, the ionizer is ionized while passing through the tip of the discharge needle 222 where the corona discharge is generated.

The static eliminator A 'according to the second embodiment of the present invention has a structure in which the fixing bracket 12 of the aforementioned static eliminator A is removed and the pistol grip 5 is coupled to the rear.

The pistol grip 5 is inserted into the lower assembly extension 511 in contact with the bottom fixing groove 13 of the electrostatic case 1 and the side insertion groove 14 of the electrostatic case 1. The upper assembly extension 512 is disposed in the middle of the handle case 51 formed to protrude horizontally in the upper end, the high pressure air pipe (3) disposed inside the handle case (51), and the high pressure air pipe (3). High-pressure air control unit 52 for opening and closing the high-pressure air delivery of the high-pressure air engine (3), and the hinge operation movable part that performs the control operation of the high-pressure air control unit 52 and is elastically supported forward by the spring (54) ( 53).

The high pressure air pipe (3) is divided into a high pressure air engine (31) and a high pressure air engine (32) in the lower portion, the high pressure air control unit 52 is installed in the middle.

The upper end of the high pressure air engine 31 of the upper part of the high pressure air engine 3 is fixed to the connection connection pipe part 21 of the static eliminator A, and the lower part is on the high pressure air discharge pipe 522a of the high pressure air control part 52. Is fixed to. The upper end of the lower high-pressure air engine 32 is fixed on the high-pressure air suction pipe 521a of the high-pressure air control unit 52, and the lower end is installed to be connected to the bottom of the handle case 51.

The high pressure air control unit 52 is divided into an air suction chamber 521 and an air discharge chamber 522 and communicates with the operating rod through the connection hole 525 on the air suction chamber 521 and the air discharge chamber 522. 523 is disposed across.

One end portion located on the air suction chamber 521 of the operating rod 523 is fixed to the fixed plate (5230) is supported by the spring 524 forward and one end portion is located on the air discharge chamber 522 Has a structure in contact with the hinge operating movable part (53).

The operating rod 523 has an intermediate portion disposed on the connection hole 525, and a conical protrusion portion 5231 is formed at a portion adjacent to the air suction chamber 521 to match the diameter of the connection hole 525. In the suction chamber 521, a packing portion 5302 for closing the connection hole 525 and a protrusion support plate 5333 for supporting the packing portion 5252 are formed, and downwards of the air suction chamber 521. The high pressure air suction pipe 521a is formed.

A portion located in the air discharge chamber 522 of the operating rod 523 is formed with a protruding end 5342 in contact with the rear surface of the hinge operating movable portion 53 and a packing ring 5235 in the middle to prevent the discharge of air. Is installed, the high pressure air discharge pipe 522a is formed on the upper portion of the air discharge chamber 522.

A hinge fixing pin 513 is formed at the lower end of the handle case 51 so that continuous static elimination work is required by continuing on the fixing groove 531 formed on the hinge operating movable portion 53. Can be done.

The hinge operating movable part 53 has an upper end thereof hinged on the handle case 51 by a hinge pin 532 and elastically supported forward by a spring 54 and protruding end 5342 of the operating rod 523. ) Is in close contact.

The static eliminator (A ') according to the second embodiment of the present invention having the structure as described above is coupled to the pistol-type handle portion (5), the hinge operation movable portion of the handle portion 5 when static elimination is necessary. ), The hinge operating movable part 53 is pushed back while the protruding end 5342 of the operating rod 523 which is in contact with the hinge operating movable part 53 is pushed backward and the operating rod 53 of the high pressure air control part 52 is pushed backward. ), The conical projection (5231) is pushed back and the packing portion (5232) is also pushed together as the retracting operation is opened, the high pressure air that was subjected to high pressure as the connection hole (525) is opened on the lower high pressure air pipe (32) While passing through the 525, the discharge hole 41 is discharged to the discharge hole 41 of the ion discharge unit 4 is formed is to remove the static electricity.

When the antistatic operation is performed for a long time, when the hinge fixing pin 513 installed at the lower end of the handle case 51 is caught on the fixing groove 531 formed on the hinge operating movable portion 53, the continuous antistatic operation is performed. It can be done.

Since the static eliminator according to the present invention can be manufactured repeatedly in a general manufacturing plant, it will be said that the invention has industrial applicability.

1 is a perspective view of a static eliminator according to a first embodiment of the present invention;

Figure 2 is a perspective view of the inside of the static eliminator open on one side of the eliminator case

3 is a schematic longitudinal sectional view of the ion generating tube portion;

4A and 4B are exploded perspective views of the front-rear direction of the static eliminator according to the first embodiment of the present invention.

5 is a perspective view of a static eliminator according to a second embodiment of the present invention;

6 is a schematic longitudinal cross-sectional view of the static eliminator of FIG.

7 is an enlarged longitudinal cross-sectional view showing the configuration of the high-pressure air control unit of the static eliminator of FIG.

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

1. Static eliminator case 2. Ion generator tube 3. High pressure air pipe

4. Ion discharge part 5. Handle part

Claims (9)

In the static eliminator (A), The static eliminator (A), An electrostatic case 1 having an electromagnetic plate 11 disposed therein; The ion installed in the electrostatic case 1 is formed with a high pressure air through hole 221 through which high pressure air passes, and is installed adjacent to the end of the high pressure through hole 221 and has a discharge needle 222 to which a high voltage is applied. Including the generating pipe part 2, The ion generating tube portion 2 is connected to the connection pipe portion 21, the high pressure air pipe (3), One end of the suction end 22a is connected to the connection pipe 21 and a high-pressure air through-hole 221 is formed in the transverse direction, and the high-pressure air through-hole 221 is formed in the discharge end 22b which is the other end and discharged. An ion generating tube body 22 having a needle 222 disposed thereon; It is installed on the placement groove 223 of the discharge end portion 22b of the ion generating tube body 22 and connected to the high pressure air through hole 221 so that the high pressure air passes through the tip of the discharge needle 222. Electrostatic eliminator characterized in that the high-pressure air deflection portion 23 formed with the air vent 231 is formed The method of claim 1, The ion generating tube body 22 has a high pressure air passage 221 formed therein is formed in a shape that gradually becomes thinner toward the discharge end portion 22b, The discharge needle fixing hole 224 into which the discharge needle 222 is fixed is formed on the placement groove 223 inside the discharge end 22b, and a connection line electrically connected to the lower end of the discharge needle 222 ( 225) is connected to the static eliminator. The method of claim 1, The inclined high pressure air hole 231 of the high pressure air deflector 23 flows inclinedly through the tip of the discharge needle 222 while the high pressure air blows through the discharge needle. The method according to any one of claims 1 to 3, The static eliminator, characterized in that the pistol grip 5 is coupled to the rear of the static eliminator (A). The method of claim 4, wherein The pistol grip 5 is inserted into the lower assembly extension 511 in contact with the bottom fixing groove 13 of the electrostatic case 1 and the side insertion groove 14 of the electrostatic case 1. The upper assembly extension 512 is a handle case 51 formed to protrude horizontally in the upper end, A high pressure air pipe (3) disposed inside the handle case (51), A high pressure air control unit 52 disposed in the middle of the high pressure air engine 3 to open and close the high pressure air delivery of the high pressure air engine 3; Electrostatic eliminator characterized in that it performs a control operation of the high-pressure air control unit 52 and includes a hinge operating movable part 53 which is elastically supported forward by the spring 54. The method of claim 5, The high pressure air control unit 52 is divided into an air suction chamber 521 and an air discharge chamber 522 and communicates with the operating rod through the connection hole 525 on the air suction chamber 521 and the air discharge chamber 522. 523 is placed across, One end portion located on the air suction chamber 521 of the operating rod 523 is fixed to the fixed plate (5230) is supported by the spring 524 forward and one end portion is located on the air discharge chamber 522 In contact with the hinge operating movable part 53, The operating rod 523 has an intermediate portion disposed on the connection hole 525, and a conical protrusion portion 5231 is formed at a portion adjacent to the air suction chamber 521 to match the diameter of the connection hole 525. In the suction chamber 521, a packing portion 5302 for closing the connection hole 525 and a protrusion support plate 5333 for supporting the packing portion 5252 are formed, and downwards of the air suction chamber 521. High pressure air suction pipe (521a) is formed, A portion located in the air discharge chamber 522 of the operating rod 523 is formed with a protruding end 5342 in contact with the rear surface of the hinge operating movable portion 53 and a packing ring 5235 in the middle to prevent the discharge of air. Is installed, the static eliminator, characterized in that the high-pressure air discharge pipe 522a is formed on the upper portion of the air discharge chamber 522 The method according to claim 5 or 6, Hinge fixing pin 513 is formed at the lower end of the handle case 51, A fixing groove 531 is formed on the hinge operating part 53, and the upper end of the hinge operating part 53 is hinged and fixed on the handle case 51 by a hinge pin 532 and a spring 54. The front side is elastically supported by the static eliminator, characterized in that the protruding end (5234) of the operating rod (523) is in close contact. The method of claim 1, A fixing bracket 12 is fixed to the lower portion of the static eliminator case 1, The fixing bracket 12 is formed on the bottom surface of the papermaking case 1 and is widened and narrowed, and is inserted into the curved insertion tube 121 and the curved insertion tube 121 of the curved insertion tube 121. Electrostatic eliminator, characterized in that it comprises a support plate 123 is inserted into the inner surface (121a) protruding curved projection protrusion 122, the curved insertion pipe 121 is operated to change the position The method of claim 8, Between the curved insertion tube 121 and the support plate 123, a plurality of position change assembly tubes 124 are inserted and installed in the upper portion of the position change assembly tube 124 is inserted into the curved insertion tube 121. Curved protrusion protrusion 124a is formed and the lower surface of the static eliminator, characterized in that the insertion tube 124b

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