KR20190012310A - Apparatus for conveying substrate - Google Patents

Abstract

According to an embodiment of the present invention, an apparatus for conveying a substrate includes: a support unit installed on an upper portion of a stage on which the substrate is supported; a first conveying unit supported on the support unit; a connecting unit connected to the first conveying unit; a second conveying unit connected to the connecting unit; and a grasping unit connected to the second conveying unit and grasping the substrate.

Description

[0001] APPARATUS FOR CONVEYING SUBSTRATE [0002]

The present invention relates to a substrate transfer apparatus for transferring a substrate in a vertical direction.

Generally, in a process of manufacturing a liquid crystal display panel, an organic electroluminescent display panel, an inorganic electroluminescent display panel, a transmissive projector substrate, and a reflective projector substrate used for a flat panel display, a process of transferring a brittle glass substrate such as glass .

A substrate transfer apparatus having various structures is used to transfer the substrate in the horizontal and vertical directions. In particular, the apparatus for vertically moving a substrate has a structure for sliding the holding unit holding the substrate, since the substrate must be lifted in a direction opposite to the gravitational direction. A structure for vertically arranging the ball screw and moving the ball nut connected to the grip unit along the ball screw or a structure for moving the rod connected to the grip unit in the vertical direction by hydraulic pressure or pneumatic pressure Etc. can be applied to the substrate transfer apparatus.

In the case of a structure in which the ball screw is disposed vertically and the ball nut connected to the grip unit is moved along the ball screw, the ball screw must be vertically erected so that a predetermined height is required for installing the substrate transfer device.

1 and 2, in the case of the substrate transfer device 20 that moves the rod 26 connected to the grip unit 25 in the vertical direction by using the drive unit 23, A space having a height equal to or higher than the height from the ground to the upper end of the drive unit 23 must be secured in order to install the substrate transfer device 20 because the drive unit 23 accommodating the drive units 23 and 26 has a predetermined height.

On the other hand, a method of vertically arranging a plurality of devices, each of which performs a plurality of steps of processing a substrate, such as a step of processing a substrate and a step of cutting a substrate, is considered. When the plurality of apparatuses are disposed vertically, the area of the work space can be reduced as compared with a case where a plurality of apparatuses are arranged horizontally. When a plurality of devices are arranged vertically, the substrates are transferred to the devices while being moved in the vertical direction. For this purpose, a work space having a height equal to or higher than the height of the substrate transfer apparatus should be secured. However, the height of the work space in the building is fixed, and once the height of the work space is fixed, it is difficult to increase the height of the work space. Therefore, there is a problem that it is difficult to arrange the devices vertically to reduce the area of the work space.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a substrate transfer apparatus capable of reducing a vertical height of a space required for installing a substrate transfer apparatus while ensuring a vertical transfer distance of the substrate .

According to an aspect of the present invention, there is provided a substrate transfer apparatus including: a support unit installed on a stage on which a substrate is supported; A first transfer unit supported by the support unit; A connecting unit connected to the first conveying unit; A second transfer unit connected to the connection unit; And a grip unit connected to the second transfer unit and gripping the substrate.

The second transfer unit may be vertically movably connected to the connection unit.

The first conveying unit may include a first guide supported by the support unit and extending vertically and a first moving member moved along the first guide, the second conveying unit may be supported by the connecting unit, A second guide extending along the second guide, and a second moving member moved along the second guide.

A moving device for vertically moving the second guide may be provided between the connecting unit and the second guide.

The first guide and the second guide are arranged such that the upper end of the second guide is at the same position as the upper end of the first guide in the state in which the first movable member is raised to the highest height and the second movable member is raised to the highest height, As shown in FIG.

The substrate transfer apparatus according to the embodiment of the present invention has a configuration in which the vertically arranged first and second transfer units are operated together so as to vertically transfer the substrate, The maximum height of the apparatus can be reduced as compared with the conventional substrate transfer apparatus. Therefore, since the height of the space required for installing the substrate transfer apparatus can be reduced, the degree of freedom of installation of the substrate transfer apparatus can be increased. In addition, it is possible to easily implement a method of arranging the devices vertically to reduce the area of the work space.

1 and 2 are diagrams schematically showing a substrate transfer apparatus according to the prior art.
3 is a schematic view of a substrate transfer apparatus according to a first embodiment of the present invention.
4 is a view sequentially showing the operation of the substrate transfer apparatus according to the first embodiment of the present invention.
5 is a diagram comparing a substrate transfer apparatus according to a first embodiment of the present invention with a substrate transfer apparatus according to the prior art.
6 is a schematic view of a substrate transfer apparatus according to a second embodiment of the present invention.
7 is a view sequentially showing the operation of the substrate transfer apparatus according to the second embodiment of the present invention.
8 is a diagram comparing a substrate transfer apparatus according to a second embodiment of the present invention with a substrate transfer apparatus according to the prior art.

Hereinafter, a substrate transfer apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

3 to 5, the substrate transfer apparatus 200 according to the first embodiment of the present invention includes a support unit 230 installed on an upper part of a stage 10 on which a substrate S is supported, A first transfer unit 210 supported by the support unit 230, a connection unit 240 connected to the first transfer unit 210, a second transfer unit 220 connected to the connection unit 240, And a grip unit 250 connected to the second transfer unit 220 and gripping the substrate S, as shown in FIG.

The support unit 230 may be configured in the form of a horizontally extending support bar.

The first transfer unit 210 and the second transfer unit 220 may be arranged vertically. The second transfer unit 220 can be connected to the first transfer unit 210 through the connection unit 240.

The first transfer unit 210 may be installed horizontally movably in the support unit 230. That is, the first transfer unit 210 can be moved along the support unit 230. A driving unit 260 for moving the first transfer unit 210 along the support unit 230 may be provided between the first transfer unit 210 and the support unit 230. [ The drive device 260 may be a linear motion mechanism such as an actuator operated by pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a ball screw mechanism.

The first transfer unit 210 serves to vertically move the connection unit 240 and the second transfer unit 220 connected to the connection unit 240 together. The first transfer unit 210 may include a first guide 211 supported by the support unit 230 and extending vertically and a first movable member 212 moved along the first guide 211 . For example, the first conveying unit 210 may be configured such that the first guide 211 is constituted by a cylinder and the first moving member 212 moves along the first guide 211 As shown in Fig. Here, the first moving member 212 may extend vertically long. As another example, the first transfer unit 210 may be configured such that the first guide 211 is constituted by a guide including a ball screw, and the first movable member 212 is connected to the ball screw, And a ball screw mechanism. As another example, the first transfer unit 210 may have a configuration in which the first guide 211 extends vertically, and the first moving member 212 moves the first guide 211 by a power from a predetermined driving source And may be a transport mechanism that moves vertically.

In the drawing, a configuration in which two first transfer units 210 are arranged in the horizontal direction is shown, but the present invention is not limited to the number and arrangement of the first transfer units 210. That is, in consideration of the weight, size, shape, and the like of the object to be vertically conveyed by the first conveyance unit 210 (i.e., the second conveyance unit 220, the grip unit 250, and the substrate S) 1 transfer unit 210 can be appropriately set.

The second transfer unit 220 serves to move the grip unit 250 in the vertical direction. The second transfer unit 220 can be operated in synchronization with and synchronized with the operation of the first transfer unit 210 or can be operated independently of the operation of the first transfer unit 210. [ Further, the second transfer unit 220 can be operated simultaneously with the operation of the first transfer unit 210. [ 4, the first transfer unit 210 is first operated, and then the second transfer unit 220 is operated. However, the present invention is not limited to the first transfer unit 210 And the second transfer unit 220 are not limited. That is, the second transfer unit 220 can be operated prior to the operation of the first transfer unit 210.

The second transfer unit 220 may include a second guide 221 supported by the connection unit 240 and extending vertically and a second movable member 222 moved along the second guide 221 . For example, the second conveying unit 220 may be configured such that the second guide 221 is constituted by a cylinder and the second moving member 222 moves along the second guide 221 As shown in Fig. Here, the second movable member 222 may extend vertically long. As another example, the second transfer unit 210 may be configured such that the second guide 221 is constituted by a guide including a ball screw, and the second movable member 222 is connected to the ball screw, And a ball screw mechanism. As another example, the second conveying unit 220 may have a configuration in which the second guide 221 is vertically extended, and the second moving member 222 moves the second guide 221 by the power from the predetermined driving source And may be a transport mechanism that moves vertically.

In the drawing, a configuration in which one second transfer unit 220 is connected to two first transfer units 210 is shown, but the present invention is not limited to the number and arrangement of the second transfer units 220 . That is, in consideration of the weight, size, shape, etc. of the objects to be vertically conveyed by the second conveyance unit 220 (i.e., the holding unit 250 and the substrate S), the number of the second conveyance units 220 is Can be set appropriately.

In addition, although the embodiment of the present invention shows a configuration including the first transfer unit 210 and the second transfer unit 220, for example, a larger number of transfer units may be arranged vertically, A plurality of transfer units may be connected to each other. The maximum height H2 of the substrate transfer device 200 for raising the gripping unit 250 to the maximum can be set to be the same as that of the prior art As compared with the substrate transfer apparatus 20 according to the first embodiment.

The connection unit 240 may be configured as a block connecting the first transfer unit 210 and the second transfer unit 220.

The first moving member 212 of the first transfer unit 210 may be connected to the connection unit 240. The second guide 221 of the second transfer unit 220 may be connected to the connection unit 240. Thus, when the first transfer unit 210 is operated, the second transfer unit 220 connected to the connection unit 240 can be vertically moved up and down together with the connection unit 240.

The holding unit 250 may have a structure including a clamp for gripping the substrate S while pressing both sides of the substrate S or a structure for sucking one side of the substrate S using a vacuum.

4, when the first conveying unit 210 is operated, the first moving member 212 can be moved up and down along the first guide 211. As shown in FIG. The connecting unit 240 and the second conveying unit 220 can be moved up and down by moving the first moving member 212 up and down.

First, as shown in FIGS. 4A and 4B, when the first moving member 212 of the first transfer unit 210 is lifted along the first guide 211, the connection unit 240 and the second transfer unit (220) rises. Thus, the gripping unit 250 and the substrate S can be raised to a predetermined height. 4B and 4C, when the second transfer unit 220 is operated and the second movable member 222 is lifted along the second guide 221, the gripping unit 250 and the substrate S) can be further increased. 4C, the lifting of the second transfer unit 220 by the operation of the first transfer unit 210 and the upward movement of the grip unit 250 by the operation of the second transfer unit 220 are performed, The substrate S rises by a large increase in width.

Here, the first guide 211 and the second guide 221 are arranged such that the first moving member 212 is lifted to the highest level and the second moving member 222 is lifted to the highest level, May be positioned at the same position as the position of the upper end E1 of the first guide 211 or at a position below the upper end E1 of the first guide 211. [ That is, the first guide 211 and the second guide 221 are arranged such that the upper end E2 of the second guide 221 is positioned at the upper end E1 of the first guide 211 Or at a position below the upper end E1 of the first guide 211. In this case, For this, the length of the second guide 221 may be designed based on the length of the first guide 211. [ Since the upper end E2 of the second guide 221 does not deviate from the height of the upper end E1 of the first guide 211 with the substrate S lifted to the maximum height, The height of the mounting portion 200 may not increase further.

5, when the gripping unit 250 is raised to the uppermost position due to the configuration in which the first transfer unit 210 and the second transfer unit 220 operate together to move the substrate S up and down, The maximum height H2 of the substrate transfer apparatus 200 when the substrate transfer apparatus 200 is raised is lower than the maximum height H1 of the substrate transfer apparatus 20 according to the prior art in which only the rod 26 is raised to the maximum height. That is, assuming that the vertical movement height H of the grip unit 25 according to the related art is equal to the vertical movement height H of the grip unit 250, the maximum of the first transfer unit 210 of the present invention The height H2 is lower than the maximum height H1 of the drive unit 23 according to the prior art.

Therefore, according to the configuration of the present invention, the height of the space required for installing the substrate transfer apparatus 200 can be reduced.

Hereinafter, a substrate transfer apparatus according to a second embodiment of the present invention will be described with reference to FIGS. 6 to 8. FIG. The same reference numerals are given to the same portions as those described in the first embodiment, and a detailed description thereof will be omitted.

6 to 8, according to the substrate transfer apparatus 200 according to the second embodiment of the present invention, the second transfer unit 220 can be vertically movably connected to the connection unit 240 have. To this end, a moving device 270 for vertically moving the second guide 221 may be provided between the connecting unit 240 and the second guide 221. Thus, by moving the second guide 221 vertically, the gripping unit 250 can be moved vertically with respect to the connecting unit 240. [

The mobile device 270 may be a linear motion mechanism such as an actuator operated by pneumatic or hydraulic pressure, a linear motor actuated by electromagnetic interactions, or a ball screw mechanism.

Meanwhile, the process in which the second transfer unit 220 is moved up and down by the moving device 270 can be performed simultaneously with or simultaneously with the operation of the first mobile unit 210. 7 shows a process in which the first transfer unit 210 is first operated and the second transfer unit 220 is operated and then the transfer device 270 is operated, Is not limited to the operation sequence of the first transfer unit 210, the second transfer unit 220 and the transfer device 270. [ That is, the first transfer unit 210, the second transfer unit 220 and the transfer device 270 can be operated simultaneously, or the transfer device 270 can be operated by the first transfer unit 210 or the second transfer unit 220 May be operated in advance of the operation of the motor. The first transfer unit 210, the second transfer unit 220 and the transfer device 270 can be operated synchronously and interlockingly with each other or can be operated independently of each other.

The height of the gripping unit 250 can be more accurately and freely adjusted since the second transferring unit 220 can be moved up and down with respect to the connecting unit 240 as shown in Figs. In addition, since the second transfer unit 220 can be moved up and down with respect to the connection unit 240, the vertical movement height H of the grip unit 250 can be further increased.

7A and 7B, when the first moving member 212 of the first transfer unit 210 is lifted along the first guide 211, the connection unit 240 and The second transfer unit 220 is moved up. Thus, the gripping unit 250 and the substrate S can be raised to a predetermined height. 7B and 7C, when the second transfer unit 220 is operated and the second movable member 222 is lifted along the second guide 221, the gripping unit 250 and the substrate S) can be further increased. 7C and 7D, when the moving device 270 is operated to raise the second transfer unit 220, the holding unit 250 and the substrate S can be further elevated. 7D, the rise of the gripping unit 250 by the operation of the first transferring unit 210, the second transferring unit 220, and the moving device 270 causes the substrate S It will rise with a large increase.

The first guide 211 and the second guide 221 are positioned at the same height as the first moving member 212 and the second moving member 222 are lifted up to the maximum height, The upper end E2 of the second guide 221 is positioned at the same position as the position of the upper end E1 of the first guide 211 or at a position below the upper end E1 of the first guide 211 . The upper end E2 of the second guide 221 does not deviate from the height of the upper end E1 of the first guide 211 while the substrate S is lifted to the maximum height, The installation height may not increase further.

8, due to the configuration in which the first transfer unit 210, the second transfer unit 220 and the transfer device 270 operate together to move the substrate S up and down, the grip unit 250 (H1) of the substrate transfer apparatus 20 according to the related art in which the maximum height H2 of the substrate transfer apparatus 200 when the substrate transfer apparatus 200 ascends to the uppermost position is raised to the maximum height only by the rod 26 It becomes low. That is, assuming that the vertical movement height H of the grip unit 25 according to the related art is equal to the vertical movement height H of the grip unit 250, the maximum of the first transfer unit 210 of the present invention The height H2 is lower than the maximum height H1 of the drive unit 23 according to the prior art.

Therefore, according to the configuration of the present invention, the height of the space required for installing the substrate transfer apparatus 200 can be reduced.

The substrate transfer apparatus 200 according to an embodiment of the present invention configured as described above includes first and second transfer units 210 and 220 vertically arranged to move the substrate S vertically The maximum height H2 of the substrate transfer apparatus 200 for maximally raising the gripping unit 250 can be reduced as compared with the substrate transfer apparatus 20 according to the related art. Therefore, since the height of the space required for mounting the substrate transfer apparatus 200 can be reduced, the degree of freedom of installing the substrate transfer apparatus 200 can be increased. In addition, it is possible to easily implement a method of arranging the devices vertically to reduce the area of the work space.

Although the preferred embodiments of the present invention have been described by way of example, the scope of the present invention is not limited to these specific embodiments, and can be appropriately changed within the scope of the claims.

10: stage 200: substrate transfer device
210: first transfer unit 220: second transfer unit
230: support unit 240: connection unit
250: gripping unit 270: moving device

Claims (5)

A support unit installed on an upper portion of a stage on which a substrate is supported;
A first transfer unit supported by the support unit;
A connection unit connected to the first transfer unit;
A second transfer unit connected to the connection unit; And
And a gripping unit connected to the second transfer unit and gripping the substrate. The method according to claim 1,
And the second transfer unit is movably connected to the connection unit. The method according to claim 1,
The first transfer unit includes a first guide supported by the support unit and extending vertically and a first movable member moved along the first guide,
Wherein the second transfer unit comprises a second guide supported by the connection unit and extending vertically, and a second movable member moved along the second guide. The method of claim 3,
And a moving device for vertically moving the second guide is provided between the connection unit and the second guide. The method of claim 3,
Wherein the first guide and the second guide are configured such that the upper end of the second guide is positioned at the upper end of the first guide and the lower end of the second guide when the first moving member is raised to the highest height, Is positioned at the same position or at a position below the upper end of the first guide.

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