CN217596410U - Automatic DIMM (dual in-line module) pulling and inserting module for FT (vertical transfer) jig - Google Patents

Abstract

The utility model relates to the technical field of manufacturing and application of tool fixtures, in particular to a DIMM automatic plugging module for an FT fixture, which comprises a cylinder, a supporting block, a long guide pillar, a push block, a clamping block, a pusher dog, a high screw, a short guide pillar, a spring, a memory bank clamping block and a memory bank mounting block; the long guide pillar is connected with the supporting block, the push block is connected with the long guide pillar in a sliding mode, the supporting block is provided with an air cylinder, the air cylinder is connected with the push block, and the short guide pillar is connected with the push block in a sliding mode; the memory bank mounting block is connected with the short guide post, the spring is sleeved on the outer side of the short guide post, the spring is connected with the push block and the memory bank mounting block, the equal-height screws are connected with the push block and the memory bank mounting block, the memory bank clamping block is connected with one end of the memory bank mounting block, and the memory bank clamping block is provided with a protruding part a; the clamping block is connected with the long guide pillar, the pusher dog is rotatably connected with the clamping block, and the pusher dog is provided with a convex part b and a convex part c. The utility model discloses only can realize automatic pulling out and inserting with a small amount of parts, reduce manual operation raise the efficiency, simple structure and practice thrift the cost.

Description

Automatic DIMM (dual in-line module) pulling and inserting module for FT (vertical transfer) jig

Technical Field

The utility model relates to a frock clamp makes and utilizes technical field, specifically is an automatic module of inserting of pulling out of DIMM for FT tool.

Background

FT is known collectively as Functional testing, i.e., the properties and operational behavior of a product are tested to determine that they meet design requirements based on product characteristics, operational descriptions, and user solutions. The DIMM interface is a universal interface on all computer mainboards, is an important component of a computer, the quality of the DIMM interface directly influences the quality of the computer, when the DIMM interface is tested by using an FT test fixture, the DIMM interface is subjected to memory bank plugging and unplugging, the performance and the function of the DIMM interface are ensured to be qualified,

although the existing computer production automation degree is very high, the automation degree of detection of the DIMM interface is not high, the detection of the DIMM interface is mainly carried out manually at present, the manual memory bank plugging and unplugging mode has low automation degree and efficiency, an operator needs to manually plug and unplug the memory bank before and after testing, and the manual memory bank plugging and unplugging has a plurality of disadvantages; firstly, the insertion and extraction efficiency of the manual insertion and extraction of the memory bank is not high, an operator is easy to be tired, the insertion and extraction are easy to be unstable, and the memory bank slot are easy to be damaged due to the inclination when the memory bank is manually inserted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is to the problem that exists among the background art, provides a DIMM automatic pull out insert die set for FT tool.

The technical scheme of the utility model: a DIMM automatic pulling and inserting module for an FT jig comprises a cylinder, a supporting block, a long guide pillar, a push block, a clamping block, a pusher dog, an equal-height screw, a short guide pillar, a spring, a memory bank clamping block and a memory bank mounting block;

the long guide posts are connected with the supporting block, the number of the long guide posts is two, the two long guide posts are symmetrically distributed on the supporting block, the push block is connected with the two long guide posts in a sliding mode, the supporting block is provided with an air cylinder, the air cylinder is connected with the push block, the number of the short guide posts is two, and the two short guide posts are both connected with the push block in a sliding mode;

the memory bank mounting block is connected with one end of the two short guide posts, the number of the springs is two, the two springs are respectively sleeved on the outer sides of the two short guide posts, the springs are connected with the push block and the memory bank mounting block, the push block and the memory bank mounting block are connected by equal-height screws, the equal-height screws are two and are symmetrically distributed, the memory bank clamping block is connected with one end of the memory bank mounting block, the number of the memory bank clamping blocks is two, the two memory bank clamping blocks are symmetrically distributed, and the two memory bank clamping blocks are respectively provided with a protruding part a; the memory bank is arranged in the memory bank mounting block, and the memory bank clamping block clamps two ends of the memory bank;

the two clamping blocks and the two pusher dogs are respectively connected with the two long guide pillars, the two pusher dogs are respectively rotatably connected with the clamping blocks, and the end face, close to the push block, of each pusher dog is provided with a convex part b and a convex part c.

Preferably, the two clamping blocks are respectively provided with a torsion spring, and the torsion springs are connected with the shifting claw.

Preferably, the convex portions b and the convex portions c are distributed in the height direction of the pusher dog, and the convex portions b are located below the convex portions c.

Preferably, the push block comprises a mounting part a, a connecting rod and a mounting part b;

the connecting rod connects installation department a and installation department b, and the connecting rod is equipped with two, two connecting rod symmetric distributions.

Preferably, the device also comprises a large linear bearing and a short linear bearing;

the mounting part a is provided with two through holes a which are symmetrically distributed, two large linear bearings are arranged, the two large linear bearings are connected with the two through holes a, and the two large linear bearings are connected with the two long guide pillars in a sliding manner;

and two through holes b are formed in the mounting part b, the two through holes b are symmetrically distributed, the two short linear bearings are arranged, the two short linear bearings are connected with the two through holes b, and the two short linear bearings are connected with the two short guide posts in a sliding manner.

Preferably, the push block is of an integrated structure.

Compared with the prior art, the above technical scheme of the utility model following profitable technological effect has:

the utility model discloses when using, the supporting shoe is fixed on the peripheral support of FT test machine, install the DRAM on DRAM installation piece again, cylinder control ejector pad slides down on two long guide pillars, the ejector pad promotes DRAM installation piece downstream, move to when the DRAM just will insert in the DRAM slot, bellying a on the DRAM block extrudees bellying b on the pusher dog, the pusher dog opens to both sides and dials out the DRAM buckle on DRAM slot both sides, the ejector pad continues to promote DRAM installation piece and DRAM downwards until the DRAM is inserted the DRAM slot completely, the DRAM buckle automatic return blocks the DRAM, installation department b compresses tightly the DRAM installation piece, spring compression stores elastic potential energy; after the test is finished, the air cylinder controls the push block to move upwards, the spring releases energy to enable the memory bank mounting block to temporarily keep static, two ends of the mounting portion b extrude the protruding portions c on the poking claws so as to poke the memory bank buckles, the air cylinder controls the push block to move upwards, the memory bank mounting block and the memory bank are driven to move upwards under the limitation of the equal-height screws, and then the memory bank is pulled out; the utility model discloses only can realize automatic pulling out with a small amount of parts and insert, reduce manual operation raise the efficiency, simple structure practices thrift the cost simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a in fig. 1.

Fig. 3 is a schematic structural diagram of B in fig. 1.

Reference numerals: 1. a cylinder; 2. a support block; 3. a long guide post; 4. a large linear bearing; 5. a push block; 6. a clamping block; 7. a pusher dog; 8. a short linear bearing; 9. an equal-height screw; 10. a short guide post; 11. a spring; 12. a memory bank clamping block; 13. a memory bank mounting block; 14. a memory bank buckle; 15. a memory bank; 16. and a memory bank slot.

Detailed Description

Example one

As shown in fig. 1-3, the DIMM automatic pulling and plugging module for the FT jig provided by the present invention includes a cylinder 1, a supporting block 2, a long guide pillar 3, a pushing block 5, a fixture block 6, a pusher dog 7, a height-equal screw 9, a short guide pillar 10, a spring 11, a memory bank fixture block 12 and a memory bank mounting block 13;

the long guide pillars 3 are connected with the supporting block 2, the number of the long guide pillars 3 is two, the two long guide pillars 3 are symmetrically distributed on the supporting block 2, the push block 5 is connected with the two long guide pillars 3 in a sliding mode, the supporting block 2 is provided with an air cylinder 1, the air cylinder 1 is connected with the push block 5, the number of the short guide pillars 10 is two, and the two short guide pillars 10 are both connected with the push block 5 in a sliding mode;

the memory bank mounting block 13 is connected with one end of the two short guide posts 10, the number of the springs 11 is two, the two springs 11 are respectively sleeved on the outer sides of the two short guide posts 10, the springs 11 are connected with the push block 5 and the memory bank mounting block 13, the push block 5 and the memory bank mounting block 13 are connected by equal-height screws, the equal-height screws 9 are two, the two equal-height screws 9 are symmetrically distributed, the memory bank clamping block 12 is connected with one end of the memory bank mounting block 13, the number of the memory bank clamping blocks 12 is two, the two memory bank clamping blocks 12 are symmetrically distributed, and the two memory bank clamping blocks 12 are respectively provided with a protruding part a;

furthermore, torsion springs are arranged on the two clamping blocks 6 and connected with the shifting claw 7, and the shifting claw 7 can return by the torsion springs;

the two clamping blocks 6 and the two pusher dogs 7 are respectively provided, the two clamping blocks 6 are respectively connected with the two long guide pillars 3, the two pusher dogs 7 are respectively rotatably connected with the clamping blocks 6, and the end surface of the pusher dog 7 close to the push block 5 is provided with a convex part b and a convex part c;

further, the convex portions b and the convex portions c are distributed in the height direction of the finger 7, and the convex portions b are located below the convex portions c.

In the utility model, the supporting block 2 is fixed on the peripheral support of the FT testing machine, install the memory bank on the memory bank installing block 13 again, the cylinder 1 controls the push block 5 to slide downwards on the two long guide pillars 3, the push block 5 moves downwards to push the memory bank installing block 13 to move downwards, when moving to the memory bank 15 just to be inserted into the memory bank slot 16, the protruding part a on the memory bank clamping block 12 extrudes the protruding part b on the pusher dog 7, the pusher dog 7 opens the memory bank buckles 14 on two sides of the memory bank slot 16 to two sides, the push block 5 continues to push the memory bank installing block 13 and the memory bank 15 downwards until the memory bank 15 is completely inserted into the memory bank slot 16, the memory bank buckles 14 automatically block the memory bank 15, the installing part b compresses the memory bank installing block 13, the spring 11 is compressed to store elastic potential energy; after the test is finished, the air cylinder 1 controls the push block 5 to move upwards, the spring 11 releases energy to enable the memory bar mounting block 13 to temporarily keep still, the two ends of the mounting part b extrude the protruding parts c on the two poking claws 7 to poke the memory bar buckle 14, the air cylinder 1 controls the push block 5 to continue moving upwards, the memory bar mounting block 13 and the memory bar 15 are driven to move upwards under the limitation of the equal-height screw 9, and the memory bar 15 is pulled out; the utility model discloses only can realize automatic pulling out with a small amount of parts and insert, reduce manual operation raise the efficiency, simple structure practices thrift the cost simultaneously.

Example two

As shown in fig. 1-2, compared with the first embodiment, the automatic DIMM plugging module for an FT jig according to the present invention further includes a large linear bearing 4 and a short linear bearing 8;

the push block 5 comprises a mounting part a, a connecting rod and a mounting part b; the connecting rods are connected with the mounting parts a and b, two connecting rods are arranged, and the two connecting rods are symmetrically distributed;

furthermore, the push block 5 is of an integrated structure, so that the structure is more stable;

the mounting part a is provided with two through holes a which are symmetrically distributed, the two large linear bearings 4 are arranged, the two large linear bearings 4 are connected with the two through holes a, and the two large linear bearings 4 are connected with the two long guide pillars 3 in a sliding manner;

the installation part b is provided with two through holes b which are symmetrically distributed, the short linear bearings 8 are arranged in two numbers, the two short linear bearings 8 are connected with the two through holes b, and the two short linear bearings 8 are in sliding connection with the two short guide pillars 10.

In the embodiment, the large linear bearing 4 on the control mounting part a of the cylinder 1 slides on the long guide pillar 3, and the short guide pillar 10 slides in the short linear bearing 8; the large linear bearing 4 and the short linear bearing 8 reduce the friction force between the push block 5 and the long guide post 3 and the short guide post 10, so that the push block 5 can slide more smoothly, and the push block 5 is prevented from being blocked when sliding.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (6)

1. A DIMM automatic pulling and inserting module for an FT jig is characterized by comprising an air cylinder (1), a supporting block (2), a long guide post (3), a push block (5), a clamping block (6), a pusher dog (7), a contour screw (9), a short guide post (10), a spring (11), a memory bank clamping block (12) and a memory bank mounting block (13);

the long guide posts (3) are connected with the supporting block (2), the number of the long guide posts (3) is two, the two long guide posts (3) are symmetrically distributed on the supporting block (2), the push block (5) is connected with the two long guide posts (3) in a sliding mode, the supporting block (2) is provided with the air cylinder (1), the air cylinder (1) is connected with the push block (5), the number of the short guide posts (10) is two, and the two short guide posts (10) are both connected with the push block (5) in a sliding mode;

the memory bank mounting block (13) is connected with one end of each of the two short guide posts (10), the number of the springs (11) is two, the two springs (11) are respectively sleeved on the outer sides of the two short guide posts (10), the springs (11) are connected with the push block (5) and the memory bank mounting block (13), the push block (5) and the memory bank mounting block (13) are connected by equal-height screws, the number of the equal-height screws (9) is two, the two equal-height screws (9) are symmetrically distributed, the memory bank clamping blocks (12) are connected with one end of the memory bank mounting block (13), the number of the memory bank clamping blocks (12) is two, the two memory bank clamping blocks (12) are symmetrically distributed, and the two memory bank clamping blocks (12) are respectively provided with a protruding part a;

the two clamping blocks (6) and the two pusher dogs (7) are respectively provided with two clamping blocks (6) which are respectively connected with the two long guide posts (3), the two pusher dogs (7) are respectively rotatably connected with the clamping blocks (6), and the end surface of each pusher dog (7) close to the push block (5) is provided with a convex part b and a convex part c.

2. The DIMM automatic plugging module for the FT jig is characterized in that torsion springs are arranged on the two clamping blocks (6) and connected with the shifting claw (7).

3. The automatic DIMM plugging module for an FT (vertical tool) of claim 1, wherein the bosses b and c are distributed in the height direction of the pusher dog (7), and the bosses b are located below the bosses c.

4. The DIMM auto-unplug and plug-in module for an FT tool as set forth in claim 1 wherein the push block (5) comprises a mounting portion a, a link and a mounting portion b;

the connecting rod connects installation department a and installation department b, and the connecting rod is equipped with two, two connecting rod symmetric distributions.

5. The DIMM auto-plug module for an FT tool of claim 4 further comprising a large linear bearing (4) and a short linear bearing (8);

the mounting part a is provided with two through holes a which are symmetrically distributed, two large linear bearings (4) are arranged, the two large linear bearings (4) are connected with the two through holes a, and the two large linear bearings (4) are connected with the two long guide pillars (3) in a sliding manner;

the installation part b is provided with two through holes b which are symmetrically distributed, the short linear bearings (8) are provided with two, the two short linear bearings (8) are connected with the two through holes b, and the two short linear bearings (8) are connected with the two short guide pillars (10) in a sliding manner.

6. The DIMM auto-plug module for an FT tool of claim 4, wherein the push block (5) is a unitary structure.

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