KR20130104549A - Clamp assembly used for fixing glass - Google Patents

Abstract

PURPOSE: A clamp assembly used for fixing glass is provided to prevent the generation of particles by combining each magnetic with a magnetic holder and a magnetic block. CONSTITUTION: A magnetic block (110) consists of a hinge combination part (111) positioned in a front part, and a magnetic accommodating part (112) positioned in a back part. The hinge combination part is arranged on the lower combination groove part (150) of a transfer frame (170). A hinge block (120) is hinge-combined with the hinge combination part of the magnetic block by a shaft. A magnetic holder (130) is combined with the lower back part of the hinge block. The magnetic holder has a second magnetic accommodating part (131) touching the magnetic accommodating part of the magnetic block. A clamp head (140) is combined with the upper front part of the hinge block.

Description

Clamp Assembly Used for Fixing Glass

The present invention relates to a glass clamp assembly for the glass to be fixed or released by the magnetic force on the glass transfer frame, and more particularly, the magnetic is fixed to the hinge block for restoring the clamp assembly after the impact of the cylinder roll The present invention relates to a glass assembly clamp assembly capable of eliminating particles inherently by receiving magnetic coupling to a holder and a magnetic block corresponding to the position and a magnetic block corresponding to the position.

The LCD substrate refers to a substrate in which liquid crystals are arranged between two glass substrates (hereinafter, referred to as glass). In many processes of the manufacturing process of the LCD substrate, the glass 1 is transported in a fixed state to the transfer frame 2. For example, the sputtering process of depositing a metal thin film on the glass 1 flows into the sputtering chamber in a state in which the glass 1 is particularly standing up with the glass 1 being fixed to the transfer frame 2.

1 is a view showing a conventional glass transfer frame, Figure 2 is a view showing a conventional clamp device.

Referring to the drawings, the transfer frame 2 has fastening grooves 12 which are formed at regular intervals so that the glass 1 is fixed, and is formed as a support frame on the outer side, and is installed in various places of the support frame on the fastening groove 12 side. The clamp device 3 is used to fix the glass 1 to the transfer frame 2.

Wherein the clamp 3 is composed of a frame connecting base 10, the rotating rod 20, the compression link unit 30, the compression coil spring (40).

Looking at the principle of fixing and releasing the glass of the clamp (3), when the glass (1) approaches the transfer frame (2), the rotary bar portion 20 by the external force in the vertical direction about the hollow rotating shaft (14) As a result, the horizontal portion 22 pulls the compression link portion 30 so that the elastic force is stored in the compression coil spring 40.

Then, when the glass 1 is placed under the gripper 23, the external force is removed according to the setting, and the compression link part 30 moves to the rear part by the elastic force of the compression coil spring 40, and the rotating rod part ( 20 is rotated back to the right position so that the gripper 23 grabs the upper portion of the glass (1).

In the conventional clamp device, as the compression coil spring 40 is adopted as the restoring force recovery means, particles are generated due to their structural characteristics. This causes repetitive friction between the compression coil spring 40 and the frame connecting base 10 or the front end 32 of the compression link portion, and the occurrence of the metal powder constituting the compression coil spring 40 is generated by the friction. Cause occurrence.

This particle generation causes a decrease in yield in the LCD manufacturing process, there is a risk of deterioration when the transported glass is exposed to the particles.

In addition, the clamp device may hinder the precise operation of the clamp device because the hinge rotation angle is finely twisted for a long time, and the restoring force is relatively high when restoring by the restoring force of the compression coil spring 40, so that the contact between the gripper 23 and the glass A certain amount of impact is generated.

Since the impact amount has a problem that may cause the glass to break, it is urgent to improve the glass assembly clamp assembly that can mitigate the particle generation and the impact amount.

The present invention has been made to solve the above problems, as a means of rotating and restoring the clamp assembly according to the blow and release of the cylinder roll to generate the particles by adopting the magnetic force of the magnetic away from the conventional coil spring method having a structural limit of particle generation It can completely reduce the yield decrease and the glass deterioration risk caused by particle generation, and the N and S poles are divided equally into each pair of magnets that give the manpower to ensure the magnetic position is correct even for long-term use. The shock absorbing part or the buffer member having heterogeneous magnetism on the lower side of the first magnetic body is coupled to reduce the amount of impact during the restoration process using manpower, thereby improving the durability of the clamp assembly and restoring the clamp head and the glass. Reduce the amount of impact between the glass breakage It is an object of the present invention to provide a glass assembly clamp assembly that can be prevented.

The present invention has the following features to achieve the above object.

The present invention is a plurality of each is arranged into a fastening groove formed at a predetermined interval spaced in the transport frame for transporting the glass for LCD (glass) in the LCD manufacturing process, the glass is coupled to the seating block coupled to the transport frame in front of the fastening groove In the clamp assembly having a support surface that is located on the mounting block to prevent the shaking of the glass when it is seated, the clamp assembly is a hinge coupling portion located in the front portion is disposed on the lower side of the fastening groove of the transfer frame, A magnetic block located in the rear part and having a magnetic accommodating part in which a magnetic is inserted into the inner side and engaging with a lower side of the transfer frame; A hinge block which is received through the fastening groove part and is hinged by a hinge coupling part and a shaft of the magnetic block, and a cylinder roll impact part is formed at a lower end thereof so as to rotate upward by a predetermined angle according to the impact of the outer cylinder roll; A magnetic holder coupled to a lower rear portion of the hinge block and having a second magnetic accommodating portion in contact with the magnetic accommodating portion of the magnetic block; The hinge block is coupled to the upper front side of the hinge block and includes a clamp head formed on the upper side to guide and fix the glass disposed on the transfer frame, so that the hinge block rotates at an angle when the outer cylinder roll is hit. When the outer cylinder roll is released, it is made to be restored to the original position before the cylinder roll hit by the attraction force between the magnetic block and the magnetic holder contained in the magnetic block. The first magnetic and the second magnetic are accommodated, and the first magnetic and the second magnetic are equally divided into the north pole and the south pole so as to have different polarities.

Here, the magnetic receiving portion of the magnetic block is formed with a coupling surface extending protruding in the horizontal plane on the upper portion is a fixed coupling between the coupling surface and the bottom surface of the transfer frame, the magnetic receiving portion and the second magnetic receiving portion The first magnetic and the second magnetic to be inserted are formed in a cylindrical shape, the N pole and the S pole sections of the first magnetic and the second magnetic are formed to face different polarities when facing each other, the first magnetic On the lower side of the magnetic, a buffer magnetic part is formed which is partitioned and arranged in a different polarity than the upper portion of the predetermined portion.

In addition, the first magnetic has a hollow front and rear opening, the inside of the hollow is a cushioning means for cushioning the contact shock when the second magnetic contact with the first magnetic by the attraction force, the buffer means is A buffer body that is partially accommodated in the hollow of the magnetic, and the buffer spring disposed in the hollow of the first magnetic and the elastic spring between the buffer and the inner wall surface of one side of the magnetic receiving portion of the magnetic block.

In addition, the clamp head is made of a coupling body having a support surface formed in a front direction on a horizontal plane on the upper side, and a coupling recess portion perpendicular to the support surface and corresponding to the coupling protrusion of the hinge block on the rear side. The central portion of the coupling body is formed with a screw hole to be fixed through the hinge block and the coupling member.

According to the present invention, as the clamp is restored in a magnetic manner, particles that can be generated indefinitely due to continuous repetition of conventional coil springs can be removed.

Accordingly, there is an effect of maximizing the production efficiency by preventing a decrease in production efficiency due to particle generation and a decrease in production efficiency due to glass defects.

In addition, through the magnetic restoring means according to the present invention is much more durable than the existing coil spring can increase the life of the clamp assembly, the high difficulty of the operation to adjust the elastic modulus in the coil spring method, Decomposition elements are reduced even after long-term use, so the decomposition is easy and the cleaning operation is much simpler.

In addition, the N and S poles are divided equally into each of the pair of magnetic magnets to attract the magnetic force, so that the magnetics are coupled to the correct position even after long-term use. The shock absorbing means may reduce the amount of impact in the restoration process using manpower, thereby improving the durability of the clamp assembly and reducing the amount of impact between the clamp head and the glass during restoration, thereby preventing breakage of the glass.

1 is a view showing a conventional glass transfer frame.
2 is a view showing a conventional clamp device.
3 is a view showing a clamp assembly according to the present invention.
4 is a view showing a horizontal cross section of the magnetic block according to the present invention.
5 is a view showing a coupling of the hinge block and the clamp head according to the present invention.
6 and 7 are views showing the state before and after the cylinder roll pressurization of the clamp assembly according to the present invention, respectively.
8 is a view showing a magnetic partition of the first magnetic and the second magnetic in accordance with the present invention.
9 is a view showing a clamp assembly to which the shock absorbing means according to the present invention is applied.
10 is a front view of the first magnetic coupled to the shock absorbing means.

Hereinafter, with reference to the accompanying drawings for the present invention will be described in detail.

3 is a view showing a clamp assembly according to the present invention, Figure 4 is a view showing a horizontal cross-section of the magnetic block according to the present invention, Figure 5 is a view showing a coupling of the hinge block and the clamp head according to the present invention. .

Referring to the drawings, the clamp assembly 200 according to the present invention is largely composed of a magnetic block 110, a hinge block 120, a magnetic holder 130, a clamp head 140.

The greatest feature of the clamp assembly 200 according to the present invention is that the original spring-based restoring means can not remove the source of the particles by the original, the magnetic block 110 and the magnetic holder 130 of different polarities, respectively. When the magnetic pressure is released from the cylinder roll 191 by accommodating the magnetic 190, it is to be restored to the correct position by the magnetic force between the magnetic 190.

That is, as the hinge block 120 rotates or reverse rotates due to such magnetic force, the support surface 141 of the clamp head 140 fixes or releases the glass, thereby inevitably occurring due to friction between the coil spring and the body. The missing particles are removed.

Looking at the components of the clamp assembly 200 according to the present invention in detail, first, the magnetic block 110 is composed of a hinge coupling portion 111 located in the front portion and the magnetic receiving portion 112 located in the rear portion. The hinge coupling portion 111 is disposed at the lower side of the fastening groove 150 of the transfer frame 170 to be hinged by the hinge block 120 and the shaft 180 which will be described later.

In addition, the magnetic accommodating part 112 is inserted into the inside of the magnetic 190 and is formed to be coupled to the lower side of the transfer frame 170, the magnetic accommodating part 112 for coupling with the transfer frame 170. Coupling surfaces 112a are formed on both sides of the upper surface to protrude outwards, and the coupling surfaces 112a are fixed to each other between the coupling surfaces 112a and the bottom of the transfer frame.

Here, the coupling member is a bolt, screw or screw as a variety of fixing means, the coupling surface may be formed in the hole processing for coupling with the transfer frame through such a coupling member.

On the other hand, the hinge block 120 is accommodated through the fastening groove 150 is hinged by the hinge coupling portion 111 and the shaft of the magnetic block 110 and the cylinder to provide a blow surface to hit the cylinder roll on the lower end Roll impact portion 121 is formed is configured to rotate in an upward direction at a predetermined angle in accordance with the impact of the outer cylinder roll 191.

Therefore, the hinge block 120 is spaced apart downwardly from the transport frame 170 by a predetermined interval so that the hinge block 120 can rotate sufficiently without interfering with the transport frame 170. Preferably, the hinge block 120 is in the range of 25 ° to 35 °. Maintain the separation distance so that it can rotate.

The magnetic holder 130 is coupled to the lower rear portion of the hinge block 120 and has a second magnetic accommodating part 131 in contact with the magnetic accommodating part 112 of the magnetic block 110.

Here, the magnetic accommodating part 112 and the second magnetic accommodating part 131 are formed to accommodate the magnetic 190 so as to face the N pole or the S pole, respectively, so that the magnetic attraction force can act on each other. It is preferable that the front side side of the magnetic receiving portion 112 and the rear side side magnetic 190 of the second magnetic receiving portion 131 be exposed to the magnetic force.

The magnetic 190 accommodated in the magnetic accommodating part 112 and the second magnetic accommodating part 131 are the first magnetic 190a and the second magnetic 190b having different polarities, respectively, The magnetic 190a and the second magnetic 190b are formed not only have one polarity different from each other, but have both N and S poles divided equally.

The equal division of the N pole and the S pole serves to make contact with the correct position without minute twisting when contacting by the attraction force between the first magnetic 190a and the second magnetic 190b.

Of course, the second magnetic (190b) and the first magnetic (190a) is of course made so that the polarity facing each other when arranged so that the attraction force to each other is a heterogeneous polarity.

In addition, when the hinge block 120 and the magnetic block 110 is in contact with each other through the attraction between the first magnetic 190a and the second magnetic 190b to reduce the contact impact by reducing the recovery speed In the example, the buffer part 192 of the opposite polarity different from the upper side is partitioned at the lower side of the 1st magnetic 190a equally divided into the N pole and the S pole, respectively.

When the cushioning roll 192 is hit by the cylinder roll, the distance between the first magnetic and the second magnetic is far from the magnetic force, but when the release of the cylinder roll is restored by the heterogeneous inter-polar attraction of the upper side. In the process, the gap will be narrowed gradually and the repulsive force will act on the lower side of the opposing second magnetic.

Since the repulsive force is a smaller force than the attractive force on the upper side, the first magnetic 190a and the second magnetic 190b eventually come into contact with each other, but the contact speed is reduced by the attractive force.

This decrease in contact speed also reduces the amount of impact between the first magnetic 190a and the second magnetic 190b and also reduces the amount of impact generated during contact between the clamp head 140 and the glass.

Meanwhile, the clamp head 140 is coupled to the upper front side of the hinge block 120 and a support surface 141 for guiding and fixing the glass disposed on the transfer frame 170 is formed on the upper side. The clamp head 140 has a support surface 141 which is formed in the front direction on a horizontal plane on the upper side, and is perpendicular to the support surface 141 and is in shape with the engaging protrusion 122 of the hinge block 120 on the rear side. It consists of a coupling body 142 having a coupling recess 142a to correspond.

The support surface 141 is preferably formed of a buffer material such as plastic so as to support the glass fixedly to mitigate the glass impact when friction with the glass.

At this time, the plastic used in the manufacturing process environment of the LCD substrate is often the temperature of the chamber reaches 150 ℃, it should be adopted as a material having heat resistance to withstand it.

In addition, a screw hole 142b is formed at the central portion of the coupling body 142 to be fixedly coupled to the hinge block 120 through the coupling member.

Hereinafter will be described in detail the operation of the clamp assembly 200 according to an embodiment of the present invention.

6 and 7 are views showing the state before and after the pressurization of the cylinder roll of the clamp assembly according to the present invention, Figure 8 is a view showing a magnetic section of the first magnetic and the second magnetic in accordance with the present invention.

Referring to the drawings, first, when the cylinder roll 191 pushes the cylinder roll impact portion 121 of the hinge block 120 upward in order to carry out the fixing glass, the hinge block 120 has a predetermined angle shaft 180. Rotate clockwise around.

Accordingly, the support surface of the clamp head 140 which is fixedly coupled to the hinge block 120 is also rotated together, so that the support surface 141 located at the upper end of the previous glass is removed so that the glass can be carried out.

When the glass is carried out, the cylinder roll 191 is transported downward to release the pressure and the magnetic holder 130 to the magnetic block 110 by the magnetic force between the magnetic holder 130 and the magnetic block 110. The hinge block 120 coupled with the magnetic holder 130 is returned to its original position before the cylinder roll 191 is pressed.

Accordingly, the support surface 141 of the clamp head 140 fixedly coupled to the hinge block 120 is located at the upper end of the glass again to fix and support the glass and prevent rocking.

Of course, the release of the cylinder roll 191 is performed after carrying out and carrying out of the glass.

In addition, the glass is seated on the seating block 160 on the transfer frame 170 located in the front of the clamp assembly 200, the material of the seating block 160 is also made of a material having a cushioning force, such as the support surface 141 It would be desirable to form.

9 is a view showing a clamp assembly to which the shock absorbing means according to the present invention is applied, and FIG. 10 is a front view of the first magnetic to which the shock absorbing means is coupled.

Referring to the drawings, the buffer means according to the present embodiment is provided to reduce the contact speed due to the attraction force of the first magnetic and the second magnetic, like the above-described buffer portion 192 of the lower side of the first magnetic 190a.

The shock absorbing means is disposed in the opened hollow of the first magnetic 190a. The shock absorbing member 193 is partially accommodated in the hollow of the first magnetic 190a and the hollow of the first magnetic 190a. It consists of a buffer spring (194) for elastically connecting between the buffer 193 and the inner wall surface of one side of the magnetic receiving portion 112 of the magnetic block (110).

The buffer 193 partially protrudes out of the first magnetic 190a to first contact the second magnetic 190b when the second magnetic 190b approaches to contact the first magnetic 190a. It is completely received into the magnetic 190a.

Accordingly, the contact speed of the second magnetic 190b is lowered. When the protruding portion of the first magnetic 190a of the buffer 193 is too long, the contact speed is too low or the first magnetic 190a and the second Since the magnetic 190b may not come into contact, an appropriate protrusion length should be adopted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to those precise embodiments, and many alternatives, modifications, and variations will be apparent to those skilled in the art. I will understand.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

110: magnetic block 111: hinge coupling portion
112: magnetic receiving portion 112a: coupling surface
120: hinge block 121: cylinder roll impact portion
122: engaging protrusion 130: magnetic holder
131: second magnetic accommodation portion 140: clamp head
141: support surface 142: coupling body
142a: coupling groove 142b: screw hole
150: fastening groove 160: seating block
170: transfer frame 180: shaft
190: magnetic 190a: first magnetic
190b: 2nd magnetic 191: cylinder roll
192: buffer unit 193: buffer
194: buffer spring 200: clamp assembly

Claims (6)

In the LCD manufacturing process, a plurality of each is disposed in a fastening groove formed at a predetermined interval on a transport frame for transporting glass for LCD, and when the glass is seated on a mounting block coupled to the transport frame in front of the fastening groove. In the clamp assembly having a support surface located on the seating block to prevent the glass from shaking,
The clamp assembly is
A magnetic block having a hinge coupling part positioned at the front part and disposed at a lower side of the fastening groove part of the transfer frame, and having a magnetic accommodating part located at the rear part and having a magnetic insert inserted therein;
A hinge block which is received through the fastening groove part and is hinged by a hinge coupling part and a shaft of the magnetic block, and a cylinder roll impact part is formed at a lower end thereof so as to rotate upward by a predetermined angle according to the impact of the outer cylinder roll;
A magnetic holder coupled to a lower rear portion of the hinge block and having a second magnetic accommodating portion in contact with the magnetic accommodating portion of the magnetic block;
The hinge block is coupled to the upper front side of the hinge block and includes a clamp head formed on the upper side to guide and fix the glass disposed on the transfer frame, so that the hinge block rotates at an angle when the outer cylinder roll is hit. When the outer cylinder roll is released, it is made to be restored to the original position before the cylinder roll hit by the attraction force between the magnetic block and the magnetic accommodated in the magnetic holder.
The first magnetic and the second magnetic are accommodated in the magnetic accommodating portion of the magnetic block and the second magnetic accommodating portion of the magnetic holder, respectively, and the first magnetic and the second magnetic are divided into N poles and S poles so as to have different polarities, respectively. Glass assembly clamp assembly characterized in that the compartment.
The method of claim 1,
The magnetic accommodating part of the magnetic block
Glass assembly clamp assembly characterized in that the fixing surface is formed through the coupling member is formed between the coupling surface and the bottom surface of the transfer frame is formed to protrude in the horizontal plane on the top.
The method of claim 1,
The first and second magnetic inserts inserted into the magnetic accommodating portion and the second magnetic accommodating portion have a glass clamp assembly, characterized in that formed in a cylindrical shape.
The method of claim 3, wherein
N-pole and S-pole sections of the first magnetic and the second magnetic are formed so as to face different polarities when they face each other, the lower side of the first magnetic is arranged partitioned with a different polarity than the upper portion of the predetermined portion Glass assembly clamp assembly characterized in that the buffer magnetic portion is formed.
The method of claim 3, wherein
The first magnetic has a hollow front and rear opening and the inside of the hollow is a buffer means for cushioning the contact impact when the second magnetic contact the first magnetic by the attraction force,
The buffer means is a buffer spring that is partially received in the hollow of the first magnetic, the buffer spring disposed in the hollow of the first magnetic and the elastic spring between the buffer and the inner wall surface of one side of the magnetic receiving portion of the magnetic block elastically Glass assembly clamp assembly, characterized in that consisting of.
The method of claim 1,
The clamp head is composed of a coupling body having a support surface formed in the front direction on a horizontal surface on the upper side, and a coupling recess portion orthogonal to the support surface and corresponding to the coupling protrusion of the hinge block on the rear side. Glass assembly clamp assembly characterized in that the screw hole is formed in the central portion of the body to be fixedly coupled through the hinge block and the coupling member.

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