KR100958273B1 - Loading-Hand - Google Patents

Abstract

The loading hand of the present invention and the support member 20 is installed on both sides of the LM rail 10 at a predetermined interval; A guide plate (100) connected to the support member (20), a plurality of LM guides (30) are installed on a rear surface thereof, and a plurality of cam grooves (102) formed on a front surface thereof; A plurality of picker modules (200) installed to be movable along the cam groove (102) formed in the guide plate (100) to pick and place semiconductor elements; One side thereof is connected to an upper side of the picker module 200, and a connecting member 250 connecting the picker module 200 and the cam groove 102 of the guide plate 100; A head part 300 connected to the picker module 200 and having a plurality of air ports 294 formed therein; It is composed of a driving unit 400 for transferring the guide plate 100 to a predetermined position.

Handler, loading hand, width adjustment

Description

Loading hand {Loading-Hand}

The present invention relates to a loading hand, and more particularly to a loading hand for loading a semiconductor device into a test tray.

Conventionally, the handler loads the semiconductor elements contained in the customer tray of the loading unit in a test tray using an element carrier, and then returns the test tray to a test site to perform a test. Then, the semiconductor device of the test tray is again stored in the customer tray of the unloading unit for each test result by using the device carrier.

Since the pitch between the semiconductor devices arranged in the customer tray is different from the pitch between the semiconductor devices arranged in the test tray, the device conveying device absorbs the semiconductor devices in order to transfer and mount the semiconductor devices of the customer trays to the test tray. The interval between pickers should be variable. That is, in the device conveying apparatus, the distance between each picker should be varied with the pitch between the semiconductor elements of the customer tray and the pitch between the semiconductor elements of the test tray.

On the other hand, by adjusting the picker spacing without using a link is installed in the camshaft or cam plate in which a plurality of cam grooves are inclined in Korea Patent Publication No. 10-0248704, a portion of each picker in each cam groove of the cam shaft or cam plate Background Art Device spacing devices (loading hands) of semiconductor device inspectors coupled to be movable relative to each other are known.

In the device gap adjusting device, when the end of the picker is positioned at one end of the cam shaft or the cam groove of the cam plate, the interval between the pickers is minimized, and the end of the picker is rotated by the rotary cylinder or the pneumatic cylinder or the cam plate is linearly moved. When moving to the other end of the cam groove, the picker interval is maximized, the pitch between the pickers is made in two stages.

However, the conventional device spacing device of the above-described configuration is effective in adjusting the camshaft or cam plate to the semiconductor device when the type or size of the semiconductor device to be tested is changed because the distance between the pickers is made in only two steps. It has the disadvantage of replacing it with one.

In addition, the conventional device gap adjusting device also includes a problem in that it is impossible to adjust the spacing of the Y-axis, and only the spacing of the X-axis is adjusted.

The present invention has been made in view of the problems of the prior art, the object of which is to modularize the structure of the loading hand and to move the loading hand in the XY direction at once, the loading hand that can easily adjust the distance between the X axis and Y axis In providing.

Support members 20 which are installed at both sides of the LM rail 10 at predetermined intervals of the present invention; A guide plate 100 connected to the support member 20, on which a plurality of LM guides 30 are installed, and a plurality of cam grooves 102 formed on the front surface thereof; A plurality of picker modules 200 installed to move along the cam grooves 102 formed in the guide plate 100 and pick and place semiconductor elements; One side thereof is connected to an upper side of the picker module 200, and a connecting member 250 connecting the picker module 200 and the cam groove 102 of the guide plate 100; A head part 300 connected to the picker module 200 and having a plurality of air ports 294 formed therein; It is composed of a drive unit 400 for transferring the guide plate 100 to a predetermined position.

The loading hand of the present invention is simpler in construction than the conventional loading hand, and the adjustable pitch can be adjusted in the X-Y direction at a time, thereby making it easy to work.

In addition, since the loading hand of the present invention is configured to release the head and the picker module by one touch, there is an advantage in that the replacement operation due to the failure of the loading hand is easy.

(Example)

An embodiment of the loading hand of the present invention will be described with reference to the accompanying drawings.

As shown in Figs. 1 and 2, the loading hand of the present invention includes a support member 20 having LM rails 10 installed at predetermined intervals on both sides thereof; A guide plate 100 connected to the support member 20, on which a plurality of LM guides 30 are installed, and a plurality of cam grooves 102 formed on the front surface thereof; A plurality of picker modules 200 installed to move along the cam grooves 102 formed in the guide plate 100 and pick and place semiconductor elements; One side thereof is connected to an upper side of the picker module 200, and a connecting member 250 connecting the picker module 200 and the cam groove 102 of the guide plate 100; A head part 300 connected to the picker module 200 and having a plurality of air ports 294 formed therein; It consists of a drive unit 400 for transferring the guide plate 100 to a predetermined position.

The support member 20 is connected to the bracket 40 of the robot (not shown) at its rear side, and the front side of the support member 20 is installed at both sides at predetermined intervals. In addition, a guide plate 100 having a plurality of LM guides 30 is installed in front of the support member 20, and the LM guide 30 of the guide plate 100 is an LM of the support member 20. Interconnected with the rail 10 is movable in a predetermined direction.

The head portion 300 is installed above the picker module 200, and the upper portion of the head portion 300 is connected to the cam groove 102 (see FIG. 2) of the guide plate 100 by the connecting member 250. Connected. The head unit 300 and the picker module 200 may be configured to be width-adjustable in the X direction while moving according to the operation of the driving unit 400 along the cam groove 102 of the guide plate 100. An auxiliary support member 254 is installed at one side of the upper portion of the head part 300, and a plurality of air ports 256 are installed at the auxiliary support member 254. In addition, the head part 300 is provided with a plurality of airports 294 therein.

The driving unit 400 is fixed to one side of the fixing plate 410 and consists of a cylinder 412 having a rod 414 and a driving motor (not shown). In addition, the rod 414 is connected to each other by the connecting plate 422 and the connecting member 420 installed on the upper side of the guide plate 100.

On the other hand, the picker module 200 is installed on the bracket 202, the inside of the bracket 202, a plurality of cylinders 230 to be fitted to the guide shaft 220 and connected to the cylinder 230, respectively The picker 240 and the connection portion 232 of the cylinder 230 and the plurality of ports 234 and 204 respectively formed on the inside of the bracket 202 are formed, and the width of the cylinders fitted to the guide shaft can be adjusted.

The bracket 202 has a rectangular shape and is divided into two small squares. In addition, a one-touch coupling part 260 is formed at an upper portion of the bracket 202, and a plurality of air through holes 262 are formed in the one-touch coupling part 260, and these are formed by sealing means (not shown). Is sealed. In addition, an O-ring member seating portion 261 is formed around the air through hole 262 in the circumferential direction, and the O-ring member seating portion 261 has an O-ring member (2) to ensure sealing. 263 is installed.

When the head unit 300 is found to have an abnormality in the picker module 200 or when the picker 240 is to be replaced, the head unit 300 does not replace the entire loading hand, but simply releases the picker module 260 by simply releasing the picker module 260. The 200 and the picker 240 can be replaced.

Meanwhile, a plurality of guide shafts 220 are installed inside the bracket 202, and a plurality of cylinders 230 are fitted to the guide shaft 220. A plurality of pickers 240 are installed below the cylinder 230, a connection portion 232 is formed on the upper portion of the cylinder 230, and a plurality of ports 234 are formed on the connection portion 232. The plurality of ports 234 of the connection unit 232 are connected to the port 204 formed at the lower portion of the one-touch coupling unit 260 is configured to supply air.

Since the cylinders 230 are connected by the guide shaft 220, the width of the cylinder 230 may be adjusted according to a control signal of a controller (not shown). That is, by the sensor 244 installed in the fixing part 255 respectively installed on one side of the cylinder 230, it is possible to adjust the interval in the Y-axis direction therebetween. Here, the cylinder 230 can accurately adjust the interval in the Y-axis direction in the picker module 200.

A Y frame 500 is installed in a direction perpendicular to the guide plate 100, and a picker 240 is a pick and place of an electronic component (not shown) on one side of the Y frame 500. Vision camera 510 is installed to check whether the operation is correct.

Referring to the operation relationship of the embodiment of the loading hand of the present invention configured as described above are as follows.

1 and 2, the head portion 300 connected to the picker module 200 in which the plurality of pickers 240 is installed is set at the upper end of the cam groove 102 of the guide plate 100. The pickers 240 may be spaced apart from each other.

When the motor (not shown) is driven by the controller of the handler while the loading hand moves, the cylinder 412 of the driving unit 400 operates. When the rod 414 of the cylinder 412 pushes the guide plate 100, the LM guide 30 of the guide plate 100 moves downward along the LM rail 10 of the support member 20. do. That is, the head unit 300 connected to the picker module 200 moves while adjusting the width in the X direction along the trajectory of the cam groove 102 of the guide plate 100. At this time, the cylinder 230 of the picker module 200 also controls the Y-axis width at predetermined intervals by the sensor 244 when the control signal is input by the controller of the handler.

As such, the picker 240 may move along the cam groove 102 of the guide plate 100 to adjust the X-axis width, and the Y-axis of the picker 240 may be controlled by the cylinder 230 of the picker module 200. The width can be adjusted at the same time.

When the head portion 300 is located at the set position A2 of the lower end of the cam groove 102 of the guide plate 100, the maximum limit of width control in the X-axis direction is reached. In the state in which the X and Y axis widths of the picker 240 are adjusted, the loading hand moves the semiconductor element adsorbed on the picker 240 to a test tray (not shown) to be mounted.

As described above, when the loading hand moves from the test tray position to the customer tray position, when the operation of the driving unit 400 is reversed, the guide plate 100 moves along the cam groove 102 while raising and lowering from the A2 position to the A1 position. Therefore, the head unit 300 and the picker module 200 are retracted.

On the other hand, when the type of picker 240 is replaced or if there is an abnormality in the picker 240, the entire element transfer device (loading hand) has to be replaced conventionally, but in the present invention, the head unit 300 and the picker module ( 200 may be separated as shown in FIG. 2. That is, since the one-touch coupling unit 260 can be separated, the picker 240 can be easily replaced or processed for abnormality.

Therefore, the loading hand of the present invention can adjust the width in the X-axis direction while descending along the cam groove 102 of the guide plate 100, the Y-axis while moving the plurality of cylinders 230 along the guide shaft 220 The width of the direction can be adjusted. Thus, the loading hand of the present invention can adjust the width in the X-axis and Y-axis direction at a time.

The loading hand of the present invention can be applied to the field of semiconductor equipment that can pick and place electronic components and test handlers that can quickly and electrically test electronic components.

1 is a perspective view showing a loading hand of the present invention,

Figure 2 is a perspective view showing a state in which the picker module is a main portion of the loading hand of the present invention separated.

Explanation of symbols on the main parts of the drawings

100: guide plate 200: picker module

220: guide shaft 240: picker

250: connecting member 260: one-touch coupling portion

300: head portion 400: drive portion

Claims (6)

A support member 20 on which both sides of the LM rail 10 are installed at predetermined intervals; A guide plate (100) connected to the support member (20), a plurality of LM guides (30) are installed on a rear surface thereof, and a plurality of cam grooves (102) formed on a front surface thereof; A plurality of picker modules (200) installed to be movable along the cam groove (102) formed in the guide plate (100) to pick and place semiconductor elements; A connection member 250 whose one side is connected to an upper side of the picker module 200 and the picker module 200 and the head part 300 is connected to the cam groove 102 of the guide plate 100; A head part 300 connected to the picker module 200 by a one-touch coupling part 260 in a sealable manner, and having a plurality of air ports 294 formed therein; A driving unit 400 for transferring the guide plate 100 to an upward and downward position; It is composed of a Y frame 500 having a vision camera 510 in a direction perpendicular to the guide plate 100, The picker module 200 is installed inside the bracket 202, the bracket 202, a plurality of cylinders 230 to be fitted to the guide shaft 220 and connected to the cylinder 230, respectively It consists of a picker 240, a plurality of ports 234, 204 formed inside the connection portion 232 and the bracket 202 of the cylinder 230, it is possible to adjust the width of the cylinders fitted to the guide shaft, The one-touch coupling part 260 includes a plurality of air through holes 262, an O-ring member seating part 261 provided around the air through hole 262, and the O-ring member seating part 261. A loading hand, characterized in that it has an O-ring member 263 is inserted into the seal. delete delete The loading hand according to claim 1, wherein the head part (300) further comprises an auxiliary support member (254) on which one air port is installed. The loading hand of claim 1, wherein the cylinder (230) of the picker module (200) has a sensor (244) installed on one side thereof to detect a distance between cylinders. According to claim 1, The drive unit 400 is fixed to one side of the fixed plate 410 and consists of a cylinder 412 having a rod 414, a drive motor, the rod 414 is a guide plate 100 Loading hand, characterized in that interconnected by the connecting plate 422 and the connecting member 420 installed on the upper side of the.

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