KR102003116B1 - Ground device for conveyor roller - Google Patents

Abstract

A grounding device for a conveyor roller is disclosed. According to an embodiment of the present invention, there is provided a grounding device installed on a roller shaft of a roller for conveying a substrate, comprising: a roller connecting part having one side connected to the roller shaft; A housing connected to the other side of the roller connection portion and including a receiving space; A conductive part disposed in the accommodating space for conducting static electricity generated in the roller conveyor; A conductive shaft rotatably connected to the housing and having one side contacting the conductive part to conduct the static electricity; A static electricity discharging unit connected to the other side of the conductive shaft and for transmitting the static electricity to the outside; And a bearing disposed between the conductive shaft and the housing.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a roller-

The following embodiment relates to a roller type conveyor grounding device.

In general, a liquid crystal display, which is one of the display devices, is formed by using a glass substrate, which is a brittle material substrate, and a data signal according to image information is separately supplied to a plurality of liquid crystal cells arranged in a matrix form, A display device capable of displaying a desired image by controlling the display device is widely used because of its thinness and light weight, low power consumption and low operating voltage.

A liquid crystal panel generally employed in such a liquid crystal display includes an upper panel formed by patterning a color filter on an upper glass substrate, a lower panel formed by patterning a thin film transistor (TFT) on a lower glass substrate, The liquid crystal is injected between the upper panel and the lower panel, then the upper panel and the lower panel are aligned with each other, and the upper panel and the lower panel, which have been aligned, are joined and cut.

Further, in order to improve the productivity in the manufacturing process of the liquid crystal panel, a mother glass panel having a plurality of unit panels employed in one liquid crystal display device is provided, and then a process of cutting the liquid crystal panel Cut into unit panels, and then separate the unit panels from the mother glass panel.

This conveyance of the mother glass panel is conveyed through the conveyor device.

Such a conveyor is divided into a belt-type conveyor and a roller-type conveyor. The belt-type conveyor is configured to be able to roll a flat belt around a plurality of cylindrical rollers mounted on a body frame to move a carrier placed on the belt Structure.

The roller-type conveyor also has a plurality of conveying rollers disposed adjacent to each other between a pair of body frames installed parallel to each other, so that the conveying body placed on these conveying rollers is conveyed on the rotation of the conveying roller . Particularly roller-type conveyors are known to be suitable for transporting flat articles such as flat glass.

The production line of the liquid crystal panel is provided with a conveyor device for conveying the glass to form a part of the display device. The conveyor device supports and supports the glass bottom face so that the glass processing process proceeds, And the finished glass is transferred to the position where the next process is to be performed.

However, in such a conveyor apparatus, static electricity is generated when the glass and the glass are supported and transported when the glass is transported. Such static electricity can degrade the quality of the glass and cause glass damage.

An object according to an embodiment is to provide a grounding device which can be connected to a roller type conveyor in various kinds.

An object according to an embodiment is to provide a grounding apparatus for electrically conducting static electricity generated in a roller-type conveyor.

According to an embodiment of the present invention, there is provided a grounding device installed on a roller shaft of a roller for conveying a substrate, comprising: a roller connecting part having one side connected to the roller shaft; A housing connected to the other side of the roller connection portion and including a receiving space; A conductive part disposed in the accommodating space for conducting static electricity generated in the roller conveyor; A conductive shaft rotatably connected to the housing and having one side contacting the conductive part to conduct the static electricity; A static electricity discharging unit connected to the other side of the conductive shaft and for transmitting the static electricity to the outside; And a bearing disposed between the conductive shaft and the housing.

The roller connecting portion includes a shaft engaging groove formed at one side thereof to receive at least a part of the roller shaft; And a housing coupling groove formed on the other side to be connected to the housing.

In one aspect of the present invention, the housing may further include a fastening member protruding from one side so as to be insertable into the housing fastening groove.

In one side, the fastening member can be fitted into the housing fastening groove such that the housing is fixed to the roller connecting portion.

The grounding device may further include an elastic body for pressing the conductive portion in the direction of the conductive shaft so as to contact the conductive portion and the conductive shaft.

In one aspect of the present invention, the conductive shaft includes an engaging member protruding from an outer circumferential surface, and the engaging member is engaged with an end of the bearing, thereby preventing the conductive shaft from separating from the housing.

In one side, one side of the conductive shaft may be formed in a shape in which the cross-sectional area is narrowed.

In one aspect of the present invention, the housing includes: a fixing part formed on the other side; A fixing groove formed to penetrate the fixing portion; And a fixing member inserted into the fixing groove, wherein the fixing member is engaged with the end of the bearing in a state of being fastened to the fixing groove, thereby preventing the bearing from being detached from the housing.

The grounding device according to one embodiment can be connected to roller type conveyors in various kinds.

The grounding apparatus according to one embodiment can electrically conduct static electricity generated in the roller type conveyor to the outside.

The effects of the earthing device according to one embodiment are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, It should not be construed as limited.
1 is a schematic diagram showing a roller type conveyor according to one embodiment.
2 is a perspective view of a grounding device according to one embodiment.
3 is an internal cross-sectional view of a grounding device according to one embodiment.
4 is an exploded perspective view of a grounding device according to one embodiment.
5 is a perspective view of a grounding device according to one embodiment.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

The components included in any one embodiment and the components including common functions will be described using the same names in other embodiments. Unless otherwise stated, the description of any one embodiment may be applied to other embodiments, and a detailed description thereof will be omitted in the overlapping scope.

1 is a perspective view showing a state in which a grounding apparatus 10 according to an embodiment is installed on a conveyor roller.

Referring to FIG. 1, the grounding apparatus 10 according to one embodiment can conduct the electrostatic current generated in the conveyor for conveying the substrate S to the outside, for example, the ground. The conveyor may include a roller shaft S rotated by a driving unit and a carrier roller P connected to the roller shaft S and conveying while supporting the substrate S. [ The carrier roller P forms a single carrier unit with the roller shaft S and can transfer the substrate S while being rotated by the carrier roller P. [

A plurality of carrier units are provided and arranged parallel to each other, and the substrate S can be transferred while rotating in the same direction. Each of the plurality of carrier units may be electrically connected to each other with a conductive material. For example, the roller shaft S may be made of a metal material, and the carrier roller P contacting the substrate S may be a conductive material. For example, the carrier roller (P) may include a resin material in which carbon nanotubes are blended.

In this case, the grounding device 10 may be connected to the roller shaft S. Since the carrier roller P feeds the substrate S through friction due to the contact with the substrate S, static electricity can be generated between the carrier roller P and the substrate S, The substrate S may be damaged. Static electricity generated between the carrier roller P and the substrate S can be transmitted to the grounding apparatus 10 through the carrier shaft.

The grounding apparatus 10 can serve to ground the static electricity generated between the carrier roller P and the substrate S by conducting the static electricity to the outside.

 2 is a perspective view of a grounding apparatus 10 according to one embodiment, FIG. 3 is an internal cross-sectional view of a grounding apparatus 10 according to an embodiment, and FIG. 4 is an exploded perspective view of a grounding apparatus 10 according to an embodiment It is a perspective view.

2 to 4, the grounding apparatus 10 according to one embodiment includes a roller connecting portion 110, a housing 120, a conductive portion 130, an elastic body 170, a conductive shaft 140, (160) and an electrostatic discharge unit (150).

The roller connecting portion 110 can connect the roller-type conveyor and the housing 120. The roller connecting portion 110 may be connected to the roller shaft S on one side and the housing 120 on the other side. The roller connecting portion 110 includes a shaft engaging groove 111 formed at one side to receive at least a portion of the roller shaft S and a housing engaging groove 112 formed at the other side to receive at least a portion of the housing 120 . One end of the roller shaft (S) can be inserted into the shaft engaging groove (111).

The shaft engaging groove 111 may be formed with a screw groove formed through a side surface of the roller connecting portion 110 so that a screw can be inserted. The roller shaft S and the roller connecting portion 110 can be fastened to each other by inserting screws into the screw groove in a state where the roller shaft S is inserted into the shaft engaging groove 111. [

The housing 120 may be connected to the other side of the roller connecting portion 110. The housing 120 may include a receiving space 121 formed therein. The housing 120 can be fixedly connected to the roller connecting portion 110 by at least a part of the housing 120 being inserted into the housing connecting groove 112 of the roller connecting portion 110. For example, as will be described later, the housing 120 includes a fastening member 122 protruding from one side, and the fastening member 122 can be forcedly fitted into the housing fastening groove 112. For example, the housing coupling groove 112 may have a smaller diameter cross-section than the coupling groove.

As a result, since the roller shaft S and the housing 120 are fixedly connected to the roller connecting portion 110, the housing 120 can rotate together with the rotation of the roller shaft S together.

On the other side of the housing 120, a fixing portion 124 for fixing a bearing 160, which will be described later, may be formed. The fixing part 124 may protrude outward from the other end of the housing 120 and a fixing groove 125 may be formed in the fixing part 124 so as to penetrate through the fixing part 123. It is possible to cover at least a part of the receiving groove in a state where the fixing member 123 is inserted into the fixing groove 125. [ Therefore, the fixing member 123 can be prevented from separating from the housing 120 by engaging the end of the bearing 160, which will be described later. This will be described later.

The conductive part 130 may be disposed in the housing space 121 so that the static electricity generated in the roller conveyor can be transmitted through the housing 120. The conductive part 130 may rotate together with the rotation of the housing 120. The conductive part 130 may serve as a medium for conducting static electricity to the conductive shaft 140 rotating relative to the housing 120. Accordingly, the conductive portion 130 may be formed of a material having a minimum electrical resistance, for example, a carbon material.

The conductive shaft 140 may be inserted into the accommodating space 121 of the housing 120 so as to be rotatably connected to the housing 120. The conductive shaft 140 is brought into contact with the conductive part 130, so that the conductive shaft 140 can transmit and receive static electricity. Since the conductive shaft 140 rotates relative to the conductive portion 130, the conductive shaft 140 may be formed in a shape such that the cross-sectional area thereof becomes narrower so that one side of the conductive shaft 140 in contact with the conductive portion 130 can be in rolling contact.

The conductive shaft 140 may include an engaging member 141 protruding from the outer circumferential surface. The engaging member 141 can be prevented from separating from the housing 120 by engaging with the end of the bearing 160 described later.

The elastic body 170 can press the conductive portion 130 toward the conductive shaft 140 to closely contact the conductive portion 130 and the conductive shaft 140. For example, the elastic body 170 maintains contact between the conductive portion 130 and the conductive shaft 140 when the conductive shaft 140 or the conductive portion 130 is worn, or when vibration occurs as the rotation occurs , It is possible to assist the electric current in accordance with the static electricity to be conducted to the conductive shaft 140.

A bearing 160 may be disposed between the conductive shaft 140 and the housing 120. The bearing 160 may be formed to have a size corresponding to the accommodating space 121 of the housing 120 and a hollow may be formed such that at least a portion of the conductive shaft 140 may be inserted. The bearing 160 may serve to support the conductive shaft 140 so as not to shake in the accommodation space in a state in which the housing 120 rotates relative to the conductive shaft 140. [

The bearing 160 can maintain the position of the conductive shaft 140 in the accommodating space 121 of the housing 120 while contacting the engaging member 141 of the conductive shaft 140. [ 3, the conductive shaft 140 may receive a pressing force to the outside of the accommodation space 121 by the conductive portion 130. [ In this case, the bearing 160 can maintain the height of the conductive shaft 140 in the accommodating space 121 while contacting the engaging member 141 of the conductive shaft 140. In this case, the bearing 160 can be prevented from being released to the outside of the accommodation space 121 by the fixing member 123. As a result, the positions of the conductive shaft 140 and the bearing 160 in the housing space 121 of the housing 120 can be fixed.

The static electricity discharging unit 150 is connected to the other side of the conductive shaft 140 and is capable of transmitting the static electricity conducted from the conductive shaft 140 to the outside. For example, the electrostatic discharge unit 150 may be connected to another grounding apparatus 10, thereby electrically connecting a plurality of grounding apparatuses.

An insertion groove 142 for connecting the electrostatic discharge unit 150 is formed on the other side of the conductive shaft 140 and an insertion screw can be inserted and connected to the insertion groove 142. In this case, the insertion screw can be fitted into the insertion groove 142. The insertion screw passes through the static electricity discharging unit 150 and is connected to the insertion groove 142 so that the static discharging unit 150 and the conductive shaft 140 can be connected.

5 is a perspective view of a grounding device 10 'according to one embodiment.

The grounding device 10 'according to one embodiment may include roller connecting portions 110' having various shapes to connect the housing 120 and the roller shaft S regardless of the kind of the roller conveyor. For example, when the diameter of the roller shaft S becomes large, a roller connecting portion 110 including a shaft engaging groove corresponding to the diameter may be used. That is, since the grounding apparatus 10 connects the roller shaft S and the housing 120 via the roller connecting portion 110 ', by replacing only the roller connecting portion 110', one grounding apparatus 10 It can be connected to various kinds of roller conveyors.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. For example, it is contemplated that the techniques described may be performed in a different order than the described methods, and / or that components of the described structures, devices, and the like may be combined or combined in other ways than the described methods, Appropriate results can be achieved even if they are replaced or replaced.

1: Grounding device
110: roller connection portion
120: Housing
130:
140: Conductive shaft
150: Electrostatic discharge unit
160: Bearings

Claims (8)

A grounding device installed on a roller shaft of a roller conveyor for substrate transfer,
A roller connecting portion formed on one side and including a shaft engaging groove for receiving at least a part of the roller shaft and a housing engaging groove formed on the other side;
A housing including a coupling member protruding from one side so as to be insertable into the housing coupling groove, the housing including a receiving space formed therein;
A conductive part disposed in the accommodating space for conducting static electricity generated in the roller conveyor;
A conductive shaft rotatably connected to the housing and having one side contacting the conductive part to conduct the static electricity;
A static electricity discharging unit connected to the other side of the conductive shaft and for transmitting the static electricity to the outside; And
A bearing disposed between the conductive shaft and the housing,
Wherein the conductive shaft is formed in such a shape that a cross-sectional area thereof becomes narrower toward one side of the conductive portion so that one side of the conductive shaft that is in contact with the conductive portion can be in rolling contact with the conductive portion.
delete delete The method according to claim 1,
Wherein the fastening member is fitted into the housing fastening groove such that the housing is fixed to the roller connecting portion.
The method according to claim 1,
Further comprising an elastic body for urging the conductive portion toward the conductive shaft so as to contact the conductive portion and the conductive shaft.
The method according to claim 1,
Wherein the conductive shaft includes an engaging member protruding from an outer circumferential surface thereof,
Wherein,
Wherein the conductive shaft is prevented from disengaging from the housing by engaging the end of the bearing.
delete The method according to claim 1,
The housing includes:
A fixing part formed on the other side;
A fixing groove formed to penetrate the fixing portion; And
And a fixing member to be inserted into the fixing groove,
Wherein the fixing member is engaged with the end of the bearing in a state of being fastened to the fixing groove, thereby preventing the bearing from being detached from the housing.

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