CN211602375U - Linkage mechanism for front and back opposite insertion synchronous side insertion - Google Patents

Abstract

The utility model relates to a front and back to inserting link gear that synchronous side was inserted includes: the device comprises a carrier plate, a first sliding block, a second sliding block, a first plug-in assembly, a second plug-in assembly, a fixed base plate, a carrier plate fixed block and a sliding rail; the first sliding block is arranged at the front end of the carrier plate and is slidably mounted on the lower surface of the carrier plate, and the second sliding block is arranged at the rear end of the carrier plate and is slidably mounted on the lower surface of the carrier plate; the carrier plate is provided with a first sliding groove and a second sliding groove, the first plug-in component is installed on the fixed bottom plate and arranged in the first sliding groove, and the second plug-in component is installed on the fixed bottom plate and arranged in the second sliding groove; the support plate fixed block is installed on PMKD, and the slide rail setting is on the support plate fixed block, slide rail and support plate sliding connection. The utility model discloses the action step of operation when having reduced the test has reduced structure occupation space again, simple structure moreover, and the operation is ingenious convenient, improves efficiency of software testing simultaneously, has also practiced thrift use cost greatly.

Description

Linkage mechanism for front and back opposite insertion synchronous side insertion

Technical Field

The utility model relates to a test is with anchor clamps technical field, more specifically says, relates to a front and back to inserting link gear that synchronous side was inserted.

Background

Under the rapid development of science and technology nowadays, our life is richened to various intelligent products, and the mainboard of intelligent product is more complicated, and the mainboard is not only to inserting about need simultaneously to the side insert around not only needing when the test, just can carry out holistic functional test after accomplishing inserting to each interface. The main board is common and troublesome in the industry of test fixtures, and due to the limitation of the size of a space structure of the traditional fixture, the design of an independent plug-in mechanism cannot be carried out in each direction of front, back, left and right, and meanwhile, the different types of the plug-in ports and the precision requirement on the interfaces are considered, so that the plug-in difficulty of the fixture is higher. In prior art, traditional test fixture that inserts is through fixing the butt joint on anchor clamps, manual quick clamp of rethread or cylinder impel, test in inserting the corresponding socket of mainboard with the plug, this kind is often to inserting the mode and need carry out solitary step and come to inserting, make the test procedure complicated, work efficiency is low, and traditional equipment is because the difference to the spigot type, the size of its fixed block will also be inconsistent, its butt joint precision will also change, lead to inserting the action and complicated, and is with high costs, and efficiency of software testing is low.

The existing solution has the following disadvantages:

1. the conventional opposite-insertion test fixture is used for testing the plug oppositely inserted into the corresponding socket of the mainboard by fixing the opposite joint on the fixture and then pushing the opposite joint through a manual quick clamp or an air cylinder, so that the test steps are complex and the working efficiency is low;

2. because the types of the opposite-inserting joints are different, the sizes of the fixed blocks are inconsistent, the butt joint precision is changed, the opposite-inserting action is complicated, the cost is high, and the testing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, constructs the link gear that synchronous side was inserted to inserting around one, solves among the prior art tradition to inserting anchor clamps test procedure complicated, to inserting the problem that the action is complicated, with high costs and efficiency of software testing is low.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a front and back to inserting link gear that synchronous side was inserted, adopts simple structure, when inserting the mechanism and doing forward (back) motion, thereby utilizes the bearing of fixing on the driven piece and the fixed block on the panel tangent drive side motion, thus the side also is inserting in step to the advantage of this link gear when just so realizing front and back to inserting: the action step of operation when having reduced the test has reduced structure occupation space again, simple structure moreover, and the operation is ingenious convenient, improves efficiency of software testing simultaneously, has also practiced thrift use cost greatly.

A front and back to inserting in the link gear that synchronous side was inserted, include: the device comprises a carrier plate, a first sliding block, a second sliding block, a first plug-in assembly, a second plug-in assembly, a fixed base plate, a carrier plate fixed block and a sliding rail;

the first sliding block is arranged at the front end of the carrier plate and is slidably mounted on the lower surface of the carrier plate, and the second sliding block is arranged at the rear end of the carrier plate and is slidably mounted on the lower surface of the carrier plate;

the carrier plate is provided with a first sliding groove and a second sliding groove, the first plug-in component is installed on the fixed bottom plate and arranged in the first sliding groove, and the second plug-in component is installed on the fixed bottom plate and arranged in the second sliding groove;

the support plate fixed block is installed on PMKD, and the slide rail setting is on the support plate fixed block, slide rail and support plate sliding connection.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, the support plate upper surface is equipped with the handle.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, still include: enclose the piece, be equipped with four on the support plate and enclose the piece, enclose the piece and be four corners distribution and form the mainboard fixed slot.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, the front end lower surface of support plate is equipped with two first sliders, and the rear end lower surface of support plate is equipped with two second sliders.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, first cut the subassembly to include: the first pair of plugs, the first bearing fixing block, the left plug fixing block, the first driven block, the first bearing and the first pulley guide block;

the first pair of plugs are mounted on the left plug fixing block, the left plug fixing block is connected with the first driven block, and the first driven block is mounted on the upper surface of the first bearing fixing block;

the first bearing fixing block is fixedly connected with the first sliding block.

The utility model discloses an in the link gear that synchronous side was inserted to inserting around, first bearing fixed block sets up on first pulley guide block, and first pulley guide block is installed on PMKD.

The utility model discloses an in the link gear that synchronous side was inserted to inserting around, be equipped with the first bearing spacing groove on the first pulley guide block, first bearing setting is in the first bearing spacing groove, and first bearing is connected with the first bearing fixed block.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, the second cut includes to cut the subassembly: the second pair of plugs, the right plug fixing block, the second driven block, the second bearing fixing block, the second bearing and the second pulley guide block are arranged on the left side of the right frame;

the second pair of plugs is arranged on the right plug fixing block, the right plug fixing block is connected with the second driven block, and the second driven block is arranged on the upper surface of the second bearing fixing block.

In the linkage mechanism for synchronous side insertion by front and back opposite insertion, a second bearing fixing block is arranged on a second pulley guide block, and the second pulley guide block is arranged on a fixing bottom plate;

and a second bearing limiting groove is formed in the second pulley guide block, the second bearing is arranged in the second bearing limiting groove, and the second bearing is connected with the second bearing fixing block.

The utility model discloses an in the link gear that synchronous side was inserted to front and back cut, second bearing fixed block and second slider fixed connection, the both sides at the second bearing fixed block are installed respectively to two second sliders that the support plate lower surface set up.

According to the above scheme the utility model discloses, its beneficial effect lies in, the utility model provides a link gear that synchronous side was inserted to inserting around, adopt simple structure, when doing forward (back) motion to inserting the mechanism, thereby utilize the bearing of fixing on the driven piece and the tangent drive side motion of fixed block on the panel, the side also is inserting in step, this link gear's advantage when just so realizing inserting around to the time of inserting: the action step of operation when having reduced the test has reduced structure occupation space again, simple structure moreover, and the operation is ingenious convenient, improves efficiency of software testing simultaneously, has also practiced thrift use cost greatly.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is an exploded view of a linkage mechanism for front-back opposite insertion and synchronous side insertion of the present invention;

fig. 2 is a perspective view of a linkage mechanism for synchronous side insertion by front and back insertion.

In the figure, 1, a carrier plate; 2. testing the main board; 3. a handle; 4. fixing the bottom plate; 5. a first pulley guide block; 6. a first bearing; 7. a first bearing fixing block; 8. a first follower block; 9. a left plug fixing block; 10. a right plug fixing block; 11. a support plate fixing block; 12. a slide rail; 13. enclosing blocks; 14. a second slider; 15. a first pair of plugs; 16. a second pair of plugs; 17. a second bearing fixing block; 18. a second pulley guide block; 19. a second bearing; 20. a second driven block; 21. a first slider.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a linkage mechanism for synchronous side insertion by front and back insertion comprises: the device comprises a carrier plate 1, a first slide block 21, a second slide block 14, a first pair of inserting components, a second pair of inserting components, a fixed bottom plate 4, a carrier plate fixed block 11 and a slide rail 12;

the first slide block 21 is arranged at the front end of the carrier plate 1 and is slidably mounted on the lower surface of the carrier plate 1, and the second slide block 14 is arranged at the rear end of the carrier plate 1 and is slidably mounted on the lower surface of the carrier plate 1;

the carrier plate 1 is provided with a first sliding chute and a second sliding chute, the first plug-in component is arranged on the fixed bottom plate 4 and arranged in the first sliding chute, and the second plug-in component is arranged on the fixed bottom plate 4 and arranged in the second sliding chute;

the carrier plate fixing block 11 is installed on the fixing base plate 4, the slide rail is arranged on the carrier plate fixing block 11, and the slide rail 12 is connected with the carrier plate 1 in a sliding manner.

Further, a handle 3 is arranged on the upper surface of the carrier plate 1.

Further, still include: enclose the piece 13, be equipped with four on the support plate 1 and enclose the piece 13, enclose the piece 13 and be the four corners distribution and form the mainboard fixed slot.

Furthermore, two first sliders 21 are disposed on the lower surface of the front end of the carrier 1, and two second sliders 14 are disposed on the lower surface of the rear end of the carrier 1.

Further, the first mating assembly includes: the first pair of plugs 15, the first bearing fixing block 7, the left plug fixing block 9, the first driven block 8, the first bearing 6 and the first pulley guide block 5;

the first pair of plugs 15 are mounted on the left plug fixing block 9, the left plug fixing block 9 is connected with the first driven block 8, and the first driven block 8 is mounted on the upper surface of the first bearing fixing block 7;

the first bearing fixing block 7 is fixedly connected with the first sliding block 21.

Further, the first bearing fixing block 7 is provided on the first pulley guide block 5, and the first pulley guide block 5 is installed on the fixing base plate 4.

Furthermore, a first bearing limiting groove is formed in the first pulley guide block 5, the first bearing 6 is arranged in the first bearing limiting groove, and the first bearing 6 is connected with the first bearing fixing block 7.

Further, the second docking assembly includes: the second pair of plugs 16, the right plug fixing block 10, the second driven block 20, the second bearing fixing block 17, the second bearing 19 and the second pulley guide block 18;

the second pair of plugs 16 is arranged on the right plug fixing block 10, the right plug fixing block 10 is connected with a second driven block 20, and the second driven block 20 is arranged on the upper surface of the second bearing fixing block 17.

Further, the second bearing fixing block 17 is arranged on a second pulley guide block 18, and the second pulley guide block 18 is installed on the fixing base plate 4;

and a second bearing limiting groove is formed in the second pulley guide block 18, a second bearing 19 is arranged in the second bearing limiting groove, and the second bearing 19 is connected with the second bearing fixing block 17.

Further, a second bearing fixing block 17 is fixedly connected with the second slide block 14, and the two second slide blocks 14 arranged on the lower surface of the carrier plate 1 are respectively installed on two sides of the second bearing fixing block 17.

Furthermore, when the opposite insertion operation is performed, the handle 3 is pushed forwards, the carrier plate 1 moves forwards, the first bearing fixing block 7 and the second bearing fixing block 17 move through the slide rail fixedly connected to the carrier plate through the slide block, so that the first bearing 6 and the second bearing 19 are driven to move, the bearings are tangent along the bearing limiting grooves of the pulley guide block, the driven block is driven to move left and right, and the first plug 15 and the second plug 16 fixed on the driven block also move left and right, so that the linked action of the front and back movement and the movement in the left and right directions is achieved.

The utility model provides a front and back is to inserting link gear that synchronous side was inserted adopts simple structure, and to inserting the mechanism when doing forward (back) motion, thereby utilize the bearing of fixing on the driven piece and the tangent drive side motion of fixed block on the panel, the side is also to inserting in step when just so having realized the front and back is to inserting, this link gear's advantage: the action step of operation when having reduced the test has reduced structure occupation space again, simple structure moreover, and the operation is ingenious convenient, improves efficiency of software testing simultaneously, has also practiced thrift use cost greatly.

Although the present invention has been described in connection with the above embodiments, the scope of the present invention is not limited thereto, and modifications, replacements, and the like to the above members are all within the scope of the claims of the present invention without departing from the concept of the present invention.

Claims (10)

1. The utility model provides a front and back to inserting link gear that synchronous side was inserted which characterized in that includes: the device comprises a carrier plate (1), a first sliding block (21), a second sliding block (14), a first inserting assembly, a second inserting assembly, a fixed base plate (4), a carrier plate fixed block (11) and a sliding rail (12);

the first sliding block (21) is arranged at the front end of the carrier plate (1) and is slidably mounted on the lower surface of the carrier plate (1), and the second sliding block (14) is arranged at the rear end of the carrier plate (1) and is slidably mounted on the lower surface of the carrier plate (1);

the carrier plate (1) is provided with a first sliding groove and a second sliding groove, the first plug-in component is mounted on the fixed bottom plate (4) and arranged in the first sliding groove, and the second plug-in component is mounted on the fixed bottom plate (4) and arranged in the second sliding groove;

the support plate fixing block (11) is installed on the fixing base plate (4), the slide rail is arranged on the support plate fixing block (11), and the slide rail (12) is connected with the support plate (1) in a sliding mode.

2. A front-back opposite-inserting synchronous side-inserting linkage mechanism according to claim 1, characterized in that a handle (3) is arranged on the upper surface of the carrier plate (1).

3. The front-rear opposite-insertion synchronous side-insertion linkage mechanism according to claim 1, further comprising: enclose piece (13), be equipped with four on support plate (1) enclose piece (13), enclose piece (13) and be four corners distribution and form the mainboard fixed slot.

4. A front-rear opposite-inserting synchronous side-inserting linkage mechanism according to claim 1, wherein the front lower surface of the carrier plate (1) is provided with two first sliding blocks (21), and the rear lower surface of the carrier plate (1) is provided with two second sliding blocks (14).

5. A front-to-back plug-in synchronous side plug-in linkage mechanism according to claim 1, wherein the first plug-in assembly comprises: the device comprises a first pair of plugs (15), a first bearing fixing block (7), a left plug fixing block (9), a first driven block (8), a first bearing (6) and a first pulley guide block (5);

the first pair of plugs (15) is mounted on the left plug fixing block (9), the left plug fixing block (9) is connected with the first driven block (8), and the first driven block (8) is mounted on the upper surface of the first bearing fixing block (7);

the first bearing fixing block (7) is fixedly connected with the first sliding block (21).

6. A front-back opposite-inserting synchronous side-inserting linkage mechanism according to claim 5, characterized in that the first bearing fixing block (7) is arranged on the first pulley guide block (5), and the first pulley guide block (5) is installed on the fixing bottom plate (4).

7. The front-back opposite-insertion synchronous side-insertion linkage mechanism according to claim 6, wherein a first bearing limiting groove is formed in the first pulley guide block (5), the first bearing (6) is arranged in the first bearing limiting groove, and the first bearing (6) is connected with the first bearing fixing block (7).

8. The front-rear opposite-insertion synchronous side-insertion linkage mechanism according to claim 4, wherein the second opposite-insertion assembly comprises: the second pair of plugs (16), a right plug fixing block (10), a second driven block (20), a second bearing fixing block (17), a second bearing (19) and a second pulley guide block (18);

the second pair of plugs (16) is mounted on the right plug fixing block (10), the right plug fixing block (10) is connected with the second driven block (20), and the second driven block (20) is mounted on the upper surface of the second bearing fixing block (17).

9. A front-rear opposite-insertion synchronous side-insertion linkage mechanism according to claim 8, wherein the second bearing fixing block (17) is arranged on the second pulley guide block (18), and the second pulley guide block (18) is installed on the fixing bottom plate (4);

and a second bearing limiting groove is formed in the second pulley guide block (18), the second bearing (19) is arranged in the second bearing limiting groove, and the second bearing (19) is connected with the second bearing fixing block (17).

10. The front-back opposite-inserting synchronous side-inserting linkage mechanism according to claim 8, wherein the second bearing fixing block (17) is fixedly connected with the second sliding blocks (14), and the two second sliding blocks (14) arranged on the lower surface of the carrier plate (1) are respectively installed on two sides of the second bearing fixing block (17).

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