KR20150072063A - A ionizer - Google Patents

Abstract

An ionizer structure according to the present invention includes an ionizer body which has a discharge needle assembly plate which has radially arranged charge needles and is electrically connected and a discharge ion blast port formed around the discharge needle, a rotary motor which is installed at the corner part of the back of the ionizer body, can rotate clockwise, and has a driving gear installed in a rotary shaft, a driven gear which is driven to be geared with the driving gear of the rotary motor, is installed in a ring shape to the edge of the discharge ion blast port, and can be rotated at a fixing shaft where the discharge needle plate is fixed in the center, a cleaning brush which is installed to be detachable from the inside of the ring-shaped main body of the driven gear, touches the front end part of the discharge needle to clean a discharge end part, and a sensor which senses the accurate stop position of the driven gear. A small driving motor is installed in the non-use space of the ionizer body without increasing the size of the ionizer body. The present invention includes a cleaning brush for cleaning the end of the discharge needle while it is rotated by the driving motor. Thereby, it can be installed regardless of the installation place of an existing ionizer body and also can perform effective discharge process by periodically cleaning the discharge needle of the ionizer body.

Description

A < RTI ID = 0.0 > ionizer &

In order to minimize the size of the main body, a drive motor is installed in a non-use space of the main body of the main body. The end of the discharge needle is rotated by the drive motor The present invention relates to an electrification structure capable of effectively performing an efficient discharge due to the cleaning of the discharge needle of the main body of the electrification body, will be.

In general, when producing electronic parts such as semiconductors, LCDs, and PDPs, a clean production environment is required. In the production process of these parts, static electricity is inevitably generated. Due to the static electricity generated at this time, pattern breakage, And the like have been caused.

As a device for removing the generated static electricity, a corona discharge type static eliminator is commonly used. In particular, a corona discharge type static eliminator in which an alternating voltage is used in a voltage type is used for removing the near-field static electricity.

The antistatic principle of eliminating static electricity from the entire body by electricity is as follows. All objects are originally composed of the same amount of positive (+) and negative (-) charges, so that they are electrically neutral if they are uniformly distributed. However, when this balance is broken by some cause, and either positive or negative charge is superimposed, the object becomes an electrostatically charged object, and becomes a large whole. The static charge neutralizes this overcharged charge with the opposite polarity charge and returns it to the electrical neutrality close to its original state. In other words, a negative charge is supplied to an object having a positive charge, and a positive charge is supplied to an object having a negative charge, thereby electrically neutralizing the charge

In general, a corona discharge type static eliminator to which a direct current high voltage is applied is used for removing static electricity at a distance of 100 cm or more from the static electricity eliminator to a charged object, but a corona discharge static eliminator with a distance of 30 cm or less from the charged object is used. Discharge type static eliminator is suitable and it is effective to remove the static electricity of a charged object moving at a high speed when a high frequency is used as the commercial frequency and high frequency of AC are used. This is because the positive and negative ions generated when the induction electrode side and the discharge electrode side cause the corona discharge have positive and negative polarities by the high frequency AC voltage and are converted at a very high speed to neutralize the static electricity generated in the charged object This is because the polarity is rapidly changed and the amount of self neutralization is large, so that the AC high voltage corona discharge static eliminator is more effective in removing the static electricity existing in the short distance.

Since the corona discharging static eliminator to which the AC high voltage is applied for the removal of the near-field static electricity is in a state in which the discharge needle of the acupuncture is exposed to the outside, the high voltage applied to the discharge needle or the discharge needle, The discharge needle which is exposed to the outside may be easily damaged by an external impact, and once installed, it is difficult to move or adjust the angle.

Since the corona discharge is generated at the end of the needle, the chemical by-product is generated as a result of the ionization of the air molecules including water at the same time as the discharge occurs, and the discharge pin is attached to the discharge fin. It is necessary to clean the end of the discharge needle frequently and periodically because a large amount of foreign matter adheres and the discharge is not generated properly.

In order to clean the discharge needle as described above, conventionally, a motor having a large speed change ratio and large volume, such as a geared motor or a stepping motor, is fixed in the axial direction on the same axis as the axis in which the discharge needle is disposed, In this method, since the motor is fixed in the axial direction and the volume of the fixed motor is large, the size of the discharge needle body becomes twice as large as that of the discharge needle. Therefore, There is a problem that the price of the product is increased due to the expensive motor as well as the inconvenience.

Further, since the periphery of the discharging needle is dangerous, the discharging needle is fixed to the discharging body formed with the discharging ion blowing hole, and the discharging body is covered by the grid protective cover plate screwed to the discharging body, There is a problem in that it takes a very cumbersome work such as unscrewing the protective cover plate and exchanging the discharge needle and tightening the protective cover plate with screws again to cover the electric main body.

An object of the present invention is to solve such a problem by providing a small drive motor instead of a stepping motor and the like in a non-use space of the main body of the electric generator so as to minimize the size of the main body, A cleaning brush for cleaning the end portion of the needle can be installed without any difficulty in the installation place of the conventional electric main body and the rotation direction of the cleaning brush can be rotated in forward and reverse directions to clean the discharge needle And more particularly, to provide an electrification structure capable of effectively performing effective discharge by cleaning the discharge needle of the main body periodically without input of manpower, by making the number of revolutions adjustable .

In addition, a sensor for stop position detection and function abnormality detection that makes the washing brush always stop at a constant position is provided to prevent the arc discharge from occurring, so that the user can use it safely.

It is another object of the present invention to provide a chargeable structure capable of easily carrying out exchange of discharge needles and replacement of discharge needles.

An object of the present invention is to provide an electric generator body having an electric discharge body assembly plate in which an electric discharge needle assembly is disposed radially and electrically connected in the middle thereof and a discharge ion blowing hole is formed around the electric discharge needle, And a fixed shaft fixedly mounted on the periphery of the discharge hole for discharging ions and fixed at the center thereof with a discharge needle assembly plate, A cleaning brush detachably mounted on an inner surface of the ring-shaped main body of the driven gear and contacting the discharge end of the discharge needle to clean the discharge end; The present invention relates to an electric-powered structure,

This object of the present invention is also achieved by providing a folding elastic band which is bent and protruded to be elastically acted in an outward direction of a protruding edge frame protruding rearward from a back surface of a protective cover and is provided at the edge of a discharge ion blowing port of a front case of the main body And when the protective cover is rotated in the clockwise direction, the folding elastic band is rotated, and the hooking protrusion is formed on the back face of the front case so as to protrude from the edge of the discharging ion blowing hole. The present invention is achieved by an electric structural body according to the present invention, which is equipped with a protective cover to be locked on the electric main body in a state where it is immersed in the elastic cantilever and is not released by vibration.

The electric structural body according to the present invention comprises an electric main body having a discharge needle assembly plate in which an electric discharge needle is disposed in a radial manner and electrically connected in the middle thereof and a discharge ion blowing hole formed around the electric discharge needle, A rotation motor installed at an edge portion of the rotary motor and being rotatable in normal and reverse directions and equipped with a driving gear on a rotary shaft; a rotary motor driven by engaging with a driving gear of the rotary motor and ring- A cleaning brush detachably attached to an inner surface of the ring-shaped main body of the driven gear and contacting the discharge end of the discharge needle to clean the discharge end; And a detection sensor for detecting a small driving motor in the unused space of the electric main body without increasing the size of the electric main body. And a cleaning brush for cleaning the end portion of the discharge needle while being rotated by the driving motor. Thus, it is possible to install the discharge brush without any difficulty in the installation place of the conventional electric main body, So that an effective discharge can be performed.

FIGS. 1A, 1B and 1C are an exploded perspective view of an electric structural body according to a first embodiment of the present invention, a perspective view of an elastic electrode plate,
FIG. 2 is a perspective view of a discharge needle assembly plate of an electric structural body according to a first embodiment of the present invention; FIG.
3 is a perspective view of the discharge needle cleaning unit of the electric structure according to the first embodiment of the present invention.
4A and 4B are a partially enlarged perspective view of the rotary motor and the cleaning brush of the discharge needle cleaning unit,
5 is an exploded perspective view showing the state in which the discharge needle washing unit is disassembled.

The electric structural body A according to the first embodiment of the present invention is characterized in that the discharge needle assembly plate 12 in which the discharge needle 11 is radially disposed is electrically charged in the middle as shown in Figs. (1) having a discharge ion spout (13) formed around the discharge needle (11) and connected to the discharge spout assembly (12) And a discharge needle cleaning unit 3 disposed at the discharge ion blowing nozzle 13 on the rear surface of the discharge needle assembly plate 12 of the electric main body 1. [

2, a circular electrode 12a is formed in the middle of the discharge needle assembly plate 12 to supply electricity to the discharge needle 11, and as shown in FIG. 1B, The circular electrode 12a is formed in the middle of the electricity generator main body 1 and has an end connected to the elastic electrode plate 15 connected to the power line 14 to supply electricity to the discharge assembly plate 12. The discharge pin assembly plate 12 has a structure in which the assembly groove 12b is formed. When the discharge pin is inserted by fixing the terminal to the assembly groove 12b, the discharge pin comes to a predetermined position, It is always possible to fix it in a fixed position even if the direction in which it is inserted into the housing 18 is changed

The protective cover 2 is provided with four bending elastic belts 22 that are bent and projected in an outward direction of the protruding rim 21 protruding rearward from the back surface of the protective cover 2, Four corresponding recessed grooves 10a are provided at the edge of the discharge ion outlet 13 of the front case 10 so that the bending elastic band 22 of the protective cover 2 is inserted into the recessed portion 10a And the protective cover 2 is rotated in the clockwise direction so that the bending elastic band 22 is rotated and the bending portion 10b is formed on the back surface of the front case 10 so as to protrude from the edge of the discharge ion blowing port 13, The elastic band 22 is locked and is firmly fixed on the electric main body 1 without being released by the vibration (as shown in Fig. 1C)

A blowing fan 16 for blowing air is attached to the rear of the electric main body 1.

3, the discharge electrode cleaning unit 3 is installed at one side corner portion 1a of the back surface of the electric main body 1 and is capable of normal and reverse rotation, and a driving gear 31a And a discharge needle assembly plate 12 is fixed to the center of the rotary motor 31. The discharge needle assembly plate 12 is fixed to the center of the rotary motor 31, A driven gear 32 rotatably fixed to the fixed shaft 17 and a driven gear 32 which is detachably provided on the inner surface of the driven gear 32 and which is in contact with the discharge end 11a of the discharge needle 11, A cleaning brush 33 for cleaning the driven gear 32 and a sensing sensor 34 for sensing the exact stop position of the driven gear 32.

Since the rotary motor 31 is installed in the corner portion 1a of the back surface of the electric main body 1 because a motor having a small volume is used, a separate installation space is not necessary and the manufacturing cost is low. It is a structure capable of forward rotation and reverse rotation.

The driven gear 32 is formed in a ring shape along the edge of the discharging ion blowing hole 13 and has a gear body which is engaged with the driving gear 31a of the rotary motor 31 and is driven by the rotation of the driving gear, And a rotatable plate portion 32b rotatably assembled to the fixed shaft 17 is disposed at the center and adjacent to a linking portion 32c connecting the gear main body 32a and the rotatable plate portion 32b So that the cleaning brush fixing groove 32d is formed. A sensing plate 32e passing through the sensing sensor 34 is formed in the outer side of the gear main body 32a so that the accurate rotational position of the driven gear 32 can be sensed.

The cleaning brush 33 detachably fixed to the cleaning brush fixing groove 32d is provided at one end with a brush portion 33a for cleaning the discharge needle 11 and is detachably attached to the cleaning brush fixing groove 32d The divided elastic split portion 33b extending outwardly is formed and detachably fixed.

The sensing sensor 34 is provided adjacent to the driven gear 32 of the corner portion 1a of the back surface of the electric main body 1 and functions to sense the accurate rotational position of the driven gear 32 do. In other words, the detection plate 32e of the driven gear 32 senses the number of times and time that the detection plate 32e passes, and senses the rotational speed and the rotational position of the driven gear 32 accurately, It is possible to perform the function of precisely matching the positions before and after cleaning.

The operation of the electric structural body A according to the embodiment of the present invention having the above-described structure will be described below in detail.

First, when the discharge needle 11 on which a number of discharges have been performed is to be cleaned and the rotary motor 31 is driven to be ON, the driven gear 32 engaged with the rotation of the drive gear 31a is rotated The cleaning brush 33 fixed to the driven gear 32 is also rotated so that the brush portion 33a of the cleaning brush 33 comes into contact with the discharge needle 11 to clean the foreign object adhering to the discharge needle 11 will be. When the rotary motor 31 is driven several times in the forward direction as described above, only the half of the discharge needle 11 is cleaned, so that the rotary motor 31 is driven at the same rotational speed in the reverse direction, And the half part is cleanly cleaned. In the case of this cleaning, since the position before the driven gear 32 is initially rotated becomes very important, the detection sensor 34 performs the function of sensing the accurate rotational position of the driven gear 32, (32) is correctly returned to the starting position even after the rotation. That is, the sensing sensor 34 senses the number of revolutions and the rotational position of the driven gear 32 by sensing the number of times and the time that the sensing plate 32e of the driven gear 32 passes, The position of the discharge needle 11 before and after the cleaning can be accurately matched with each other, so that it is possible to return the driven gear 32 accurately.

The electrical structure according to the present invention may be said to be an industrially applicable invention since it can be said that it is possible to repeatedly manufacture the same product in a general electrification manufacturing industry.

1. Electric main body 2. Protective cover 3. Discharge needle cleaning unit

Claims (7)

In the electrified structure (A)
The electric generator structure A includes an electric discharge structure in which a discharge needle assembly 12 in which a discharge needle 11 is radially arranged is electrically connected and a discharge ion blowing hole 13 is formed in the periphery of the discharge needle 11 An electric main body 1,
A protective cover 2 disposed on the discharge ion outlet 13 of the discharge needle assembly plate 12,
And an electric discharge needle cleaning part (3) arranged in the discharge ion blowing tool (13) of the electric discharge needle assembly plate (12) of the electric main body (1)
The discharge needle washing unit 3 includes a rotation motor 31 provided at a corner of the back surface of the electric main body 1 and capable of rotating and provided with a driving gear 31a on its rotating shaft,
A driven gear 32 meshing with and driven by a driving gear 31a of the rotary motor 31 and installed at an edge of the discharge ion blowing hole 13 and rotatably fixed to a fixed shaft 17 fixed at the center,
And a cleaning brush (33) installed on the inner surface of the driven gear (32) for cleaning the discharge end (11a) of the discharge needle (11)
The method of claim 1, wherein
Characterized in that said discharge needle cleaning section (3) comprises a sensing sensor (34) for sensing the exact stop position of said driven gear (32)
The method according to claim 1,
The driven gear 32 is formed in a ring shape along the edge of the discharging ion blowing hole 13 and has a gear body which is engaged with the driving gear 31a of the rotary motor 31 and is driven by the rotation of the driving gear, And a rotatable plate portion 32b rotatably assembled to the fixed shaft 17 is disposed at the center and adjacent to a linking portion 32c connecting the gear main body 32a and the rotatable plate portion 32b And a sensing plate (32e) passing through the sensing sensor (34) is formed in the outer direction of the gear body (32a)
The method according to claim 1,
The cleaning brush 33 is provided at one end thereof with an elastic part 33b having a fixing part to which a brush part 33a for cleaning the discharge needle 11 is attached and detachably fixed to the cleaning brush fixing groove 32d, And an electrically conductive structure
The method according to claim 1, 2, or 3,
The sensing sensor 34 is installed adjacent to the driven gear 32 of the corner portion 1a of the electric main body 1 and detects the number of times and the time that the sensing plate 32e of the driven gear 32 passes, And detects the rotational speed and rotational position of the driven gear (32) accurately,
In the electrified structure, in (A)
The electric generator structure A includes an electric discharge structure in which a discharge needle assembly 12 in which a discharge needle 11 is radially arranged is electrically connected and a discharge ion blowing hole 13 is formed in the periphery of the discharge needle 11 An electric main body 1,
A protective cover 2 disposed in the discharge ion blowing ball 13 of the discharge needle assembly plate 12 of the electric main body 1,
And an electric discharge needle cleaning part (3) arranged on the discharge pin ion blowing tool (13) of the discharge fin assembly plate (12) of the electric main body (1)
The protective cover 2 is provided with a plurality of bending elastic belts 22 which are bent and projected in an outward direction of the protruding rim 21 protruding rearward from the back surface,
A plurality of corresponding recessed grooves 10a are provided at the edge of the discharge ion outlet 13 of the front case 10 of the electric main body 1,
The bending elastic band 22 of the protective cover 2 is inserted into the recessed portion 10a and the protective cover 2 is rotated so that the bending elastic band 22 is rotated, The bending elastic band 22 is locked on the latching base 10b protruding from the edge of the ion blowing port 13 and is firmly fixed on the main body 1 without being loosened by the vibration. Electrical structure
In the electrified structure (A)
In the discharge fin assembly plate 12 to which the discharge fin 11 is coupled,
The discharge pin assembly plate 12 has a structure in which the assembly groove 12b is formed. When the discharge pin is inserted by fixing the terminal to the assembly groove 12b, the discharge pin comes to a predetermined position, Is fixed to a predetermined position even when the direction of insertion into the body (18) is changed.

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