KR20150044683A - Thin glass feed conveyor - Google Patents

Abstract

The present invention relates to a conveyor for transferring thin film glass and, more particularly, to a conveyor for transferring thin film glass, which can minimize contact by including a supporting board with a protruding unit on a belt of a conveyor in order to minimize a contact surface with thin film glass when transferring the thin film glass. The purpose of the present invention is to provide the conveyor for transferring thin film glass, which can minimize a contact surface with glass by including a supporting board that is formed on the outer circumference of a belt of the conveyor in a longitudinal direction of the belt and has a protruding unit at the central part of the belt, in order to make the protruding unit be in contact with the glass. Therefore, the conveyor for transferring thin film glass can minimize contact with the thin film glass through linear contact with the thin film glass by including the supporting board where the protruding unit is formed at the central part of the belt in order to minimize an area of the belt in contact with the thin film glass during transferring, can minimize a failure rate of the thin film glass by minimizing foreign materials on the thin film glass during transferring through a suction hood and a contact roller installed for removing foreign materials at the linearly contacting part, can save a working space and costs by removing the need to include an additional foreign material device, and can improve work efficiency and productivity.

Description

[0001] The present invention relates to a thin glass feed conveyor,

The present invention relates to a conveyor for conveying a thin film glass, and more particularly, to a conveyor for conveying a thin film glass, in which a conveyor for conveying a thin film glass is provided with a protrusion formed on the belt to minimize the contact surface of the thin film glass, Conveyor.

Generally, a conveyor is a mechanism that automatically and continuously transports objects such as material or cargo within a certain distance.

Such a conveyor can be used to transport glass substrates (glass) in semiconductors, display processes. At this time, the feed rate to the glass substrate is one of various factors that determine the production speed of the semiconductor or the display.

According to the related art,

Registration No. 10-1270532 relates to a 'panel conveying conveyor', which includes a single orbital loop and an orbital motion section having an orbital drive section for rotationally driving the orbiting loop; And a rotating part having a magnet body rotatably installed in the revolving loop so as to support the panel to be conveyed and a rotation driving part for rotating the magnet body,

Wherein the prime mover comprises: a support roller for supporting the panel; And a rotating rod extending from the support roller and rotatably connected to the idle loop,

The rotation driving unit may include a pair of rolling members disposed on both sides of the support roller, and a pair of rolling members disposed on both sides of the rotation roller, And a pair of guide rails for causing the support rollers to rotate as the support rollers revolve along the idle loop.

As described above, most of conventional conveyors have a problem that the bottom of the glass contacts the conveyor belt when the glass is conveyed, and foreign matter is generated on the contacted portion.

Therefore, a separate process and apparatus for removing the foreign substances in contact with the glass are required, and there is a problem that a large amount of foreign material is brought into contact with the glass due to the wide contact surface contacting the conveyor belt.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art described above, and it is an object of the present invention to provide a supporting base having a protruding portion formed on the outer periphery of the belt in the longitudinal direction of the belt, And a conveyor for conveying a thin film having a contact surface contacting the glass is minimized.

According to an aspect of the present invention, there is provided a conveyor for conveying a thin film glass, wherein the conveyor is constituted by a belt which rotates by driving a driving body, and a supporting base on which a thin glass is placed, Wherein the support frame is elongated in the longitudinal direction of the belt and constitutes an inclined surface extending from both sides to a central portion so as to form a protrusion at the central portion so that the thin film glass is conveyed while being mounted on the protrusion. To solve these problems.

According to the thin film glass conveying conveyor according to the present invention, a support base having a protruding portion formed at the center of the belt can be formed so as to minimize the area of the belt that touches the thin glass when the thin glass is conveyed using a conveyor, And the suction hood and the contact roller are configured to remove foreign matter from the line contacted portion, so that the foreign matter to the thin glass can be minimized while minimizing the defective rate to the thin glass It is possible to reduce work space and cost by eliminating the need for a separate foreign material removing device, and it is also an epoch-making invention such that the efficiency of work and the productivity can be improved.

1 is a plan view showing a conveyor according to the present invention;
2 is a side view showing the conveyor of the present invention
3 is a front view showing a conveyor according to the present invention.
Fig. 4 is a front view showing a belt of the structure of the conveyor of the present invention
Fig. 5 is a front sectional view showing the shape of a supporting frame formed on a belt in the structure of the conveyor of the present invention
6 is a front sectional view showing the shape of another embodiment of the support frame formed on the belt among the structures of the conveyor of the present invention

First, the construction of the thin film glass conveyor according to the present invention will be described.

A conveyor (10) for conveying a thin film glass, wherein a conveyor (10) is constituted by a belt (100) rotating by driving a driving body, and a support (100) on which a thin glass The support base 200 is formed in a lengthwise direction of the belt 100 and has inclined surfaces 211a and 211b extending upwardly from both sides to form a protrusion 210 at a central portion thereof The thin film glass g is seated on the protrusion 210 and transported.

The support base 200 is made of a viton material which is a fluorine rubber.

The support 200 may be integrally formed with the belt 100 or may be formed separately on the outer periphery of the belt 100 in accordance with the use of the belt 100.

A contact roller 300 for removing foreign matter generated by the contact of the protrusion 210 on the bottom surface of the thin film glass g supported on the support table 200 and spaced from the end of the belt 100 at a predetermined interval, .

The contact roller 300 includes a cylinder 310 for raising and lowering the contact roller 300 according to use.

Between the belt 100 and the contact roller 300, a suction hood 400 is mounted which is seated on the support table 200 and sucks foreign substances in contact with the bottom surface of the thin film g transferred.

An auxiliary roller 500 for preventing the thin film glass g from being stuck when the thin film g transferred on the support table 200 is transferred to the next process is formed on one side of the end of the belt 100.

The construction of the thin film glass conveyor 10 according to the present invention will be described in more detail with reference to FIGS. 1 to 6. FIG.

Generally, the conveyor 10 rotates the belt 100 connected to the driving body by driving the driving body such as a motor.

In the case of the above-described belt 100, the type of the belt varies depending on the use of the conveyor and the article to be conveyed. The structure and configuration of the belt according to the above-described circumstances are not limited to the present invention.

The belt 100 constituted in the present invention is rotated by the driving body constituted in the conveyor 10 and is elongated in the longitudinal direction of the conveyor 10 and the belt 100 is formed inside the conveyor 10, The belt 100 is rotated in the longitudinal direction by the operation of the driving body.

The belt 100 is connected to a driving body, and a belt 100 is connected to a rotating shaft, and the belt 100 is rotated by the rotation of the rotating shaft.

The belt 100 may include at least one belt 100, which is selectively spaced apart from the belt 100 by a predetermined distance.

The plurality of belts 100 are spaced apart from each other by a predetermined distance so that the thin glass g transferred in contact with the support 200 formed on each belt 100 is conveyed without being separated from the belt 100 during conveyance . This is not limited to the number of the belts 100 because the number of the belts 100 may be one or more, depending on the use of the conveyor 10.

[0030] The belt 100 will be described in detail.

A support base 200 is formed on the outer circumference of the belt 100.

Like the belt 100 of the supporter 200, is formed long in the longitudinal direction and has protrusions 210 protruding from both sides thereof and protruding from the center. At this time, slopes 211a and 211b are formed on extension lines extending from both sides to the center, and the slopes 211 are formed in a shape of '∩'.

The inclined surfaces 211a and 211b may have a shape of '∧' or 'person' as shown in FIGS. 6A and 6B, or the inclined surface 211 may be flat or curved at a certain depth have.

The shape of the protruding portion 210 generally has a problem that a contact surface where the glass is in contact with the belt is widened to cause a large amount of foreign matter to the contact surface (generally, the surface in contact with the glass is' The projection 210 of the support 200, not the surface contact, which is conventionally used to minimize the contact surface, is brought into line contact.

The support 200 may be integrally formed with the belt 100 or separately formed with the belt 100 according to the formation of the belt 100.

In the case of the belt 100, urethane is used as the material. This is a commonly used material and may be variable.

In the case of the support table 200, a viton material such as a fluorine rubber is used. The via is generally used as a seal material, and the fluorine rubber is resistant to heat, oil, The synthetic rubber is superior in chemical resistance to the conventional synthetic rubber, and is now widely used as a fuel system for aircraft, missile, and rocket, a packing for hydraulic system, and a gasket material.

The biotin material used for the support table 200 may be a biotone material only for the protrusion 210 to which the thin glass g is to be contacted according to the use of the supporter 200. However, Materials may also be used.

Since the materials for the belt 100 and the support 200 and the materials for the belt 100 and the support 200 may vary depending on the formation and use of the conveyor, It is not limited.

The conveyor 10 is spaced apart from the end of the belt 100 by a predetermined distance so that foreign materials generated due to the contact of the protrusion 210 on the bottom surface of the thin film glass g, The contact roller 300 is removed.

The contact roller 300 constitutes a cylinder 310 which raises and lowers the contact roller 300 according to use and the contact roller 300 is disposed on the bottom surface of the thin film glass g by the operation of the cylinder 310. [ Can be brought into contact with each other.

The contact roller 300 is automatically rotated by the thin film glass g which is brought into contact with the bottom surface of the thin film glass g and the contact roller 300 is rotated by the thin film glass g of the thin film glass g And is elongated in the conveying direction and the axial direction.

Between the belt 100 and the contact roller 300 is formed a suction hood 400 for suctioning foreign matter in contact with the bottom surface of the thin film glass g which is mounted on the support 200 and is conveyed. Was used to suck foreign matter that came into contact with the bottom surface of the thin film glass (g) through the suction hood (400) by using air.

This is because the thin film glass g which is constructed between the belt 100 and the contact roller 300 and is transported on the supporting table 200 constituted by the belt 100 is brought into contact with the contact roller 300, So that the foreign substance of the glass g is sucked through the suction hood 400.

An auxiliary roller 500 is disposed on one side of the end of the belt 100. The auxiliary roller 500 is disposed on a side of the thin glassglass g that is conveyed on the support table 200, (g) is prevented from being stuck between the conveyor 10 of the present invention and the conveyor of the next process, and smoothly conveyed.

As described above, the present invention can reduce the area of the belt 100 that contacts the thin film glass g when the thin film glass g is transferred using the conveyor 10, And the suction hood 400 and the contact roller 250 are formed in order to remove foreign substances from the line contacted portion, 300 can be transferred to the thin film glass g while minimizing foreign matter to the thin film glass g so as to minimize the defective rate against the thin film glass g and to eliminate the need for a separate foreign material removing device, And it is an invention that can improve work efficiency and productivity as well.

10: Conveyor
100: Belt
200: support base 210: protrusion 211: inclined surface
300: contact roller 310: cylinder 400: suction hood
g: Thin glass

Claims (7)

In a conveyor (10) for conveying a thin film glass,
The conveyor (10) is provided with a belt (100) rotating by driving the driving body,
A supporting base 200 on which a thin film glass g is mounted is formed on the outer circumference of the belt 100. The supporting base 200 is formed long in the longitudinal direction of the belt 100, And the thin glass g is conveyed while being mounted on the protruding portion 210. The thin film forming apparatus according to claim 1,
The method according to claim 1,
Wherein the support table (200) is made of a viton material which is fluorine rubber.
The method according to claim 1,
The support 200 may be integrally formed with the belt 100 according to the use of the belt 100 or may be formed separately on the outer periphery of the belt 100. [ Glass conveying conveyor The method according to claim 1,
A contact roller 300 for removing foreign matter generated by the contact of the protrusion 210 on the bottom surface of the thin film glass g supported on the support table 200 and spaced from the end of the belt 100 at a predetermined interval, Wherein the thin film conveying conveyor
5. The method of claim 4,
The contact roller (300) is provided with a cylinder (310) for raising and lowering the contact roller (300) according to use.
The method according to claim 1,
Characterized in that a suction hood (400) is provided between the belt (100) and the contact roller (300) for sucking a foreign matter in contact with the bottom surface of the thin film glass (g) Conveying conveyor
The method according to claim 1,
An auxiliary roller 500 is provided on one side of the end of the belt 100 to prevent the thin film glass g from being stuck when the thin glass g transferred on the supporting table 200 is transferred to the next process. Conveyor for thin film glass conveying

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