JPH0435814Y2 - - Google Patents

Description

[Detailed explanation of the invention] (a) Technical field of the invention This invention relates to a component heating mechanism used for temperature testing of ICs, etc.

(b) Purpose of the invention The purpose of this invention is to provide a part heating mechanism that can perform a performance test on a heated part while heating the entire surrounding area of the part.

(c) Embodiment of the invention First, a partial perspective view of an embodiment of the invention is shown in Fig. 1.

In Figure 1, 1 to 3 are blocks, 4 is a rail, 5 is a part, 6 is hot air, 11 and 12 are sides, 21 and 31
is a hole, and 41 is an end.

The block 1 is hollow inside and has an end 4 of the rail 4.
1. The block 1 and the end 41 may be in contact with each other, or the block 1 and the end 41 may be spaced apart.

The block 2 is hollow inside and is connected to the side surface 11 of the block 1. The inside of block 2 and the inside of block 1 are communicated with each other.
A hole 21 is made around the periphery.

Block 3, like block 2, is hollow inside and is connected to the opposite side 12 of block 1. The inside of block 3 and the inside of block 1 communicate with each other, and there is a hole 3 around block 3.
1 can be opened.

FIG. 1 shows a state in which the part 5 is being fed along the rail 4 toward the end 41 in the Z direction, and the part 5 hits the block 1 and stops.

In FIG. 1, hot air 6 is sent from the block 2 side to the blocks 1 and 3, and a portion of the hot air 6 reaches the periphery of the component 5 through the holes 21 and 31. Therefore, the area around the block 1 is heated by the hot air 6, and the end portion 41 of the rail 4 is also heated by the heat of the block 1. Furthermore, the temperature around the rail 4 also rises due to the hot air blown out from the holes 21 and 31.

Next, FIG. 2 shows a side view of FIG. 1 seen from the block 2 side.

Reference numeral 7 in FIG. 2 is a heat block, which is not shown in FIG. 1, but is designed to heat the side surface of the component 5.

The component 5 in FIG. 2 is stopped when it hits the block 1, and in this state, the hot air 6 blowing out from the holes 21 and 31 in FIG.
The entire periphery of the component 5 is heated, and the temperature test of the component 5 can be performed in an ideal state.

After the temperature test is completed, blocks 1 to 3 in FIG. 1 move in the X direction to transfer the part 5 to another transport mechanism.

(d) Effect of the invention According to this invention, the block 1 is heated with the hot air 6, and the hot air 6 blown out from the holes 21 and 31 is heated.
, which increases the ambient temperature of rail 4, so component 5
The entire surrounding area can be heated.

[Brief explanation of the drawing]

Figure 1 is a configuration diagram of an embodiment according to this invention, Figure 2
The figure is a side view of Figure 1. 1...Block, 2...Block, 3...Block, 4...Rail, 5...Parts, 6...Hot air,
7... Heat block, 11... Side, 12...
Side surface, 21... hole, 31... hole, 41... end.

Claims (1)

[Claims for Utility Model Registration] A first block arranged at the end of the rail and having a hollow interior; A second block that communicates with the inside of the first block, and a third block that has a hollow interior and is connected to the second side of the first block and that communicates with the inside of the first block. sending hot air into the first block, second block and third block, blowing out the hot air from holes in the second block and holes in the third block, and transferring the hot air to the end of the rail. A component heating mechanism characterized in that the component is heated by the hot air from the hole and the first block.