CN220097664U - Miniature stromatolite material rotary mechanism - Google Patents

Abstract

The present application relates to a micro-laminated material rotating mechanism, which includes a base and a turntable. The top of the base is rotatably provided with a turntable. The top of the turntable is provided with two grooves along its radial direction. The grooves are rotatable. A two-way screw is inserted into the turntable. There is a rotating handle on one end of the two-way screw that passes through the turntable. There are moving blocks in the two grooves on the two-way screw. Each of the moving blocks is equipped with a rotating handle. A vertical plate is connected, and a lifting rod is inserted into the vertical plate. A clamping block is provided at one end of the lifting rod. A clamping groove is provided in the middle of one side of the two clamping blocks that are close to each other. When rotating in both directions, When the screw drives the two clamping blocks to clamp and fix the semiconductor to be detected, the semiconductor can be rotated directly on the base by rotating the turntable, which facilitates the detection of the semiconductor.

Description

A miniature laminated material rotating mechanism

Technical field

The present application relates to the technical field of micro-laminated material rotation, and in particular, to a micro-laminated material rotation mechanism.

Background technique

When detecting semiconductors, due to the small size of the semiconductor, especially when rotating the semiconductor during the detection process, manual rotation is traditionally used, which is inconvenient to operate and reduces the efficiency of semiconductor detection. Therefore, it is necessary to design a A rotating mechanism to facilitate the detection of semiconductors.

Utility model content

In order to solve the problems raised in the above background art, this application provides a micro-laminated material rotating mechanism.

The micro-laminated material rotating mechanism provided by this application adopts the following technical solution:

A micro-laminated material rotating mechanism includes a base and a turntable. The top of the base is rotatably provided with a turntable. There are two grooves on the top of the turntable along its radial direction. The rotatable inserts are inserted into the grooves. There is a two-way screw. One end of the two-way screw that passes through the turntable is provided with a rotating handle. The positions in the two grooves on the two-way screw are covered with moving blocks. Each of the moving blocks is connected with a vertical A lifting rod is inserted into the vertical plate, a clamping block is provided at one end of the lifting rod, and a clamping groove is provided in the middle of one side of the two clamping blocks that are close to each other.

Preferably, a support block is provided in the upper middle of the turntable, and a support groove is provided at the top of the support block.

Preferably, a fixing bar is connected to the top of each lifting rod, and a T-shaped rod passes through the fixed bar. One end of the T-shaped rod is connected to the clamping block, and the T-shaped rod is covered with a clamping block. There is a spring, and both ends of the spring are connected to the clamping block and the fixing bar respectively.

Preferably, the bottom end of the lifting rod is movably inserted into the vertical plate, the bottom end of the lifting rod is connected to an insertion rod, and the vertical plate is provided with a through slot for the insertion rod to pass through.

Preferably, the groove wall is provided with a transverse groove, one end of the insertion rod is inserted into the transverse groove, and the groove wall is provided with an inclined groove communicating with the transverse groove.

To sum up, this application includes the following beneficial technical effects:

1. In this utility model, two grooves are provided on the turntable that can be rotated at the top of the base. Two moving blocks are covered with a two-way screw that can be rotated and inserted into the grooves. The lifting and lowering in the vertical plate above each moving block There is a clamping block at the top of the rod. When the two-way screw is turned to drive the two clamping blocks to clamp and fix the semiconductor to be detected, the semiconductor can be rotated directly on the base by the rotation of the turntable, which facilitates the detection of the semiconductor. Work;

2. There is a support block with a support groove on the top in the middle of the base. When clamping the semiconductor, the semiconductor can be directly placed in the support groove, and then the two-way screw is turned to drive the clamping block to clamp and fix the semiconductor. The operation is simpler. convenient;

3. One end of the T-shaped rod passing through the fixed strip at the top of the lifting rod is connected to the clamping block. There is a spring connected between the clamping block and the fixed strip. The bottom end of the lifting rod inserted into the vertical plate is connected to the groove wall. The insertion rod in the upper transverse groove, one end of the transverse groove is connected to the chute, and the two-way screw is rotated to drive the clamping block to move and clamp the semiconductor. The insertion rod slides in the transverse groove and the chute to drive the semiconductor after clamping it. It is moved out of the support groove to completely expose the semiconductor, thereby preventing the support block from hindering the detection of the semiconductor. The structure is simple and the function is practical.

Description of the drawings

Figure 1 is a schematic structural diagram of a micro-laminated material rotating mechanism in an embodiment of the present application;

Figure 2 is an enlarged structural view of position A of a micro-laminated material rotating mechanism in the embodiment of the present application;

Figure 3 is an enlarged structural view of position B of a miniature laminated material rotating mechanism in the embodiment of the present application.

Explanation of reference signs: 1. Base; 2. Turntable; 3. Groove; 4. Two-way screw; 5. Rotating handle; 6. Support block; 7. Vertical plate; 8. Lift rod; 9. Fixed bar; 10. T-shaped rod; 11. Clamping block; 12. Spring; 13. Moving block; 14. Inserting rod; 15. Transverse groove; 16. Chute.

Detailed ways

The present application will be further described in detail below in conjunction with Figures 1-3.

The embodiment of the present application discloses a micro-laminated material rotating mechanism, which includes a base 1 and a turntable 2. The top of the base 1 is rotatably provided with a turntable 2. Two grooves 3 are provided on the top of the turntable 2 along its radial direction. The grooves 3 There is a two-way screw 4 that can be rotated in the middle. A rotating handle 5 is provided on one end of the two-way screw 4 that passes through the turntable 2. The positions in the two grooves 3 on the two-way screw 4 are covered with moving blocks 13. The moving blocks 13 is provided with a threaded hole for the two-way screw 4 to pass through. Each moving block 13 is connected to a vertical plate 7. A lifting rod 8 is inserted into the vertical plate 7. One end of the lifting rod 8 is provided with a clamping block 11. There is a clamping groove in the middle of the side of the two clamping blocks 11 that are close to each other. After the rotating handle 5 is used to turn the two-way screw 4 to drive the two clamping blocks 11 to clamp and fix the semiconductor, the turntable 2 can be directly used to fix the semiconductor on the base 1. Rotate to rotate the semiconductor, which facilitates the detection of semiconductors.

Referring to Figure 1-3, a support block 6 is provided in the upper middle of the turntable 2, and a support groove is provided at the top of the support block 6. When clamping the semiconductor, the semiconductor can be placed in the support groove at the top of the support block 6 for convenience. In order to clamp and fix the semiconductor, the top of each lifting rod 8 is connected to a fixing bar 9. A T-shaped rod 10 passes through the fixing bar 9. One end of the T-shaped rod 10 is connected to the clamping block 11. The shaped rod 10 is covered with a spring 12. The two ends of the spring 12 are respectively connected to the clamping block 11 and the fixing bar 9. The deformation of the spring 12 can avoid damage to the semiconductor due to excessive clamping force of the clamping block 11. The bottom end of the lifting rod 8 is movable and inserted into the vertical plate 7. The bottom end of the lifting rod 8 is connected with the insertion rod 14. The vertical plate 7 is provided with a through slot for the insertion rod 14 to pass through. The groove of the groove 3 is A transverse groove 15 is provided on the wall, and one end of the insertion rod 14 is inserted into the transverse groove 15. The groove wall of the groove 3 is provided with an inclined groove 16 that communicates with the transverse groove 15. Rotate the two-way screw 4 to drive the insertion rod 14 in the transverse groove 15. After the clamping block 11 is clamped to the semiconductor, the two-way screw 4 can continue to rotate using the deformation ability of the spring 12. At this time, the insertion rod 14 is in the chute 16, and then the clamped semiconductor is released from the support block 6. It is proposed to avoid the situation where the support block 6 hinders the semiconductor detection work.

The implementation principle of a micro-laminated material rotating mechanism in the embodiment of the present application is as follows: first, place the semiconductor to be detected into the support groove at the top of the support block 6, and then directly use the rotating handle 5 to rotate the two-way screw 4 on the turntable 2, The two moving blocks 13 drive the clamping block 11 to move synchronously toward one side of the semiconductor on the two-way screw 4, and drive one end of the insertion rod 14 to slide in the transverse groove 15. When the clamping block 11 is clamped to the semiconductor, the spring 12 During deformation, continue to use the rotating handle 5 to rotate the two-way screw 4, and continue to drive the clamping block 11 to clamp the semiconductor, and the insertion rod 14 slides in the chute 16, driving the lifting rod 8 to move upward in the vertical plate 7, and the clamped semiconductor After the semiconductor is removed from the support slot, it can be inspected. During the inspection process, the turntable 2 can be directly rotated on the base 1 to rotate the semiconductor according to the needs of the actual situation, which facilitates the inspection of the semiconductor. The operation is also simpler and more convenient, improving work efficiency.

The above are all preferred embodiments of the present application, and are not intended to limit the scope of protection of the present application. Therefore, any equivalent changes made based on the structure, shape, and principle of the present application shall be covered by the scope of protection of the present application. Inside.

Claims (5)

1. A micro-laminated material rotating mechanism, including a base (1) and a turntable (2), characterized in that: the top of the base (1) is rotatably provided with a turntable (2), and the top of the turntable (2) There are two grooves (3) along its radial direction. A bidirectional screw (4) is rotatably inserted into the grooves (3). The bidirectional screw (4) passes through one end of the turntable (2). A rotating handle (5) is provided, and moving blocks (13) are placed in the two grooves (3) on the two-way screw (4). Each moving block (13) is connected with a Vertical plate (7), a lifting rod (8) is inserted into the vertical plate (7), a clamping block (11) is provided at one end of the lifting rod (8), and two clamping blocks (11) A clamping groove is provided in the middle of the sides that are close to each other. 2. A micro-laminated material rotating mechanism according to claim 1, characterized in that: a support block (6) is provided in the upper middle of the turntable (2), and a top end of the support block (6) is provided with a support block (6). There are support slots. 3. A micro-laminated material rotating mechanism according to claim 1, characterized in that: a fixing bar (9) is connected to the top of each lifting rod (8), and the fixing bar (9) There is a T-shaped rod (10) passing through it. One end of the T-shaped rod (10) is connected to the clamping block (11). The T-shaped rod (10) is covered with a spring (12). The spring (12) The two ends of 12) are connected to the clamping block (11) and the fixing bar (9) respectively. 4. A micro-laminated material rotating mechanism according to claim 1, characterized in that: the bottom end of the lifting rod (8) is movably inserted into the vertical plate (7), and the bottom end of the lifting rod (8) is inserted into the vertical plate (7). The bottom end is connected with an insertion rod (14), and the vertical plate (7) is provided with a through slot for the insertion rod (14) to pass through. 5. A micro-laminated material rotating mechanism according to claim 1, characterized in that: a transverse groove (15) is provided on the groove wall of the groove (3), and an insert is inserted into the transverse groove (15). One end of the insertion rod (14) is inserted, and an inclined groove (16) connected to the transverse groove (15) is provided on the groove wall of the groove (3).