KR20110030989A - Bar type static electricity eliminator using corona discharge - Google Patents

Abstract

PURPOSE: A bar type static electricity eliminator using corona discharging is provided to quickly neutralize a charged object by an increase of wind speed using a venturi type blow hole. CONSTITUTION: A bar type static electricity eliminator using corona discharging includes a fixing stand(1) and a discharging unit(2). A controller installation space(11) and a discharging unit installation space(12) are formed on the fixing stand. A controller main body(5) is installed in the controller installation space. The discharging unit is formed in the discharging unit installation space. The discharging unit is arranged in the discharging unit installation space. Right/left guide grooves(13) are formed on both sides of the discharging unit installation space. A ground line groove(14) is formed in a lower part of the guide groove. A ground line(15) is arranged in the ground line groove. A blind plate guide groove(17) is formed in a lower part of the ground line groove. A blind plate(16) is arranged in the blind plate guide groove.

Description

Bar type static electricity eliminator using corona discharge principle {bar type static electricity eliminator using corona discharge}

The present invention relates to a bar type static elimination device using the corona discharge principle, and more specifically, to generate a positive ion and negative ions through the corona discharge and to blow it to the charging object to neutralize the static electricity formed on the charging object It is possible to install the desired number of discharge parts on the fixed object to be extruded for eliminating static electricity, so that it is easy to manufacture and can easily limit the number of discharge parts installed according to the demand of the consumer. The high wind speed makes it possible to discharge the charged object in a short time, maximize the antistatic effect even with a small amount of air, and eliminate the bar type static electricity that uses the corona discharge principle, which can be made cheaper without the need for a blower. Relates to a device.

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 is applied to remove the static electricity from the static eliminator and the charged object more than 100cm, but the AC high frequency voltage is applied at the short distance from the charged object 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 frequency 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.

In the corona discharge type static electricity elimination device to which the AC high frequency high voltage is applied for short-range static electricity removal, referring to FIGS. 1A and 1B, a plurality of discharge needles 2 are installed in the annular needle installation unit 1, and the discharge needles are provided. When (+) or (-) high voltage is applied to (2), positive or negative ions are generated and the motor 3a and the fan 3b are located behind the discharge needle 2 to transfer the generated ions to the charged object. The blower 3 is configured to be provided so that the ions generated by the blower 3 are transferred to the electrostatic side of the charged object to react with the static electricity and the ions to neutralize and remove the static electricity.

However, in this corona discharge type static eliminator, the discharge needle 2 generating ions is exposed to the outside as it is, and the motor 3a is exposed to the outside by being installed at the outside rear of the case 4 and is not shown in the drawing. It is inconvenient to use because the angle of the static elimination device is fixed to the object uncontrolled, and it is inconvenient to use, due to the high voltage applied to the discharge needle 2 or the discharge needle 2 having a needle shape. The discharge needle (2) or the motor (3a) exposed to the outside of the risk of damaging the body of the production worker can be easily damaged by external shocks, and once installed is difficult to move or adjust the angle There was this. In addition, such a corona discharge type static eliminator has a problem that the installation cost increases because the use of the motor (3a) is essential.

An object of the present invention is to solve such a problem, to prevent damage to the body to the discharge needle or high voltage applied to the discharge needle and to protect from external shock by embedding the discharge needle exposed to the inside inside the protective case and At the same time, it is very easy to increase or decrease the number of discharge parts according to the required static elimination capacity, and the installation cost is reduced, and the wind speed is accelerated by the venturi-type blower, which can discharge the charged object in a short time and reduce the amount of air. It is possible to provide a bar type static eliminator using the corona discharge principle, which can be made and the manufacturing cost can be reduced because a motor and a blower are not required.

It is a device that generates positive and negative ions through corona discharge and blows them to the charging object to neutralize the static electricity formed on the charging object.It is possible to install the desired number of discharge parts on the fixed object to be extruded and manufactured to remove the static electricity. The number of discharge parts can be easily limited according to the demand of the user, and the wind speed is accelerated by the venturi-type blower, which can discharge the charged object in a short time, and maximize the antistatic effect even with a small amount of air. It can be achieved by a bar type static elimination device that can be used, the corona discharge principle that can be made inexpensive because no blower is required.

Bar type static electricity removing device using the corona discharge principle according to the present invention is to blow ions into the high-pressure air on the discharge portion arranged in series, so each blower does not need a blower, the installation cost is very low, as well as installation The construction time is greatly shortened, and the construction time is drastically shortened, and the discharge needle is located inside to prevent the body from being damaged by the high voltage applied to the discharge needle or the discharge needle, and according to the required static elimination capacity, It is very easy to increase and decrease the installation cost, and the wind speed is accelerated by the Venturi-type blower, which can eliminate the charging object in a short time. Since the blower is not used, the risk of failure is greatly reduced, which greatly reduces the cost of maintenance. There is an excellent effect of becoming inexpensive.

Bar type static electricity removing device (A) using the corona discharge principle according to an embodiment of the present invention, as shown in Figures 2 to 4, the control body 5 is provided with a printed circuit board (not shown) In the extruded fixing stand 1 and the discharge part installing space 12 of the control unit installation space 11 in which the control unit is installed, and the discharge unit installation space 12 in which the discharge unit 2 is installed. The discharge part 2 arrange | positioned is included.

On both sides of the interior of the discharge portion installation space 12 of the fixing stand 1 is formed a guide groove 13 on the left and right to assemble the discharge portion 2, and the ground wire groove 14 below the guide groove 13 ) Is formed so that the ground wire 15 is disposed, and below the ground wire groove 14, a shielding plate guide groove 17 in which the shielding plate 16 is disposed is formed.

The shielding plate 16 is formed with a plurality of exposure holes 161 to which the discharge needle supporting body 28 of the discharge unit 2 to be described later is exposed.

The discharge part 2 is formed on the left and right sides, the assembly protrusion 21 is inserted into the guide grooves 13 formed on both sides of the discharge portion installation space 12 of the fixing stand 1 is assembled and the electrical wiring board ( 3) the wiring board groove 22 is formed is formed and the discharge frame 20, the high-pressure air hole 23 is formed therein, and electrically connected to the electrical wiring board 3 of the discharge frame 20 and spaced apart at regular intervals And the connection plate body 24 arranged to be disposed, the connection plate body 24 is disposed on the upper side of the inner side, and the discharge case 25 is disposed on the bottom surface of the discharge frame 20, and the insertion case is fixed to the discharge case 25. And a discharge needle support body 28 having a discharge needle 26 fixed in the middle and having a high-pressure blowing venturi tube 285 formed around the discharge needle 26.

On the bottom of the discharge frame 20 where the connecting plate body 24 is installed, connection holes 201 for connecting the connecting plate body 24 and the discharge case 25 correspond to the number of the connecting plate bodies 24. Perforated. As shown in Figure 2, the end cover 61 to which the high-pressure air hose (6) is connected to both ends of the holder (1) in which the discharge frame (20) is installed.

The electrical wiring board 3 is electrically connected to the control unit body 5 and has a structure in which electricity is connected to each of the connecting board bodies 24.

The connecting plate body 24 is bent and the copper plate body 241 electrically connected to the electrical wiring board 3, respectively, surrounded by a packing body 242 surrounding the copper plate body 241, the copper plate body One end of the discharge needle 26 is inserted between 241 and energized.

The discharge case 25 is formed with a fixed base 250 extending to the side fixed to the bottom surface of the discharge frame 20, extending downward from the fixed base 250, the discharge needle support 28 is fixed The case tube part 251 is formed, and the upper portion 252 is formed in the upper portion of the fixing base 250 and inserted into the connection hole 201.

As shown in FIG. 6, the lower side of the case tube part 251 of the discharge case 25 is inserted in the longitudinal direction in which the side projections 281 of the outer wall 280 of the discharge needle support body 28 are inserted in the longitudinal direction. A transverse assembling groove 2512 is formed which is assembled in the transverse direction with the groove 2511.

The upper extension portion 252 of the discharge case 25 is formed with an upper open intubation tube 2521 into which the connecting plate body 24 is inserted, and a discharge invasion 2522 on the bottom surface of the intubation tube 2521. 2 is formed, and opening holes 2523 are formed at both sides of the intubation tube 2521.

As shown in FIG. 5, the discharge needle support body 28 has an upward protrusion support tube 282 protruding from the center so that the upper end of the discharge needle 26 is fixed to protrude upward to be inserted into the connection plate body 24. And an upward open high pressure air space 283 is formed between the upward protrusion support pipe 282 and the outer wall 280 and the high pressure air space 283 is formed on the horizontal wall 284 of the lower surface of the high pressure air space 283. A high pressure blowing venturi tube 285 is formed around the discharge needle 26.

The high-pressure blowing venturi tube (285) is formed in two places in this embodiment, the upper pipe portion (285a) is a high pressure air flows into the lower pipe portion (285b) is narrowly formed and the high-pressure air outflow of the high-pressure air is injected It is formed in a structure in which the diffusion rate is rapidly injected. The injected high-pressure air is concentrated at the tip of the discharge needle 26 so that the dispersion of discharged ions is accelerated.

An operation panel 51 including an on / off switch is provided on one side of the control unit installation space 11 in which the control unit 5 is installed.

The discharge part 2 having such a structure is provided with a required capacity where static elimination is necessary. That is, a bar type static eliminator (A) provided with five discharge parts (2) is installed in a place where five discharge parts (2) are required, and thirty discharge parts (2) are provided in a place where a large capacity is required. Type static elimination device (A) can be installed, this option is to be installed in consideration of the required amount of antistatic.

As shown in Figure 7 and 8, the bar type static eliminator (A) is supported by a support bracket 100 having a structure that is easy to tilt operation and cleaning. The support bracket 100 is fixed to the end cover 61 and has a first bent portion 101 having a bent connection portion 102 formed thereon and having an opening groove 103 formed in the middle of the bent connection portion 102. The second bracket 104 having a lower bent connection portion 105 which is detachably fixed to the bent connection portion 102 of the first bracket 101 is formed at a lower portion thereof, and an inclined hole 106 is formed at an upper portion thereof so as to be inclinedly installed. The semi-circular groove 109 is formed to fit the inclined hole 106 of the second bracket 104, and the third bracket 108 has a fixing surface 110 attached to the installed portion. The support bracket 100 having such a structure loosens the fixing screw 111 fixed to the semicircular groove 109 of the third bracket 108 for the inclined operation of the bar type static eliminator A, and at a desired angle. If the fixing screw 111 is tightened while the bar type static eliminator (A) is inclined, the bar type static eliminator (A) is maintained. When lifted upward, the coupling of the bent connection portion 102 of the first bracket 101 and the lower bent connection portion 105 of the second bracket 104 is released so that the bar type static eliminator (A) can be separated. It is a structure that can be easily performed cleaning.

The operation of the bar type static eliminator (A) using the corona discharge principle according to the present invention having the above configuration will be described in detail below.

For example, during the semiconductor manufacturing process in which a large amount of static electricity is generated, the discharge unit 2 of the bar type static eliminator A according to the present invention is disposed to be disposed downward, and the operation panel 51 of the control unit body 5 is disposed. When the on-off switch of the on) is turned on, the corona moth transition is generated at the tip of the discharge needle 26, and the generated ions are connected to the discharge hole of the discharge frame 20 by the high pressure air injected by the high pressure air hose 6 at high pressure. 201) and the high pressure air introduced into the discharge needle support body 28 through the opening holes 2523 formed on both sides of the intubation tube 2521, and the high pressure air introduced into the discharge needle support body 28 and the opening hole 2523. Through the high-pressure air vent tube 285 formed on the horizontal wall 284 flows into the high-pressure air space 283 opened upward through the high-pressure air space 283 of the discharge needle 26 The discharged ions injected to the tip 26a are sprayed onto the object to be removed. It will be. The high pressure air injected through the high pressure blowing venturi tube 285 has a wide upper pipe portion 285a into which the high pressure air is introduced, and a lower pipe portion 285b through which the high pressure air flows out narrowly, so that the diffusion speed of the high pressure air is injected. Since the high-pressure air injected through the high-pressure blowing venturi tube 285 is concentrated at the tip 26a of the discharge needle 26, the dispersion of discharged ions is realized quickly. The removal rate of static electricity is to be realized quickly.

1A and 1B are side and front views of a conventional static eliminator,

2 is a perspective view of a bar type static eliminator using the corona discharge principle according to an embodiment of the present invention

Figure 3 is an exploded perspective view of a bar type static eliminator using the corona discharge principle according to an embodiment of the present invention

4 is a longitudinal cross-sectional view of the bar type static eliminator of FIG.

Figure 5 is a longitudinal sectional view showing a diffusion state at the tip of the discharge needle of the high-pressure air of the present invention

6 is an exploded perspective view of the discharge case and the discharge needle support of the discharge portion of the present invention;

7 is an exploded perspective view of the support bracket

8 is a perspective view of a bar type static eliminator installed by a support bracket;

Claims (6)

In the electrostatic bar type removal device (A) using the corona discharge principle, The bar type static eliminator (A) using the corona discharge principle is an extrusion unit in which a control unit installation space 11 in which the control unit body 5 is installed and a discharge unit installation space 12 in which the discharge unit 2 is installed are formed. And a discharged part 2 disposed in the discharged part installation space 12 of the fixed part 1, The guide 1 is formed on both sides of the discharge portion installation space 12, the left and right guide grooves 13 to which the discharge portion 2 is assembled, and the ground wire grooves 14 are disposed below the guide grooves 13. The bar type static elimination using the corona discharge principle, characterized in that the ground line 15 is formed, and the shielding plate guide groove 17 is formed below the ground line groove 14, the shielding plate 16 is disposed. Device. In the electrostatic bar type removal device (A) using the corona discharge principle, The bar type static eliminator (A) using the corona discharge principle is an extrusion unit in which a control unit installation space 11 in which the control unit body 5 is installed and a discharge unit installation space 12 in which the discharge unit 2 is installed are formed. And a discharged part 2 disposed in the discharged part installation space 12 of the fixed part 1, The discharge part 2 is formed on the left and right sides, the assembling projection 21 is inserted into the guide groove 13 formed on both sides of the discharge portion installation space 12 of the fixing stand 1 is assembled and the electrical wiring board ( 3) the wiring board groove 22 is formed is formed and the discharge frame 20, the high-pressure air hole 23 is formed therein, and electrically connected to the electrical wiring board 3 of the discharge frame 20 and spaced apart at regular intervals And the connection plate body 24 arranged to be disposed, the connection plate body 24 is disposed on the upper side of the inner side, and the discharge case 25 is disposed on the bottom surface of the discharge frame 20, and the insertion case is fixed to the discharge case 25. Bar type is used in the corona discharge principle, characterized in that the discharge needle 26 is fixed in the middle and comprises a discharge needle support body 28 formed with a high-pressure blowing venturi tube 285 around the discharge needle 26 Static eliminators. The method of claim 2, The discharge needle support body 28 has an upward protrusion support tube 282 formed to protrude in the center so that the lower end of the discharge needle 26 is fixed to protrude upward so as to be inserted into the connection plate body 24, and the upward protrusion support tube 282 is fixed. The high-pressure air vent tube 285 formed in the longitudinal direction is formed on the horizontal wall 284 of the lower surface of the high-pressure air space 283 is formed between the outer wall 280 and the outer wall 280 is a high-opening high pressure air space (283). Bar type static electricity removing device using the corona discharge principle, characterized in that is formed around the discharge needle (26) The method according to claim 2 or 3, The high-pressure blowing venturi tube (285), the upper pipe portion (285a) that the high-pressure air flows into the lower pipe portion (285b) is formed narrowly formed is a structure in which the diffusion speed of the high-pressure air is injected rapidly formed Bar type static eliminator using corona discharge principle, characterized in that The method of claim 2, Bar type static electricity removing device using the corona discharge principle, characterized in that the number of installation of the discharge unit 2 can be increased or decreased by adjusting the length of the holder (1) Extruded fixture (1) formed with a control unit installation space 11, the control unit body 5 is installed and the discharge unit installation space 12 is installed, the discharge unit of the holder 1 The bar type static eliminator (A) using the corona discharge principle including the discharge unit 2 disposed in the space 12 is used. A first bracket 101 fixed to the end cover 61 and having an upper bent connection portion 102 formed therein and having an opening groove 103 formed in the middle of the bent connection portion 102; A second bracket 104 formed with a lower bent connection part 105 attached to and detached from the bent connection part 102 of the first bracket 101 at a lower side thereof, and having an inclined hole 106 formed at an upper part thereof to allow inclined installation; Support bracket 100 consisting of a third bracket (108) formed with a semi-circular groove (109) for the inclined hole (106) of the second bracket (104) and having a fixing surface (110) attached to a portion to be installed thereon. Bar type static electricity removing device using the corona discharge principle, characterized in that the bar type static electricity removing device (A) is separably fixed.

Images