KR102530994B1 - A device for capturing micro metal dust - Google Patents

Abstract

The present invention relates to a device for collecting fine metal dust, comprising: a magnetic closed circuit composed of a magnetic material; and a pair of magnet modules attached to one surface of the closed magnetic circuit and arranged spaced apart from each other, wherein the magnet modules are configured by continuously coupling a plurality of magnets in a horizontal direction so that the same polarities are adjacent to each other. to be

Description

Fine metal dust collection device {A DEVICE FOR CAPTURING MICRO METAL DUST}

The present invention relates to a fine metal dust collecting device, and more particularly, to a fine metal dust collecting device for easily collecting fine metal generated on a panel such as a PCB glass substrate or a film by magnetic force.

In general, in order to remove fine metal dust generated on the surface during manufacturing processes of LCD light guide plates, LCD diffusion plates, printed circuit boards (PCBs), secondary batteries, etc., fine metal dust is removed through a vacuum pump or roller-type adsorption device. are removing

Such a device is inevitably used to reduce the defect rate.

For example, in the case of a roller type adsorption device, which is a current metal dust removal device, the continuous dust removal time is short because the lifespan of the adsorption film wrapped in the outermost part of the adsorption roll is short, so unmanned automation is impossible, and dust is removed through a vacuum pump. In the case of a removal device for removing the device, it is difficult to use in the case of a small-scale producer due to the large size of the device and the maintenance cost.

In order to solve the above problems, the present applicant proposed Republic of Korea Patent Registration No. 10-1521512 (title of invention: fine metal dust collecting device, hereinafter referred to as the cited patent).

The cited patent is configured to generate a uniform distribution of magnetic force (the unit of magnetic force is described as Gauss) by manufacturing identical poles in a laminated form in order to increase the size of each magnetic flux, thereby manufacturing a PCB glass substrate and a panel. It can uniformly collect fine metal dust on the surface generated by magnetic force.

However, the above-cited patent has a problem in that the polarities of adjacent magnets are arranged differently from each other, resulting in attraction, which causes loss of magnetic force.

In addition, since the magnet module that collects fine metal dust is configured by stacking a plurality of magnets, the device configuration is complicated and manufactured because it includes a block-type case or a cover member on the exterior to accommodate and transport the magnet module. There is this difficult problem.

Therefore, instead of constructing a magnet module by stacking a plurality of magnets as in the cited patent, by continuously coupling magnets in a horizontal direction to a closed magnetic circuit composed of ferromagnetic material, the PCB glass substrate does not include a configuration such as a block-type case or cover member. , There is a demand for the development of a fine metal dust collecting device configured to easily collect fine metal dust generated on a panel such as a film by magnetism.

[Patent Document]] KR 10-1521512 (Title of Invention: Fine Metal Dust Collecting Device))

In order to solve the above problems, the present invention includes a magnetic closed circuit made of a magnetic material and a pair of magnet modules attached to one surface of the magnetic closed circuit and disposed spaced apart from each other, and the magnet modules have the same polarity. By being configured so that a plurality of neighboring magnets are continuously coupled in the horizontal direction, a magnet module is formed by the attractive force between the magnetic closed circuit and the magnet to increase the magnetic force with a simple configuration, thereby increasing the efficiency of collecting fine metal dust. Its purpose is to provide a metal dust collection device.

An apparatus for collecting fine metal dust according to an embodiment of the present invention for achieving the above object includes a magnetic closing circuit made of a magnetic material; and a pair of magnet modules attached to one surface of the closed magnetic circuit and arranged spaced apart from each other, wherein the magnet modules are configured by continuously coupling a plurality of magnets in a horizontal direction so that the same polarities are adjacent to each other. to be

In addition, the magnet module according to the present invention, the first magnet module; and a second magnet module that is spaced apart from the first magnet module and has magnets continuously coupled so that polarities different from those of the opposing first magnet module face each other.

In addition, the magnetically closed circuit according to the present invention is characterized in that the magnetic force emitted from the magnet module is increased.

In addition, the magnet according to the present invention is characterized in that an attractive force acts between the magnetically closed circuits and a repulsive force acts between adjacent magnets.

In addition, the magnet according to the present invention is characterized in that the attractive force between the magnetically closed circuits is greater than the repulsive force between neighboring magnets, and is magnetized and coupled to the magnetically closed circuits without separation from neighboring magnets.

In addition, the fine metal dust collecting device according to the present invention includes a coupling means for coupling the magnet to the closed magnetic circuit when the attractive force between the magnet and the closed magnetic circuit is smaller than the repulsive force between neighboring magnets, and the coupling means is characterized in that the magnets are configured to be continuously arranged without being spaced apart from neighboring magnets.

In addition, the coupling means according to the present invention is characterized in that it is composed of any one selected from among adhesives, screws or bolts, or insertion grooves provided on one surface of the magnetically closed circuit to fix the magnet in a forced fit method.

According to the fine metal dust collecting device according to the present invention as described above, by forming a magnet module in which a plurality of magnets are continuously coupled in the horizontal direction by the attractive force between the magnetic closed circuit and the magnet, it is possible to increase the magnetic force even with a simple configuration. There is an effect of increasing the efficiency of collecting metal dust.

In addition, since the attractive force between the magnet and the closed magnetic circuit is greater than the repulsive force between the magnet and the neighboring magnet, there is an effect of being magnetized and coupled to the closed magnetic circuit without separation from the neighboring magnet without a separate tool.

In addition, by including a coupling means for coupling the magnets to the closed magnetic circuit, even when the attractive force between the magnet and the closed magnetic circuit is smaller than the repulsive force between the magnet and the neighboring magnet, the magnets are continuously arranged without separation to form a magnet module.

In addition, the magnet module includes a first magnet module and a second magnet module, and the second magnet module is configured to face a different polarity from the opposing first magnet module, so that the magnetic force extending from the N pole to the S pole A magnetic field having the same magnetic force is formed on the lower side of the magnet module, so that fine metal dust on the transfer device is efficiently collected in the magnet module.

In addition, since the magnetic closed circuit is composed of a magnetic material or a pole magnetic material, there is an effect of increasing the magnetic force emitted from the magnet module.

1 is a perspective view showing the overall configuration of a fine metal dust collecting device according to the present invention.
2 is a cross-sectional view showing a state of use of the fine metal dust collecting device according to the present invention.
Figure 3 is a diagram showing the magnetic force acting on the magnet module according to the present invention.
4 is a view showing a state of use of a coupling means composed of an adhesive.
5 is a view showing a state of use of coupling means composed of screws or bolts.
6 is a view showing a state of use of a coupling means composed of coupling grooves.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. First of all, it should be noted that identical components or parts in the drawings are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the gist of the present invention.

1 is a perspective view showing the overall configuration of a fine metal dust collecting device according to the present invention, and FIG. 2 is a cross-sectional view showing a state of use of the fine metal dust collecting device according to the present invention.

As shown in FIGS. 1 and 2, the device for collecting fine metal dust according to an embodiment of the present invention is provided above the conveyor belt 10 for transporting a PCB glass substrate, film or panel, and is provided on the PCB glass substrate, film or panel. It is formed as a block structure that collects the fine metal dust remaining on the panel on one side through magnetic force.

Accordingly, the fine metal dust collecting device 1 may include a magnetically closed circuit 100, a magnet module 200, and a coupling means 300.

The magnetically closed circuit 100 is made of a magnetic material or pole magnetic material and may be configured in a plate shape having a certain area.

In addition, the magnetic closed circuit 100 is configured to increase magnetic force emitted from the magnet module 200 .

Specifically, the magnetic closed circuit 100 is disposed above the fine metal dust collecting device 1 according to the present invention, and a pair of magnet modules 200 extending a plurality of magnets 210 horizontally downward. With this arrangement, the magnet 210 constituting the magnet module 200 composed of a magnetic material or a ferromagnetic material can be coupled by attraction.

also. The closed magnetic circuit 100 concentrates the magnetic force emitted from the pair of magnet modules 200 facing each other into the closed magnetic circuit, so that the magnitude of the magnetic force generated from the magnet module 200 toward the conveyor belt can be increased. do.

This is because the magnetic closed circuit 100 is disposed above the magnet module 200, and the magnetic force generated by the attraction between a pair of facing magnet modules 200 concentrates toward the lower part of the magnet module 200, that is, toward the conveyor belt. make it possible

In addition, the attractive force acting between the magnetically closed circuit 100 and the magnet 210 is preferably configured to be greater than or equal to the repulsive force acting between the magnet 210 and the neighboring magnets 210 (attractive force ≥ repulsive force).

Therefore, the magnetically closed circuit 100 may be made of a thickness and material capable of generating an attractive force that meets the above conditions.

In the present invention, each magnet 210 constituting the magnet module 200 is simultaneously subjected to attraction with the closed magnetic circuit 100 and repulsive force between neighboring magnets 210. When the attraction with the closed magnetic circuit 100 increases, Even if a repulsive force acts between neighboring magnets 210, the magnets 210 can be magnetized and coupled without separation, so there is an advantage that a separate coupling device is not required.

On the other hand, when the attractive force acting between each magnet 210 and the magnetically closed circuit 100 is smaller than the repulsive force between neighboring magnets 210 (attractive force < repulsive force), separation between the magnets 210 will occur due to the repulsive force can Therefore, in this case, the coupling means 300 can be used for continuous coupling of the magnetically closed circuit 100 and the magnet 210 so that the magnets 210 can be continuously arranged without separation.

Figure 3 is a diagram showing the magnetic force acting on the magnet module according to the present invention.

As shown in FIG. 3 , the magnet module 200 according to the present invention may be attached to one surface of the magnetically closed circuit 100 and may be composed of a pair disposed spaced apart from each other at a predetermined interval.

In addition, the magnet module 200 is configured by continuously coupling a plurality of magnets 210 in a horizontal direction so that the same polarities are adjacent to each other.

Specifically, the magnet module 200 is composed of a pair of magnets 210 continuously coupled in a horizontal direction so that the same polarity is adjacent to each other, and arranged spaced apart at regular intervals so that different polarities face each other.

Therefore, each magnet 210 of the magnet module 200 is arranged to have the same polarity as the adjacent magnet 210 so that a repulsive force acts, and a polarity different from that of the opposite magnet 210 faces and an attractive force acts.

In addition, the magnet module 200 is coupled to the magnetically closed circuit 100 by attraction.

Therefore, the magnet module 200 is disposed spaced apart from the first magnet module 220 and the first magnet module 220, and the magnet 210 faces the opposite polarity of the first magnet module 220 It may include a second magnet module 230 continuously coupled.

In addition, the lines of magnetic force generated by the first magnet module 220 and the second magnet module 230 are lines of magnetic force parallel to the upper and lower directions of the magnet module 200, that is, uniform, as shown in FIG. By forming magnetic force, it is possible to effectively collect the fine metal dust 20 on the conveyor belt.

That is, since the magnets in the horizontal direction can be considered to be formed adjacently, there is almost no loss of magnetic force in the horizontal direction, and since the magnetic force is generated evenly in the lower or upper part, it is necessary to collect fine metal or fine metal dust 20. Efficiency increases.

In addition, as described above, since the magnetically closed circuit 100 is disposed above the magnet module 200, the magnetic force is more concentrated on the lower side of the conveyor belt 10.

Figure 4 is a view showing the use state of the coupling means composed of adhesive, Figure 5 is a view showing the use state of the coupling means composed of screws or bolts, Figure 6 is a view showing the use state of the coupling means composed of coupling grooves .

The coupling means 300 according to the present invention, as shown in FIGS. 4 to 6, the attractive force acting on each of the magnets 210 (the attractive force between magnetically closed circuits 100) is the repulsive force (the repulsive force between neighboring magnets 210). ), it is configured for coupling of the magnet module 200, that is, the magnet 210 and the closed magnetic circuit 100, to prevent separation from neighboring magnets 210.

In addition, the coupling means 300 is an adhesive 310, a screw or a bolt 320, or a coupling groove 330 is provided in the magnetic closed circuit 100 to connect the magnet module 200 to the coupling groove 330. It may be composed of any one selected from the method of combining by inserting into.

On the other hand, although not shown, the fine metal dust collecting device 1 according to the present invention may further include a non-magnetic suction plate that is detached from the bottom of the magnet module 200 through a fastening member.

The suction plate (not shown) is disposed at the bottom of the magnet module 200 facing the closed magnetic circuit 100, and is formed of a thin plate-shaped non-magnetic material, so it does not significantly affect the magnetic force generated by the magnet module 200. It allows the magnetic force to be transmitted to the lower belt 10 intact.

In addition, the adsorption plate (not shown) absorbs the fine metal dust 20 raised by the magnetic force formed by the magnet module 200, and when the adsorption is completed, the adsorption is separated from the magnet module 200 and the adsorbed fine metal dust ( 20) can be easily removed by the user.

According to the fine metal dust collecting device according to the present invention as described above, by forming a magnet module in which a plurality of magnets are continuously coupled in the horizontal direction by the attractive force between the magnetic closed circuit and the magnet, it is possible to increase the magnetic force even with a simple configuration. There is an effect of increasing the efficiency of collecting metal dust.

In addition, since the attractive force between the magnet and the closed magnetic circuit is greater than the repulsive force between the magnet and the neighboring magnet, there is an effect of being magnetized and coupled to the closed magnetic circuit without separation from the neighboring magnet without a separate tool.

In addition, by including a coupling means for coupling the magnets to the closed magnetic circuit, even when the attractive force between the magnet and the closed magnetic circuit is smaller than the repulsive force between the magnet and the neighboring magnet, the magnets are continuously arranged without separation to form a magnet module.

In addition, the magnet module includes a first magnet module and a second magnet module, and the second magnet module is configured to face a different polarity from the opposing first magnet module, so that the magnetic force extending from the N pole to the S pole A magnetic field having the same magnetic force is formed on the lower side of the magnet module, so that fine metal dust on the transfer device is efficiently collected in the magnet module.

In addition, since the magnetic closed circuit is composed of a magnetic material or a pole magnetic material, there is an effect of increasing the magnetic force emitted from the magnet module.

The terms and words used in this specification and claims described herein should not be construed as being limited to ordinary or dictionary meanings, and the present inventors appropriately use the concept of terms in order to explain their invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the configurations shown in the drawings and embodiments described in this specification are only one of the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, so they can be replaced at the time of the present application. It should be understood that there may be many equivalents and variations.

1: Fine metal dust collection device
10: conveyor belt 20: fine metal dust
100: magnetic closed circuit 200: magnet module
210: magnet 220: first magnet module
230: second magnet module 300: coupling means
310: adhesive 320: screws, bolts
330: coupling groove

Claims (7)

Magnetically closed circuit composed of magnetic material; and
A pair of magnet modules attached to one surface of the closed magnetic circuit and disposed spaced apart from each other;
The magnet module,
A plurality of magnets are continuously coupled in the horizontal direction so that the same polarity is adjacent to each other,
An attractive force acts between the magnet and the magnetically closed circuit, and a repulsive force acts between neighboring magnets.
When the attractive force between the magnet and the magnetically closed circuit is greater than the repulsive force between neighboring magnets, the magnet is magnetized to the magnetically closed circuit without separation from the neighboring magnet.
According to claim 1,
The magnet module,
a first magnet module; and
a second magnet module that is spaced apart from the first magnet module and has magnets continuously coupled so that a polarity different from that of the opposing first magnet module faces;
Fine metal dust collecting device characterized in that it comprises a.
According to claim 1,
In the self-closing circuit,
Fine metal dust collecting device, characterized in that for increasing the magnetic force emitted from the magnet module.
delete delete According to claim 1,
When the attractive force between the magnet and the closed magnetic circuit is smaller than the repulsive force between neighboring magnets, coupling means for coupling the magnet to the closed magnetic circuit;
The coupling means,
The fine metal dust collecting device, characterized in that the magnet is configured to be continuously arranged without separation from neighboring magnets.
According to claim 6,
The coupling means,
The fine metal dust collecting device, characterized in that composed of any one selected from adhesives, screws or bolts, or an insertion groove provided on one side of the magnetically closed circuit to fix the magnet in a forced fit method.

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