KR100528706B1 - Tray Transfer for Semi-conductor Test Handler - Google Patents

Abstract

The present invention relates to a tray transfer apparatus of a semiconductor device test handler, and to prevent the semiconductor device from being flipped or detached during the tray transfer.

To this end, the present invention, in the tray transfer device which is installed to be moved by the linear motion device in the handler body to transfer the tray on which the plurality of semiconductor elements are seated from one side of the handler body to the other side, the linear movement to the handler body And movable plate installed; A pair of grippers installed on the movable plate so as to be stretchable laterally and fixing and releasing both sides of the tray under the movable plate; Drive means for stretching the gripper from side to side; And a pressing member elastically installed under the movable plate to elastically press each semiconductor element seated on the tray downward when the tray is fixed to the gripper. Provide a tray feeder.

Description

Tray Transfer for Semi-conductor Test Handler}

The present invention relates to an apparatus for transporting a tray in a handler for testing a semiconductor device, and more particularly, to stably transport a semiconductor device on a tray when a tray containing a semiconductor device is transported from one stacker position to another stacker position in a handler base. The present invention relates to a tray feeder of a semiconductor device test handler which can be supported.

In general, the semiconductor devices produced in the production line are tested to determine whether they are good or defective before shipping, and the handler is a device used to test these semiconductor devices. The semiconductor devices contained in the trays are automatically transferred between processes, mounted on the test sockets of the test site, the desired tests are carried out, and the tests are performed by sequentially classifying the classes into different grades and unloading them again. It's the equipment that is supposed to run.

Referring to FIG. 1 of the accompanying drawings, the test process performed in the handler will be described in more detail. The tray T for accommodating the semiconductor device to be tested in the loading stacker 5 installed under the base 1 of the handler T ), The unloading stacker 6 installed on one side of the loading stacker 5 is loaded with empty trays T for storing the tested semiconductor elements, and then the handler is operated. , 8b) picks up the semiconductor devices from the tray T transported to the loading unit 2 and supplies them to a test site (not shown) behind the handler, and at the test site, an index device (not shown) is supplied. These tests are carried out by transferring them to a test socket (not shown) and electrically connecting them.

The semiconductor devices tested in the test sockets are picked up by the device transfer devices 8a and 8b and sorted by the test results in the tray T located in the unloading unit 3 for re-storage.

On the other hand, just above the loading stacker 5 and the unloading stacker 6, a tray feeder 9 for picking up and transporting the trays T is installed to move horizontally. The tray conveying apparatuses 9 pick up the trays T of the loading stacker 5 and the unloading stacker 6, and the elevating plate 4 installed at the upper loading part 2 and the unloading part 3. In addition to supplying), all of the semiconductor elements are transferred from the loading unit 2 to transfer and load the empty trays T into the tray stacker 7 provided on one side of the loading stacker 5.

Recently, as semiconductor devices become more dense and highly integrated, the size of semiconductor devices tends to be very small.

However, when testing a very small semiconductor device as described above in the conventional handler, because the tray feeder transfers the tray at a very high speed, the semiconductor elements are turned upside down due to impact or inertia, etc. Problems often arise.

In this case, since the semiconductor element is not properly adsorbed by the element transfer device, an error occurs, and the operation of the handler is stopped, which causes a problem in that test productivity is lowered.

Accordingly, the present invention has been made to solve the above problems, by stably supporting the semiconductor device on the tray when the tray is transported to prevent the semiconductor device from being flipped or detached in the process of transporting the tray. It is an object of the present invention to provide a tray feeder of a semiconductor device test handler.

In the present invention for achieving the above object, in the tray transfer apparatus is installed in the handler body to be movable by a linear motion device to transfer the tray on which the plurality of semiconductor elements are seated from one side of the handler body to the other side, A movable plate mounted to the handler body so as to be linearly movable; A pair of grippers installed on the movable plate so as to be stretchable laterally and fixing and releasing both sides of the tray under the movable plate; Drive means for stretching the gripper from side to side; And a pressing member elastically installed under the movable plate to elastically press each semiconductor element seated on the tray downward when the tray is fixed to the gripper. Provide a tray feeder.

Hereinafter, a preferred embodiment of a tray transfer apparatus of a semiconductor device test handler according to the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 are views showing in detail the structure of the tray conveying apparatus 90 according to the invention, the loading stacker 5 (see FIG. 1) and the unloading stacker 6 (see FIG. 1) of the handler. The movable plate 91 is installed on the upper side so as to be movable horizontally horizontally from side to side and up and down by a linear motion system such as a ball screw, and both sides of the tray are opened and retracted from both sides of the movable plate 91, respectively. A pair of grippers 92a and 92b are provided so as to be movable left and right so as to hold and release a part.

In addition, a pneumatic cylinder 93 for moving the grippers 92a and 92b to the left and right at the same time is provided on an upper surface of the movable plate 91, and a fixed block 94a is provided in front and rear of the pneumatic cylinder 93, respectively. 94b are installed, and guide shafts 95a and 95b are coupled to the fixed blocks 94a and 94b to penetrate both grippers 92a and 92b to guide the left and right movements of the grippers 92a and 92b. .

The grippers 92a and 92b are formed in a form in which both ends are bent in a substantially 'L' shape to fix the lower ends of both edges of the tray T.

On the other hand, a plurality of pogo pins 96 are arranged at predetermined intervals in the lower portion of the movable plate 91 so as to press each semiconductor element on the tray downward when the grippers 92a and 92b hold the tray T. do.

The pogo pin 96 has an elastic body such as a compression spring 96c embedded in the cylindrical body 96a, and the pin 96b is elastically supported by the compression spring 96c to support the semiconductor element S. It consists of a structure to pressurize.

The tray feeder configured as described above operates as follows.

When both grippers 92a and 92b are opened and retracted by the operation of the pneumatic cylinder 93 to fix both edge portions of the tray T, the pogo is installed on the lower surface of the movable plate 91. The pins 96 press the semiconductor elements S on the tray T above the tray T. Accordingly, even when the movable plate 91 is moved at a high speed while the tray T is fixed by the grippers 92a and 92b, the semiconductor elements S may be turned upside down or separated from their original positions even when the movable plate 91 is stopped or impacted. The phenomenon disappears.

4 is a view showing another embodiment of the tray feeder according to the present invention, in which the tray feeder is compressed under the movable plate 91 to pressurize the semiconductor elements S on the tray T. The springs 197 are arranged to form a plurality of rows, and a plurality of push bars 196 in the form of elongated bars are disposed at predetermined intervals below the respective compression springs 192.

Here, the push bar 196 may be configured to be separated into a plurality of individual pieces, or alternatively, may be configured to be connected to a plurality of pieces integrally.

Therefore, when both grippers 92a and 92b hold the tray T, each push bar 196 elastically presses the semiconductor elements S on the tray T, and the movable plate 91 In the process of moving at a high speed, the semiconductor devices are prevented from being flipped or out of position.

In the above-described embodiment, the bar-shaped push bar is configured to press the semiconductor elements on the tray while being elastically supported. Alternatively, a plurality of plates or a single plate is elastically supported by an elastic body such as a compression spring under the movable plate. It may be configured to press several semiconductor devices at once while being supported by.

In addition, although the compression spring 197 is used as the elastic body that elastically supports the push bar 196 in the above-described embodiment, a plate spring or other known elastic body may be used.

As described above, according to the present invention, since the semiconductor elements on the tray are supported while being elastically pressed when the tray is fixed to the tray conveying apparatus, there is no phenomenon that the semiconductor elements are turned over or dislodged during the tray movement. As a result, error occurrence is significantly reduced, thereby improving test productivity.

1 is an overall configuration diagram of a handler showing a tray conveying apparatus according to the present invention

Figure 2 is a perspective view schematically showing one embodiment of the tray transport apparatus according to the present invention

Figure 3 is a schematic cross-sectional view of the main portion of the tray feeder of FIG.

Figure 4 is a schematic cross-sectional view showing the main portion of another embodiment of the tray transport apparatus according to the present invention

Explanation of symbols on the main parts of the drawings

90: tray feeder 91: movable plate

92a, 92b: gripper 93: pneumatic cylinder

94a, 94b: Fixed block 96: Pogo pin

196: push bar 197: compression spring

Claims (5)

In the tray transfer apparatus which is installed in the handler body to be movable by a linear motion device to transfer the tray on which the plurality of semiconductor elements are seated from one side to the other side of the handler body, A movable plate mounted to the handler body so as to be linearly movable; A pair of grippers installed on the movable plate so as to be stretchable laterally and fixing and releasing both sides of the tray under the movable plate; Drive means for stretching the gripper from side to side; And a pressing member elastically installed under the movable plate to elastically press each semiconductor element seated on the tray downward when the tray is fixed to the gripper. Tray feeder. The tray transfer apparatus of claim 1, wherein the pressing member comprises a plurality of pogo pins installed at predetermined intervals below the movable plate and having an elastic body embedded therein. According to claim 1, wherein the pressing member, the elastic body arranged in a plurality of rows in the lower portion of the movable plate, and a plurality of push bar coupled to the lower portion of each elastic body to press the semiconductor element on the tray Tray transfer apparatus of a semiconductor device test handler, characterized in that configured. The method of claim 1, wherein the pressing member is composed of at least one elastic body installed in the lower portion of the movable plate, and at least one push plate coupled to the lower portion of the elastic body to press the semiconductor element on the tray. Tray feeder of semiconductor device test handler. 5. The tray conveying apparatus of claim 3 or 4, wherein the elastic body is made of a compressed coil spring.