KR20060062600A - Cantilever panel carrier - Google Patents

Abstract

The present invention relates to a panel conveying apparatus of a panel inspection apparatus, and in particular, a clamping carrier which can be automatically moved according to the size of a panel to be inspected comprises two cantilever beams, and a pair of carrier moving means for moving each cantilever beam. The present invention relates to a cantilever panel conveying apparatus which can simplify the structure of the apparatus and greatly reduce the cost.

A constituent means of the cantilever panel conveying apparatus of the present invention is a panel conveying apparatus for conveying a panel to be inspected between a subtable and a worktable of a liquid crystal panel inspecting apparatus, the predetermined means for driving between the subtable and the worktable. A moving body, a pair of carrier moving means provided on the upper surface of the moving body, a moving block capable of reciprocating in the longitudinal direction of the moving body by the carrier moving means, and one end of the moving block coupled to the carrier moving A grip member movable by means, the two cantilever clamp carriers facing in parallel to each other and a panel to be coupled and coupled to the two cantilever clamp carriers, respectively, and movable along the longitudinal direction of the cantilever clamp carrier. Characterized in that the made up.

Panel inspection device, conveying device, work table, sub table

Description

Cantilever Panel Feeder {CANTILEVER PANEL CARRIER}

1 is an overall perspective view showing a general panel inspection apparatus.

Figure 2 is a plan view of the conventional panel conveying apparatus shown in FIG.

Figure 3 is an overall configuration of the present invention cantilever panel transfer device.

4 is an exploded perspective view of a carrier moving means and a moving block which are components of the present invention.

Figure 5 is a block diagram of a cantilever clamp carrier coupled to the rib (rib) that is a component of the present invention.

Figure 6 is a block diagram of a grip means connected to the free end side of the cantilever clamp carrier which is a component of the present invention.

7 is an exemplary view showing various forms of a holder which is a component of the present invention.

8 is a block diagram of a grip means installed to be movable along the longitudinal direction of the upper surface of the cantilever clamp carrier which is a component of the present invention and a moving means for transferring the grip means.

9 is an exploded view of the grip means and the moving means of FIG. 8.

The present invention relates to a panel conveying apparatus of a panel inspection apparatus, and in particular, a clamping carrier which can be automatically moved according to the size of a panel to be inspected comprises two cantilever beams, and a pair of carrier moving means for moving each cantilever beam. The present invention relates to a cantilever panel conveying apparatus which can simplify the structure of the apparatus and greatly reduce the cost.

In general, the liquid crystal panel inspecting apparatus performs a lighting test using a probe unit for line disconnection inspection and color inspection of a line of a liquid crystal panel, and visual inspection using a microscope.

The liquid crystal panel inspection apparatus as shown in FIG. 1 is parallel to the inspection apparatus main body 100, the liquid crystal panel supply unit 10 formed on one side of the inspection apparatus main body 100, and the liquid crystal panel supply unit 10. It consists of an inspection unit 30 having a horizontal structure and a panel transfer device 40 for receiving and loading the liquid crystal panel from the liquid crystal panel supply unit 10 to the inspection unit 30.

Here, as shown in FIG. 2, the panel conveying apparatus 40 of the conventional panel inspecting apparatus is provided with at least one conveying apparatus main body 41 and at least one side end of the conveying apparatus main body 41. 10) and the guide rail 42 disposed in a plurality of stages while being disposed at a predetermined interval in the longitudinal direction of the liquid crystal panel 48 over the inspection unit 30 and spaced apart from each other along the guide rail 42. Square moving members 43 are installed to move horizontally, and formed on the upper and lower sides of the respective rectangular moving members 43, and move along each of the guide rails 42 to move each square moving member 43. A plurality of conveying members 44 for horizontal movement and the conveying body 44 connected to any one of the upper and lower sides of the rectangular moving member 43, the plurality of conveying members 44 to move the drive 44 to move It consists of two drive means (not shown).

In addition, two pairs of guides 45 which are symmetrically formed on one side of the rectangular moving member 43 and a pair of movable blocks movably installed in a vertically symmetrical form along the guide 45 are provided. (46), drive means (not shown) for driving the respective moving blocks 46, and grip means (47) provided at an inner end side of the moving block (46) to fix the liquid crystal panel (48). It consists of Here, the grip means 47 is fixed to the inner end side of the moving block 46 is installed.

As shown in an enlarged portion of FIG. 2, the grip means 47 includes a driving means 47c, such as an air cylinder, provided in the moving block 46, and a moving shaft 47b that is moved by the driving means. The gripper 47a is connected to the moving shaft 47b to grip the liquid crystal panel 48. Therefore, in order to grip the liquid crystal panel 48, the gripper 47a connected to the moving shaft 47b must be moved by driving the driving means 47c.

In order to drive each of the moving blocks 46, a pair of driving means (not shown) connected to both ends of each of the moving blocks 46 are synchronously driven. The moving block 46 may be moved to a position where the panel to be inspected can be clamped by synchronously driving the pair of driving means.

Meanwhile, the liquid crystal panel supply unit 10 is provided with a sub table (denoted by reference numeral 20 in FIG. 1) for waiting the supplied liquid crystal panel 48, and the liquid crystal panel (waiting for the sub table 20) ( 48 is configured to be loaded into the inspection unit 30 by the transfer device 40, and is unloaded from the inspection table again by the transfer device 40, and configured to return to the liquid crystal panel supply unit 10. The moving block 46 is moved to a position where the panel to be inspected can be clamped by a driving means (not shown), and then moved forward and backward in a symmetrical direction by the air cylinder 47c to move the gripper 47a. ) Is configured to grip by fitting the liquid crystal panel.

In the state configured as described above, the operator rests the liquid crystal panel to be inspected on the subtable 20 of the liquid crystal panel supply unit 10 and then presses the operation switch. The control unit generates a control signal by the operation switch, and the air cylinder is operated by the control signal to mount the liquid crystal panel seated on the subtable 20 of the liquid crystal panel supply unit 10 to the square moving member 43. Stand by to the supply position.

As described above, when the liquid crystal panel 48 seated on the subtable 20 of the liquid crystal panel supply unit 10 is in a standby state, the size and type of the liquid crystal panel 48 supplied to the subtable 20 may be changed. Information about the information is transmitted to a controller (not shown). Then, the moving block 46 is moved to a position corresponding to the size and type of the liquid crystal panel 48 according to a control signal of a controller (not shown).

In addition, the gripper 47a is moved forward and backward in a vertically symmetrical form by a moving means 47c such as an air cylinder, and the upper and lower sides are gripped by the gripper 47a.

Thereafter, when the grip state of the liquid crystal panel 48 is confirmed by a sensor provided on one side of the grip means 47, the subtable 20 moves backward to stand by the initial state by the operation of the air cylinder, and the inspection unit ( The inspection table of 30) is also advanced to wait in the initial state of inspection.

According to the panel transfer device 40 of the conventional liquid crystal panel inspection apparatus described above, a pair of moving blocks 46 are present on the rectangular moving member 43, and the pair of moving blocks 46 is moved. In order to provide two pairs of driving means (not shown), there is a problem in that the structure of the equipment is complicated and the cost for manufacturing the equipment is increased.

In addition, another driving means 47c for moving the gripper 47a to grip the liquid crystal panel 48 is provided, thereby increasing the consumption of driving power for driving the driving means and increasing the weight of the device. There are disadvantages.

In addition, when the driving means 47c is configured as an air cylinder, a separate line and a sensor for supplying air must be provided, which results in complicated equipment and cumbersome control. The same air must be supplied to the air cylinders driving the respective grippers 47a. If the same air is not supplied, the liquid crystal panel 48 cannot be gripped accurately.

In addition, since the respective moving blocks 46 are moved by synchronously driving the driving means (not shown) connected to both ends of the moving block 46, the output of the pair of motors included in the pair of driving means If different from each other, there is a problem that the position difference occurs at both ends of the moving block 46 to move the moving block moving along the guides on both sides, the device may not only malfunction, but also the entire transfer device is destroyed This happens.

The present invention devised to solve the problems of the prior art as described above is to provide a cantilever panel conveying device with a simple overall structure by configuring a clamping carrier moved according to the size of the panel in a pair of cantilever.

It is also an object of the present invention to provide a cantilever panel conveying apparatus which has a pair of carrier moving means for moving the pair of clamping carriers, thereby simplifying the layout of the constituent means and reducing cost and driving power.

In addition, it is an object of the present invention to provide a cantilever panel transport apparatus that can prevent the damage of the panel generated when the panel is moved in the vertical direction due to the malfunction of the liquid crystal panel supply unit by configuring the shape of the holder in various ways.

The constituent means of the cantilever panel conveying apparatus of the present invention proposed to solve the above technical problem is a predetermined driving means in a panel conveying apparatus for conveying the inspected panel between the work table and the subtable of the liquid crystal panel inspecting apparatus. A movable body moving between the subtable and the work table by a pair, a pair of carrier moving means provided on an upper surface of the movable body, a moving block capable of reciprocating in the longitudinal direction of the movable body by the carrier moving means, and Grip means for clamping a panel to be transported by one end coupled to the moving block and moved by the carrier moving means, at least two cantilever clamp carriers facing each other in parallel, and at least two or more coupled to the two cantilever clamp carriers. Characterized in that consisting of.

The carrier moving means may include a pair of guide rails installed in the longitudinal direction of the movable body, a ball screw provided between the guide rails, and a motor for driving the ball screws. The guide coupling member sliding in engagement with the guide rail, characterized in that it comprises a nut coupling coupled to the ball screw.

In addition, a rib may be further provided on an upper surface of the cantilever clamp carrier to which the movable block and the movable block block are coupled, and the rib may have a thickness and width from the other end of the cantilever clamp carrier to the movable block. It is desirable to increase this.

In addition, the movable block is composed of an upper movable block coupled to the cantilever clamp carrier and a lower movable block coupled to the lower of the upper movable block, the upper movable block is characterized in that the fine rotation is coupled on the lower movable block. It is done.

Further, each of the upper moving block and the lower moving block is formed with one rotating hole and two fine adjusting holes corresponding to a vertical line, the rotating bolt is coupled to the rotating hole, and the fine adjusting bolt is coupled to the fine adjusting hole. It is characterized by.

In addition, the two fine adjustment holes are formed with a screw thread to be screwed with the fine adjustment bolt, characterized in that it has a long curved shape so that the fine adjustment bolt can be moved.

In addition, it is preferable that at least two or more correction pins are further provided on the upper movable block side. Therefore, the level of the cantilever clamp carrier coupled to the upper moving block can be corrected.

The grip means may include a first grip means installed to be fixed to a free end side of the cantilever clamp carrier, and a groove formed in a longitudinal direction on one side surface of the cantilever clamp carrier so as to be spaced inwardly by a predetermined distance from the first grip means. It characterized in that it comprises a second grip means which is installed to be movable manually.

In addition, the grip means is a first grip means that is installed to be fixed to the free end side of the cantilever clamp carrier, and can be automatically moved along the longitudinal direction on one side surface of the cantilever clamp carrier so as to be spaced apart a predetermined distance from the first grip means. And a second grip means installed.

In addition, the grip means is a first grip means which is installed to be movable manually along a groove formed in the longitudinal direction on the free end side of the cantilever clamp carrier, and the cantilever clamp carrier of the cantilever clamp carrier so as to be spaced in the predetermined interval inward It characterized in that it comprises a second grip means which is installed to be movable automatically or manually along the longitudinal direction on one side.

In addition, the tension holding unit is characterized in that it comprises a pair of coupling bars for coupling the grip base and the support, and a spring is provided on the outer peripheral surface of the coupling bar to maintain the tension of the support relative to the grip base.

In addition, a pair of grooves are further formed on the upper surface of the other end of the cantilever clamp carrier in the longitudinal direction, and the grip base is fixed to the inner groove among the pair of grooves, or the inner groove and the bolt are coupled to allow manual movement. It is characterized by.

In addition, first and second sensing target bars extending to the center portion of the cantilever clamp carrier are further provided at both sides of the support, and the cantilever clamp carrier detects whether the panel is clamped through the first sensing target bar. The presence or absence of a sensor, and the panel damage prevention sensor for detecting whether excessive force is applied to the panel through the second sensing object bar.

In addition, the panel damage prevention sensor is characterized in that it is installed in the outer groove of the pair of grooves formed in the longitudinal direction on the upper surface of the cantilever clamp carrier.

Further, in order to automatically move the grip means coupled to one end of the cantilever clamp carrier, a pair of L / M guides are installed in the longitudinal direction of the cantilever clamp carrier, and a screw shaft between the pair of L / M guides, A motor for driving the screw shaft is installed, and the grip base lower surface is provided with a nut coupled to the screw shaft and a guide assembly engaged with the L / M guide.

In addition, the holder is characterized in that the contact portion formed in one end contacting the panel is in the shape of grooves or teeth (b), it is preferable that the rubber is further provided in the contact portion.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and preferred embodiment of the present invention cantilever panel transfer device consisting of the above configuration means as described above.

3 is a block diagram showing a cantilever panel conveying apparatus 200 for transferring a panel under test between a subtable and a work table of the liquid crystal panel inspecting apparatus.

As shown in FIG. 3, the cantilever panel conveying apparatus 200 of the present invention includes a movable body 210 that travels between the subtable and the worktable along a rail 211 by a predetermined driving means (not shown), Carrier moving means 220 provided on the upper surface of the moving body 210, a moving block 230 moved by the carrier moving means 220, and a pair of cantilever clamps connected to one end of the moving block 230 And a carrier 240 and grip means 250 and 260 fixedly coupled to a predetermined portion of the cantilever clamping carrier or installed to be movable automatically or manually.

The movable body 210 has a rectangular plate-like structure, and both ends thereof are installed to be moved along a rail 211 elongated between the work table and the sub table. The movable body 210 moving along the rail 211 may reciprocate between the subtable and the worktable by a predetermined driving means (not shown). The prescribed moving means (not shown) and the rail 211 are operated with a structure similar to that of a conventional panel transfer device.

In addition, a pair of carrier moving means 220 capable of moving the pair of cantilever clamp carriers 240 is provided on the upper surface of the movable body 210. The carrier moving means 220 is provided symmetrically on the upper surface of the movable body 210 to move the two cantilever clamp carrier 240.

In addition, the moving block 230 is coupled to the pair of carrier moving means 220. One end of the cantilever clamp carrier 240 is coupled to the movable block 230.

Accordingly, the moving block 230 may reciprocate in the longitudinal direction of the movable body 210 by the carrier moving means 220, and the cantilever clamping carrier coupled to the movable block 230 is also the movable body ( 210 may be reciprocated in the longitudinal direction.

4 illustrates a coupling structure of the moving block 230 and the carrier moving means 220. Hereinafter, since the pair of moving blocks 230 and the carrier moving means 220 coupled to the cantilever clamp carrier 240 each have the same structure and operation, the combined movement with one cantilever clamp carrier 240 is performed. Only the block 230 and the carrier moving means 220 will be described.

As shown in FIG. 4, the carrier moving means 220 includes a pair of guide rails 221 installed side by side in the longitudinal direction of the movable body 210 and a ball screw provided between the guide rails 221. 223 and a servomotor 225 for driving the ball screw 223. In addition, the moving block 230 which is moved in the longitudinal direction of the movable body 210 by the carrier moving means 220 is a guide coupling member 231 sliding in engagement with the guide rail 221, and the ball screw ( 223 is configured to include a nut coupling member 233 is threaded to be coupled to interlock.

In the structure as described above, in order to move the pair of cantilever clamp carrier 240 corresponding to the panel size, the ball screw 223 is rotated by driving the servo motor 225. Then, the nut coupling 233 is interlocked with the ball screw 223 so that the moving block 230 can be moved along the guide rail 221.

That is, when the moving block 230 is moved along the guide rails 221 as described above, the pair of cantilever clamp carriers 240 coupled to one end of the moving block 230 to clamping points corresponding to the panel size. Can be moved.

In addition, the pair of cantilever clamp carrier 240, as shown in Figure 3, one end is coupled to each of the pair of moving blocks 230 to be provided so as to face in parallel to each other.

Meanwhile, as shown in FIG. 3 or 4, the movable block 230 is an upper movable block 230a connected to the cantilever clamp carrier 240 and a lower movable block coupled to a lower portion of the upper movable block 230a. 230b. And the upper moving block 230a is coupled to enable a fine rotation on the lower moving block (230b). As described above, since the upper movable block 230a coupled to the lower movable block 230b can be finely rotated, various kinds of panels supplied can be supported.

Here, in order to allow the upper movable block 230a coupled to the cantilever clamp carrier 240 to be micro-rotated on the lower movable block 230b, the upper movable block 230a and the lower movable block 230b, respectively. The rotating holes 233a and 233b and two fine adjusting holes 232a and 232b corresponding to the vertical lines are formed, and the rotating bolts 234 are coupled to the rotating holes 233a and 233b, and the fine adjustment is performed. The fine adjustment bolt 235 is coupled to the holes 232a and 232b.

That is, the lower movable block 230b is provided with two rotary holes 233b and fine adjustment holes 232b, and the lower movable block 230a is also coupled to the upper movable block 230a on the lower movable block 230b. The rotation hole 233a and the fine adjustment hole 232a are formed at positions corresponding to the rotation hole 233b and the fine adjustment hole 232b formed on the 230b.

Then, the rotating bolts 234 are coupled to the rotating holes 233a and 233b formed on the upper moving block 230a and the lower moving block 230b, and fine adjustment bolts are formed in the fine adjusting holes 232a and 232b. 235).

Accordingly, the two fine adjustment holes 232a and 232b have a screw thread formed to be screwed with the fine adjustment bolt 235 and have a long curved shape so that the fine adjustment bolt 235 can be moved. .

In the structure as described above, after releasing the tightening force of the fine adjustment bolt 235 coupled to the fine adjustment holes (232a, 232b) and the rotating bolt 234 coupled to the rotation holes (233a, 233b), the cantilever clamp carrier When the 240 is rotated by a predetermined angle, the upper movement block 230a coupled to the end of the cantilever clamp carrier 240 is rotated about the rotation bolt 234 and has a long curved fine adjustment hole ( 232a and 232b slide along the fine adjustment bolt 235.

After the cantilever clamp carrier 240 is rotated at a desired angle, a fine adjustment bolt is formed in the fine adjustment hole 232a of the upper movement block 230a and the fine adjustment hole 232b of the lower movement block 230b. The theta (θ) axis setting of the cantilever clamp carrier 240 is completed by firmly fixing 235.

By setting the theta (θ) axis of the cantilever clamp carrier 240 configured as described above, the panel may correspond to panels of various shapes and may correspond to panels supplied at various angles.

On the other hand, as shown in Figure 3 and 4, it is preferable that at least two or more correction pins 236 are further provided on the side of the upper block 230a. The cantilever clamp carrier 240 coupled to the upper moving block 230a may not be able to maintain a complete level due to an error occurring in the manufacturing process. In this case, an error such as horizontality of the cantilever clamp carrier 240 coupled to the upper moving block 230a may be corrected using the correction pin 236.

Meanwhile, as shown in FIG. 5, ribs 270 (rib) are preferably provided on the movable block 230 and the upper surface of the cantilever clamp carrier 240 having one end coupled to the movable block 230. Do. By further providing ribs 270 as described above, the cantilever clamp carrier 240 and the movable block 230 are more firmly coupled to each other, and the movable block 230 of the cantilever clamp carrier 240 is coupled. The stress received at the fixed end can be distributed.

Here, when the inspection panel is clamped to the grip means (250, 260) installed in the cantilever clamp carrier 240, as the moving block 230 toward the fixed side rather than the free end side of the cantilever clamp carrier 240 The stress due to the load of the panel is increased.

Accordingly, the rib 270 may increase in thickness and width from the other end of the cantilever clamp carrier 240 toward the moving block 230.

Meanwhile, the two cantilever clamp carriers 240 are coupled with grip means for clamping the panel to be transferred. Grip means 250 and 260 coupled to the two cantilever clamp carriers 240 are installed to face each other to clamp the panel to be transferred.

At least two grip means 250 and 260 coupled to the cantilever clamp carrier 240 to clamp the panel to be transported as described above are fixedly or movably installed to each of the cantilever clamp carrier 240. . That is, the grip means 250 and 260 are provided so that at least one grip means can move in the longitudinal direction of the cantilever clamp carrier 240 so as to correspond to the size of the panel to be transferred.

As illustrated in FIG. 5, the grip means 250 and 260 in the present invention are provided with two cantilever clamp carriers 240 so as to simplify the structure of the panel conveying apparatus 200.

The grip means 250 and 260 are installed on the cantilever clamp carrier 240 to be fixed or movable. Therefore, the grip means 250 installed at the free end side of the cantilever clamp carrier 240 is spaced apart from the first grip means 250 and the first grip means 250 on one side of the cantilever clamp carrier 240. When the grip means 260 installed at a predetermined position is referred to as the second grip means 260, it may be installed as follows.

That is, the first grip means 250 is installed to be fixed to the free end side of the cantilever clamp carrier 240, and the second grip means 260 is longitudinally formed on one side of the cantilever clamp carrier 240. It may be installed to be movable manually along the groove 241 formed.

In addition, the first grip means 250 is installed to be fixed to the free end side of the cantilever clamp carrier 240, the second grip means 260 along the longitudinal direction on one side of the cantilever clamp carrier 240 It can be installed to move automatically.

In addition, the first grip means 250 is installed to be finely moved manually along the groove formed in the longitudinal direction on the free end of the cantilever clamp carrier 240, and the second grip means 260 is the cantilever clamp carrier. One side of the 240 may be installed to be moved automatically or manually along the longitudinal direction.

5 shows that the first grip means 250 is fixed, and the second grip means 260 shows the grip means 250, 260 which are installed to be manually movable. As shown in FIG. 5, the second grip means 260 may be manually moved along a groove 241 elongated on the cantilever clamp carrier 240, so that the second grip means 260 may be moved in a predetermined direction corresponding to the panel size to be transferred. It is preferably fixed by bolts 265 after they are moved.

If the first grip means 250, which is installed at the free end side of the cantilever clamp carrier 240, is also movably installed manually, as shown in FIG. 6, the first grip means 250 may be mounted on the cantilever clamp. After moving to a predetermined position on one side of the carrier 240 may be fixed by tightening the bolt (251a).

A coupling structure of the first grip means 250 coupled to the free end side of the cantilever clamp carrier 240 to be fixed to the cantilever clamp carrier 240 or to be manually moved is shown in FIG. 6.

As illustrated in FIG. 6, a pair of grooves 241 and 242 are formed on the upper surface of the cantilever clamp carrier 240 in parallel with each other in the longitudinal direction. And the grip means 250 is installed in the groove 241 (hereinafter referred to as "inner groove 241") close to the panel side clamped in the pair of grooves (241, 242), the bolt 251a A grip base 251 fixed by tightening, a support 255 coupled to the grip base 251 by a pair of tension holding units 253, and a bottom surface of the support 255. It comprises a holder 257 is made.

And, as shown in Figure 6, the tension holding unit 253 is a pair of coupling bar 253 "for coupling the grip base 251 and the support 255, and the coupling bar 253" It is composed of a spring 253 'is installed on the outer peripheral surface of the.

By providing a tension holding unit 253 between the grip base 251 and the support 255 as described above, when the panel is clamped to the holder 257, the panel absorbs the force applied to the panel to protect the panel. can do.

The holder 257 for clamping the panel is provided with contact portions 257a and 257b having a specific shape at one end in contact with the panel. The contact portions 257a and 257b have a groove shape as shown in FIG. 7A or a needle-shaped shape as shown in FIG. 7B. In addition, when the panel is clamped to the contact portions 257a and 257b, as shown in FIGS. 7C and 7D, a rubber 257c to prevent the panel from being scratched or damaged. It is preferable that is provided.

In particular, since the shape of the holder is formed by the needle (b), when the panel is supplied to the panel transfer device by the liquid crystal panel supply unit, the shape of the holder when the panel is moved in the vertical direction due to the malfunction of the liquid crystal panel supply unit It is possible to solve the problem that the panel is damaged by.

Meanwhile, a sensor for detecting whether a panel is clamped to a holder 257 of the first grip means 250 in a predetermined portion of the cantilever clamp carrier 240 to which the first grip means 250 which can be manually moved is coupled. And, it is preferable that a sensor for detecting whether the force applied to the panel is excessive by the over (over) driving of the cantilever clamp carrier 240 is further provided.

In order to provide the sensor as described above, first and second sensing target bars 258 and 259 extending to the center portion of the cantilever clamp carrier 240 are shown at both sides of the support 255 as shown in FIG. 6. It is further provided. The panel presence sensor 245 detects whether the panel is clamped through the first sensing target bar 258 and the panel through the second sensing target bar 259 on the cantilever clamp carrier 240. The panel damage prevention sensor 247 for detecting whether excessive force is applied is further provided.

On the other hand, the panel damage prevention sensor 247 for detecting whether excessive force is applied to the panel through the second detection target bar 259 is a pair of grooves 241 formed in the longitudinal direction on the upper surface of the cantilever clamp carrier 240. In the 242, the outer groove 242 is installed to be movable and is screwed and fixed.

In the above structure, when the panel is clamped to the holder 257 in accordance with the movement of the cantilever clamp carrier 240, the support 255 is moved back while maintaining the elasticity by the tension holding unit 253. Then, the first sensing target bar 258 is also moved back and forth and sensed by the panel presence sensor 245, so that the controller (not shown) recognizes that the panel is clamped.

By the way, when the cantilever clamp carrier 240 is over-driven and excessive force is exerted on the panel, the support 255 is retracted by a tension holding unit 253 while being retracted for a predetermined time or more. . Then, the second sensing target bar 259 is also moved back and forth at the same time and detected by the panel damage prevention sensor 247, so that the controller (not shown) recognizes that excessive force is applied to the panel.

On the other hand, the two grip means (250, 260) coupled to each of the cantilever clamp carrier 240, as shown in Figure 8 or 9, the first end coupled to the free end side of the cantilever clamp carrier 240 The grip means 250 is fixedly installed, and the second grip means 260 movably installed to be positioned at a predetermined position on one side of the cantilever clamp carrier 240 may be installed to be automatically moved.

Since the second grip means 260 is installed to be movable to a predetermined position of the cantilever clamp carrier 240, even if the size of the panel to be transferred is changed, it can be quickly responded.

8 is a perspective view showing grip means 250, 260 coupled to cantilever clamp carrier 240. As shown in FIG. 8, the first grip means 250 coupled to the free end side of the cantilever clamp carrier 240 is fixed to a predetermined position on the cantilever clamp carrier 240 by tightening a screw bolt 251a. The second grip means 260, which is spaced apart from the first grip means 250 by a predetermined distance, and is movably installed to be positioned at a predetermined position on one side of the cantilever clamp carrier 240, is automatically moved by the moving means 280. The structure can be moved to. In addition, the panel presence sensor 245 and the panel damage prevention sensor 247 are provided around the cantilever clamp carrier 240 to which the first grip means 250 is coupled.

9 shows a component of the moving means 280 which is provided for automatically moving the second grip means 260 coupled to one end of the cantilever clamp carrier 240.

As shown in FIG. 9, a pair of L / M guides 281 are installed in the longitudinal direction of the cantilever clamp carrier 240, and between the screw shaft 283 and the pair of L / M guides 281. A motor 285 for driving the screw shaft 283 is installed. In addition, a lower surface of the grip base 251 that is automatically moved is provided with a nut 263 that is screwed with the screw shaft 283, and a guide assembly 261 engaged with the L / M guide 281. .

In the above structure, when the screw shaft 283 is rotated by driving the motor 285, the nut 263 which is screwed with the screw shaft 283 is interlocked so that the grip base 251 is the L / M guide. Sliding along 281 is moved. Therefore, since the second grip means 260 can be automatically moved in correspondence with the size of the panel to be transported, the panel edge portion can be fixed quickly and firmly in correspondence with panels of various sizes.

On the other hand, since the second grip means 260 that is automatically moved has the same structure as the first grip means 250 (the first grip means 250 that is manually moved), the description of the structure is omitted. In addition, since the shape of the holder 257 is also as above-mentioned with reference to FIG. 7, description is abbreviate | omitted.

Hereinafter, the overall operation of gripping and transferring the panel to be transferred according to the operation of the constituent means of the cantilever panel transfer apparatus described above will be described.

First, the grip means 250 and 260 are set according to the size of the panel to be transferred. That is, to set the grip means 250 and 260 to a position for safely clamping the edge portion of the panel to be transported, the first grip means 250 provided at the free end side of the cantilever clamp carrier 240 is fixed, Manually moving the second grip means 260 provided at one end of the cantilever clamp carrier 240 and setting by the bolt 265 or the position of the second grip means 260 by the moving means 280. Is set automatically. In addition, the cantilever clamp carrier 240 may be set by a bolt after manually moving the first grip means 250 provided at the free end side.

When the setting of the grip means 250 and 260 is completed according to the size of the panel to be transferred as described above, the supplied panel is received and transferred from the subtable to the worktable of the liquid crystal panel inspection unit.

That is, when information about the size and type of the liquid crystal panel supplied to the subtable is sent to the controller (not shown), the controller (not shown) sends a control signal to the carrier moving means 220. According to the control signal, the carrier moving means 220 quickly moves the cantilever clamp carrier 240 to a position corresponding to the size and type of the liquid crystal panel.

When the cantilever clamp carrier 240 is moved to a predetermined position where the liquid crystal panel can be gripped, the controller (not shown) reduces driving of the carrier moving means 220, thereby allowing the cantilever clamp carrier 240. The liquid crystal panel may be safely clamped by grip means 250 and 260 coupled to the liquid crystal panel.

At this time, the panel presence sensor 245 detects whether the liquid crystal panel is normally clamped by the grip means 250 and 260, and transmits it to the controller (not shown). If an excessive force is applied to the liquid crystal panel clamped to the grip means 250 or 260 as the carrier moving means 220 is driven more than necessary according to a control signal of a controller (not shown), the panel damage prevention sensor Detected by 247 is delivered to the control unit (not shown). Then, the controller (not shown) stops driving of the carrier moving means 220 or retracts the cantilever clamp carrier 240 according to a control signal, and then clamps the liquid crystal panel again.

After clamping the liquid crystal panel normally according to the above operation, the liquid crystal panel is transferred to the inspection unit by moving the carrier by a predetermined driving means.

According to the cantilever panel conveying apparatus 200 of the present invention having the above-described configuration and operation and a preferred embodiment, the structure of the panel conveying apparatus 200 is constructed by configuring the clamping carrier which is moved according to the size of the panel to be inspected by the cantilever. This has the effect of simplifying and reducing costs.

In addition, by using only two carrier moving means 220 used to drive the clamping carrier, there is an effect of reducing the cost and power consumption.

In addition, the present invention has the advantage that the manufacturing cost is reduced by reducing the size and weight of the components because the panel is transported using the cantilever clamp carrier.

In addition, since the holder for clamping the panel to be transported is not operated by the driving means, the device configuration is simple and there is an advantage of reducing power consumption.

In addition, the grip means can be automatically moved to be positioned at a predetermined position on the cantilever clamp carrier, there is an advantage that can be quickly and correspondingly clamped for panels having various sizes.

In addition, the upper movable block coupled to the end of the cantilever clamp carrier enables fine rotation on the lower movable block so that theta (θ) axis setting of the cantilever clamp carrier is possible. Therefore, there is an effect that can correspond to the panel of various shapes and can correspond to the panel supplied at various angles.                     

In addition, when the panel is supplied to the panel conveying device by the liquid crystal panel supply unit, the shape of the holder is formed by the needle (b), and when the panel is overmoved in the vertical direction due to a malfunction of the liquid crystal panel supply unit, This can solve the problem that the panel is broken.

Claims (19)

In the panel feeder for transferring the inspected panel between the subtable and the worktable of the liquid crystal panel inspecting device, A moving body which moves between the subtable and the worktable by a predetermined driving means; A pair of carrier moving means provided on an upper surface of the movable body; A moving block capable of reciprocating in the longitudinal direction of the movable body by the carrier moving means; Two cantilever clamp carriers, one end of which is coupled to the movable block and moved by the carrier moving means, which face each other in parallel; Cantilever panel transport apparatus comprising a grip means for clamping the panel to be transported at least two are respectively coupled to the two cantilever clamp carrier. The method according to claim 1, Each carrier moving means includes a pair of guide rails installed in the longitudinal direction of the movable body, a ball screw provided between the guide rails, and a motor for driving the ball screws. The moving block is a cantilever panel conveying apparatus comprising a guide coupling member sliding in engagement with the guide rail, and a nut coupling coupled to the ball screw. The method according to claim 1, A cantilever panel transport device, characterized in that a rib is further provided on an upper surface of the cantilever clamp carrier to which the movable block and the movable block block end are coupled. The method according to claim 3, The rib cantilever panel carrier, characterized in that the thickness and width increases as the moving block from the other end of the cantilever clamp carrier. The method according to claim 1, The movable block is composed of an upper movable block coupled to the cantilever clamp carrier and a lower movable block coupled to a lower portion of the upper movable block, wherein the upper movable block is coupled to enable fine rotation on the lower movable block. Cantilever panel feeder. The method according to claim 5, Each of the upper moving block and the lower moving block has one rotating hole and two fine adjusting holes formed on a vertical line, the rotating bolt is coupled to the rotating hole, and the fine adjusting bolt is coupled to the fine adjusting hole. Cantilever panel feeder characterized by. The method according to claim 6, The two fine adjustment holes cantilever the screw and the fine adjustment bolt is formed, the cantilever panel transfer device, characterized in that it has a long bent shape so that the fine adjustment bolt can be moved. The method according to claim 5, Cantilever panel transport apparatus, characterized in that at least two or more correction pins are further provided on the upper movable block side. The method according to claim 1, The grip means includes a first grip means installed to be fixed to a free end side of the cantilever clamp carrier, and a groove formed in a longitudinal direction on one side surface of the cantilever clamp carrier so as to be spaced apart from the first grip means by a fixed end side. A cantilever panel conveying apparatus comprising a second grip means installed to be movable manually. The method according to claim 1, The grip means may be automatically moved in a longitudinal direction on one side of the cantilever clamp carrier so as to be spaced apart from the first end of the cantilever clamp carrier free end and the first grip means by a predetermined interval fixed end side. Cantilever panel transport apparatus comprising a second grip means that is installed to make. The method according to claim 1, The grip means may include a first grip means which is manually movable along a groove formed in a longitudinal direction on the free end side of the cantilever clamp carrier, and one of the cantilever clamp carrier so as to be spaced apart from the fixed end side by a predetermined distance to the first grip means. Cantilever panel transport apparatus comprising a second grip means which is installed to be movable automatically or manually along the longitudinal direction on the side. The method according to any one of claims 9 to 11, The grip means includes a grip base movably coupled to the cantilever clamp carrier, a support coupled to the grip base by a pair of tension holding units, and a holder coupled to a lower surface of the support. Cantilever panel feeder. The method according to claim 12, The tension holding unit cantilever panel transfer comprising a pair of coupling bars for coupling the grip base and the support, and a spring installed on the outer circumferential surface of the coupling bar to maintain the tension of the support relative to the grip base. Device. The method according to claim 13, A cantilever panel is further formed on the upper surface of the cantilever clamp carrier, and a pair of grooves are formed in the longitudinal direction, and the grip base is fixed to the inner groove of the pair of grooves or can be manually moved along the inner groove. Conveying device. The method according to claim 14, Both sides of the support are further provided with a first and second sensing target bar extending to the center portion of the cantilever clamp carrier, The cantilever clamp carrier further includes a panel presence sensor for detecting whether the panel is clamped through the first sensing target bar, and a panel damage prevention sensor for sensing whether excessive force is applied to the panel through the second sensing target bar. Cantilever panel feeder, characterized in that the. The method according to claim 15, The panel damage prevention sensor is a cantilever panel conveying apparatus, characterized in that is installed in the outer groove of the pair of grooves formed in the longitudinal direction on the upper surface of the cantilever clamp carrier. The method according to claim 10 or 11, In order to automatically move the grip means installed to be movable in the longitudinal direction of one side of the cantilever clamp carrier, A pair of L / M guides are installed in the longitudinal direction of the cantilever clamp carrier, and a screw shaft and a motor for driving the screw shaft are installed between the pair of L / M guides. The cantilever panel transport apparatus, characterized in that the lower surface of the grip base is provided with a nut coupled to the screw shaft and a guide assembly engaged with the L / M guide. The method according to claim 12, The holder is a cantilever panel conveying apparatus, characterized in that the contact portion formed in one end contacting the panel is in the shape of grooves or teeth (b) shape. The method according to claim 18, The cantilever panel transport device, characterized in that the rubber portion (rubber) is further provided on the contact portion.

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