CN211504985U - Clamp structure for connector test - Google Patents

Abstract

The utility model discloses a fixture structure for connector testing, wherein a left side mounting vertical plate and a right side mounting vertical plate are screwed on the upper surface of a fixed bottom plate, a left side clamping component and a right side clamping component are arranged between the left side mounting vertical plate and the right side mounting vertical plate, a connector placing block is screwed on the upper surface of the fixed bottom plate between the left side clamping component and the right side clamping component, and a connector placing groove is arranged on the upper surface of the connector placing block; the left and right clamping assemblies respectively comprise a movable block, a small-diameter clamping block, an upper end spring, a large-diameter clamping block, a lower end spring and a baffle plate; vertical plate threaded holes are formed in the left side installation vertical plate and the right side installation vertical plate respectively, and driving screws used for driving the movable blocks on the corresponding sides are installed in the vertical plate threaded holes of the left side installation vertical plate and the right side installation vertical plate in a threaded mode respectively. Through the structure design, the utility model has the advantages of structural design is novel, centre gripping reliable and stable nature is good.

Description

Clamp structure for connector test

Technical Field

The utility model relates to a connector production processingequipment technical field especially relates to a connector test is with anchor clamps structure.

Background

In order to ensure the reliability and stability of the connector during use and fitting, the connector needs to be subjected to a drawing force test after the connector is produced.

When the connector is subjected to a drawing force test, the connector needs to be clamped and fixed through a corresponding clamp. Among them, there are various connector test jigs in the prior art; however, the conventional fixture for testing the connector generally has the defects of poor clamping stability and reliability, and is easy to be separated from the fixture when the connector is pulled out.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a connector test is with anchor clamps structure to the not enough of prior art, this connector test is with anchor clamps structural design is novel, centre gripping reliable and stable nature is good.

In order to achieve the above purpose, the present invention is achieved by the following technical solutions.

A clamp structure for connector testing comprises a fixed base plate, wherein a left side installation vertical plate and a right side installation vertical plate are screwed on the upper surface of the fixed base plate, the left side installation vertical plate is positioned on the left end side of the right side installation vertical plate, and the left side installation vertical plate and the right side installation vertical plate are arranged right and left oppositely at intervals; a left clamping assembly and a right clamping assembly are arranged between the left mounting vertical plate and the right mounting vertical plate on the upper end side of the fixed bottom plate, the left clamping assembly is positioned on the left end side of the right clamping assembly, the left clamping assembly and the right clamping assembly are arranged at intervals, a connector placing block is screwed between the left clamping assembly and the right clamping assembly on the upper surface of the fixed bottom plate, and a connector placing groove is formed in the upper surface of the connector placing block;

the left clamping assembly comprises a left movable block, the left movable block is provided with a left upper end through hole and a left lower end through hole which are respectively and completely penetrated left and right, a left small-diameter clamping block and a left upper end spring positioned on the left end side of the left small-diameter clamping block are embedded in the left upper end through hole, the right end part of the left small-diameter clamping block protrudes out of the right surface of the left movable block, and the right end part of the left upper end spring is abutted against the left end surface of the left small-diameter clamping block; a left large-diameter clamping block and a left lower end spring positioned on the left end side of the left large-diameter clamping block are embedded in the left lower end through hole, the right end part of the left large-diameter clamping block protrudes out of the right surface of the left movable block, and the right end part of the left lower end spring is abutted against the left end surface of the left large-diameter clamping block; the left surface of the left movable block is provided with a left baffle in a threaded manner, and the left end part of the left upper end spring and the left end part of the left lower end spring are respectively abutted against the left baffle;

the right side clamping assembly comprises a right side movable block, the right side movable block is provided with a right side upper end through hole and a right side lower end through hole which are respectively and completely penetrated left and right, a right side small-diameter clamping block and a right side upper end spring positioned on the right side end side of the right side small-diameter clamping block are embedded in the right side upper end through hole, the left end part of the right side small-diameter clamping block protrudes out of the left surface of the right side movable block, the right side small-diameter clamping block is arranged opposite to the left side small-diameter clamping block, and the left end part of the right side; a right large-diameter clamping block and a right lower end spring positioned on the right end side of the right large-diameter clamping block are embedded in the right lower end through hole, the left end part of the right large-diameter clamping block protrudes out of the left surface of the right movable block, the right large-diameter clamping block is arranged opposite to the left large-diameter clamping block, and the left end part of the right lower end spring is abutted against the right end surface of the right large-diameter clamping block; the right surface of the right movable block is provided with a right baffle in a threaded manner, and the right end part of the right upper end spring and the right end part of the right lower end spring are respectively abutted against the right baffle;

the left mounting vertical plate is provided with a left vertical plate threaded hole which completely penetrates left and right, a left driving screw rod is screwed in the left vertical plate threaded hole, the left end part of the left driving screw rod extends to the left end side of the left mounting vertical plate, the right end part of the left driving screw rod extends to the right end side of the left mounting vertical plate, and the right end part of the left driving screw rod is connected with the left baffle; the right side riser screw hole that runs through about the right side installation riser is seted up, and right side drive screw is equipped with to right side riser screw hole internal screw, and right side drive screw's right-hand member portion extends to the right side of right side installation riser distolaterally, and right side drive screw's left end portion extends to the left end side of right side installation riser and the left end portion of right side drive screw is connected with the right side baffle.

The right end face of the left small-diameter clamping block is provided with a left small-diameter clamping V-shaped groove, and the left end face of the right small-diameter clamping block is provided with a right small-diameter clamping V-shaped groove.

The right end face of the left large-diameter clamping block is provided with a left large-diameter clamping V-shaped groove, and the left end face of the right large-diameter clamping block is provided with a right large-diameter clamping V-shaped groove.

The left baffle is provided with a left connecting block corresponding to the left driving screw in a threaded manner, and the right end of the left driving screw can be sleeved and clamped on the left connecting block in a relatively rotatable manner.

The right baffle is provided with a right connecting block corresponding to the right driving screw in a threaded manner, and the left end part of the right driving screw can be sleeved and clamped on the right connecting block in a relatively rotatable manner.

The left end of the left driving screw is screwed with a left fixing block, and a left handle is clamped between the left fixing block and the left driving screw.

The right end of the right driving screw is screwed with a right fixing block, and a right handle is clamped between the right fixing block and the right driving screw.

The upper surface of the fixed bottom plate is provided with a left dovetail guide rail horizontally extending along the left-right direction in a threaded manner at the lower end side of the left movable block, a left dovetail groove is formed in the lower end part of the left movable block, and the left dovetail guide rail is embedded in the left dovetail groove of the left movable block.

The upper surface of the fixed bottom plate is screwed with a right dovetail guide rail horizontally extending along the left-right direction on the lower end side of the right movable block, a right dovetail groove is formed in the lower end part of the right movable block, and the right dovetail guide rail is embedded in the right dovetail groove of the right movable block.

The utility model has the advantages that: the utility model relates to a fixture structure for connector testing, which comprises a fixed bottom plate, wherein the upper surface of the fixed bottom plate is provided with a left side installation vertical plate and a right side installation vertical plate in a screw manner, the left side installation vertical plate is positioned at the left end side of the right side installation vertical plate, and the left side installation vertical plate and the right side installation vertical plate are arranged right and left at intervals; a left clamping assembly and a right clamping assembly are arranged between the left mounting vertical plate and the right mounting vertical plate on the upper end side of the fixed bottom plate, the left clamping assembly is positioned on the left end side of the right clamping assembly, the left clamping assembly and the right clamping assembly are arranged at intervals, a connector placing block is screwed between the left clamping assembly and the right clamping assembly on the upper surface of the fixed bottom plate, and a connector placing groove is formed in the upper surface of the connector placing block; the left clamping assembly comprises a left movable block, the left movable block is provided with a left upper end through hole and a left lower end through hole which are respectively and completely penetrated left and right, a left small-diameter clamping block and a left upper end spring positioned on the left end side of the left small-diameter clamping block are embedded in the left upper end through hole, the right end part of the left small-diameter clamping block protrudes out of the right surface of the left movable block, and the right end part of the left upper end spring is abutted against the left end surface of the left small-diameter clamping block; a left large-diameter clamping block and a left lower end spring positioned on the left end side of the left large-diameter clamping block are embedded in the left lower end through hole, the right end part of the left large-diameter clamping block protrudes out of the right surface of the left movable block, and the right end part of the left lower end spring is abutted against the left end surface of the left large-diameter clamping block; the left surface of the left movable block is provided with a left baffle in a threaded manner, and the left end part of the left upper end spring and the left end part of the left lower end spring are respectively abutted against the left baffle; the right side clamping assembly comprises a right side movable block, the right side movable block is provided with a right side upper end through hole and a right side lower end through hole which are respectively and completely penetrated left and right, a right side small-diameter clamping block and a right side upper end spring positioned on the right side end side of the right side small-diameter clamping block are embedded in the right side upper end through hole, the left end part of the right side small-diameter clamping block protrudes out of the left surface of the right side movable block, the right side small-diameter clamping block is arranged opposite to the left side small-diameter clamping block, and the left end part of the right side; a right large-diameter clamping block and a right lower end spring positioned on the right end side of the right large-diameter clamping block are embedded in the right lower end through hole, the left end part of the right large-diameter clamping block protrudes out of the left surface of the right movable block, the right large-diameter clamping block is arranged opposite to the left large-diameter clamping block, and the left end part of the right lower end spring is abutted against the right end surface of the right large-diameter clamping block; the right surface of the right movable block is provided with a right baffle in a threaded manner, and the right end part of the right upper end spring and the right end part of the right lower end spring are respectively abutted against the right baffle; the left mounting vertical plate is provided with a left vertical plate threaded hole which completely penetrates left and right, a left driving screw rod is screwed in the left vertical plate threaded hole, the left end part of the left driving screw rod extends to the left end side of the left mounting vertical plate, the right end part of the left driving screw rod extends to the right end side of the left mounting vertical plate, and the right end part of the left driving screw rod is connected with the left baffle; the right side riser screw hole that runs through about the right side installation riser is seted up, and right side drive screw is equipped with to right side riser screw hole internal screw, and right side drive screw's right-hand member portion extends to the right side of right side installation riser distolaterally, and right side drive screw's left end portion extends to the left end side of right side installation riser and the left end portion of right side drive screw is connected with the right side baffle. Through the structure design, the utility model has the advantages of structural design is novel, centre gripping reliable and stable nature is good.

Drawings

The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

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

In fig. 1, included are:

1-fixed bottom plate 21-left side mounting vertical plate

211-left riser threaded hole 22-right mounting riser

221-right vertical plate threaded hole 31-left clamping component

311-left movable block 3111-left upper through hole

3112 left lower through hole 3113 left dovetail groove

312-left minor-diameter clamping block 3121-left minor-diameter clamping V-shaped groove

313-left upper end spring 314-left large diameter clamping block

3141 left large diameter holding V-groove 315 left lower end spring

316-left baffle 32-right clamping assembly

321-right movable block 3211-right upper through hole

3212 right lower through hole 3213 right dovetail groove

322-right small-diameter clamping block 3221-right small-diameter clamping V-shaped groove

323 right upper end spring 324 right large diameter holding block

3241 right large diameter clamping V-groove 325 right lower end spring

326-Right baffle 4-connector Placement Block

41-connector accommodation groove 51-left side drive screw

52-right drive screw 61-left connecting block

62-right connecting block 71-left fixing block

72-right side fixed block 81-left side handle

82-right handle 91-left dovetail guide

92-right dovetail rail.

Detailed Description

The present invention will be described with reference to specific embodiments.

As shown in fig. 1, a fixture structure for connector testing comprises a fixed base plate 1, wherein a left installation vertical plate 21 and a right installation vertical plate 22 are screwed on the upper surface of the fixed base plate 1, the left installation vertical plate 21 is positioned at the left end side of the right installation vertical plate 22, and the left installation vertical plate 21 and the right installation vertical plate 22 are arranged in a manner of right-left facing and spacing; the upper end side of the fixed base plate 1 is provided with a left clamping component 31 and a right clamping component 32 between a left installation vertical plate 21 and a right installation vertical plate 22, the left clamping component 31 is positioned at the left end side of the right clamping component 32, the left clamping component 31 and the right clamping component 32 are arranged at intervals, the upper surface of the fixed base plate 1 is provided with a connector placing block 4 between the left clamping component 31 and the right clamping component 32, and the connector placing groove 41 is formed in the upper surface of the connector placing block 4.

The left clamping assembly 31 comprises a left movable block 311, the left movable block 311 is provided with a left upper end through hole 3111 and a left lower end through hole 3112 which are completely penetrated left and right respectively, a left small-diameter clamping block 312 and a left upper end spring 313 which is positioned on the left end side of the left small-diameter clamping block 312 are embedded in the left upper end through hole 3111, the right end part of the left small-diameter clamping block 312 protrudes out of the right surface of the left movable block 311, and the right end part of the left upper end spring 313 is abutted to the left end surface of the left small-diameter clamping block 312; a left large-diameter clamping block 314 and a left lower end spring 315 positioned on the left end side of the left large-diameter clamping block 314 are embedded in the left lower end through hole 3112, the right end part of the left large-diameter clamping block 314 protrudes out of the right surface of the left movable block 311, and the right end part of the left lower end spring 315 is abutted against the left end surface of the left large-diameter clamping block 314; a left stopper 316 is screwed to the left surface of the left movable block 311, and the left end of the left upper end spring 313 and the left end of the left lower end spring 315 are respectively abutted against the left stopper 316.

Further, the right clamping assembly 32 comprises a right movable block 321, the right movable block 321 is provided with a right upper end through hole 3211 and a right lower end through hole 3212 which are completely penetrated left and right, a right small-diameter clamping block 322 and a right upper end spring 323 which is positioned on the right end side of the right small-diameter clamping block 322 are embedded in the right upper end through hole 3211, the left end of the right small-diameter clamping block 322 protrudes out of the left surface of the right movable block 321, the right small-diameter clamping block 322 is arranged opposite to the left small-diameter clamping block 312, and the left end of the right upper end spring 323 is abutted to the right end surface of the right small-diameter clamping block 322; a right large-diameter clamping block 324 and a right lower end spring 325 positioned on the right end side of the right large-diameter clamping block 324 are embedded in the right lower end through hole 3212, the left end part of the right large-diameter clamping block 324 protrudes out of the left surface of the right movable block 321, the right large-diameter clamping block 324 is arranged opposite to the left large-diameter clamping block 314, and the left end part of the right lower end spring 325 is abutted against the right end surface of the right large-diameter clamping block 324; a right baffle 326 is screwed to the right surface of the right movable block 321, and the right end of the right upper end spring 323 and the right end of the right lower end spring 325 are respectively abutted against the right baffle 326.

Furthermore, the left mounting vertical plate 21 is provided with a left vertical plate threaded hole 211 which completely penetrates left and right, a left driving screw 51 is screwed in the left vertical plate threaded hole 211, the left end part of the left driving screw 51 extends to the left end side of the left mounting vertical plate 21, the right end part of the left driving screw 51 extends to the right end side of the left mounting vertical plate 21, and the right end part of the left driving screw 51 is connected with the left baffle 316; the right side installation riser 22 is seted up and is controlled the right side riser screw hole 221 that runs through completely, and right side drive screw 52 is equipped with to right side riser screw hole 221 internal screw, and the right end of right side drive screw 52 extends to the right-hand member side of right side installation riser 22, and the left end of right side drive screw 52 extends to the left end side of right side installation riser 22 and the left end of right side drive screw 52 is connected with right side baffle 326.

It should be explained that the right end surface of the left small-diameter clamping block 312 is provided with a left small-diameter clamping V-shaped groove 3121, and the left end surface of the right small-diameter clamping block 322 is provided with a right small-diameter clamping V-shaped groove 3221; similarly, the right end surface of the left large-diameter clamping block 314 is provided with a left large-diameter clamping V-shaped groove 3141, and the left end surface of the right large-diameter clamping block 324 is provided with a right large-diameter clamping V-shaped groove 3241.

In addition, the left baffle 316 is screwed with the left connecting block 61 corresponding to the left driving screw 51, and the right end of the left driving screw 51 is sleeved and clamped on the left connecting block 61 in a relatively rotatable manner; similarly, the right baffle 326 is screwed with the right connecting block 62 corresponding to the right driving screw 52, and the left end of the right driving screw 52 is relatively rotatably sleeved on the right connecting block 62.

A left fixing block 71 is screwed at the left end of the left driving screw 51, and a left handle 81 is clamped between the left fixing block 71 and the left driving screw 51; similarly, a right fixing block 72 is screwed on the right end of the right driving screw 52, and a right handle 82 is clamped between the right fixing block 72 and the right driving screw 52.

For guaranteeing that the left movable block 311 steadily and reliably moves left and right, the utility model discloses a following structural design, it is concrete: a left dovetail guide 91 extending horizontally in the left-right direction is screwed to the lower end side of the left movable block 311 on the upper surface of the fixed base plate 1, a left dovetail groove 3113 is formed in the lower end portion of the left movable block 311, and the left dovetail guide 91 is fitted into the left dovetail groove 3113 of the left movable block 311. Equally, for guaranteeing that right side movable block 321 steadily moves about reliably, the utility model discloses a following structural design, it is concrete: a right dovetail guide rail 92 horizontally extending in the left-right direction is screwed to the lower end side of the right movable block 321 on the upper surface of the fixed base plate 1, a right dovetail groove 3213 is formed in the lower end portion of the right movable block 321, and the right dovetail guide rail 92 is fitted into the right dovetail groove 3213 of the right movable block 321.

In the working process of the utility model, a worker inserts the connector to be tested into the connector placing groove 41 of the connector placing block 4, and the connector placing block 4 positions the connector to be tested through the connector placing groove 41; after the connector is inserted into the connector placing groove 41 of the connector placing block 4, a worker rotates the left driving screw 51 through the left handle 81 and rotates the right driving screw 52 through the right handle 82, the rotated left driving screw 51 moves towards the right relative to the left installation vertical plate 21 and pushes the left movable block 311 to move towards the right, the rotated right driving screw 52 moves towards the left relative to the right installation vertical plate 22 and pushes the right movable block 321 to move towards the left, in the process, the left small-diameter clamping block 312 and the right small-diameter clamping block 322 gradually approach and clamp the small-diameter section of the connector, the left large-diameter clamping block 314 and the right large-diameter clamping block 324 gradually approach and clamp the large-diameter section of the connector, and when the left movable block 311 and the right movable block 321 move in place, the left small-diameter clamping block 312 and the right small-diameter clamping block 322 are arranged on the left upper end spring 313, the right upper end, the left upper end spring and the right, The small diameter section of the connector is clamped by the elastic force of the right upper end through hole 3211, and the large diameter sections of the connector are clamped by the left large diameter clamping block 314 and the right large diameter clamping block 324 by the elastic force of the left lower end spring 315 and the right lower end spring 325 on the corresponding sides.

It should be pointed out that, the utility model discloses a left side path grip block 312 cooperatees with right side path grip block 322 and is used for pressing from both sides tight fixed connector's path section, the utility model discloses a big footpath grip block 314 in left side matches with the big footpath grip block 324 in right side and merges the big footpath section of pressing from both sides tight fixed connector, promptly the utility model discloses can apply the centre gripping effort to the big footpath section of connector, path section simultaneously, connector centre gripping stable reliability is good promptly. Additionally, because the utility model discloses segmentation centre gripping connector, this centre gripping mode can avoid the connector to deviate from anchor clamps when the drawing force tests effectively.

Synthesize the above-mentioned condition and know, through above-mentioned structural design, the utility model has the advantages of structural design is novel, centre gripping reliable and stable nature is good.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. The utility model provides a fixture structure is used in connector test which characterized in that: the device comprises a fixed base plate (1), wherein a left side installation vertical plate (21) and a right side installation vertical plate (22) are screwed on the upper surface of the fixed base plate (1), the left side installation vertical plate (21) is positioned at the left end side of the right side installation vertical plate (22), and the left side installation vertical plate (21) and the right side installation vertical plate (22) are arranged in a left-right opposite spacing mode; a left clamping assembly (31) and a right clamping assembly (32) are arranged between the left mounting vertical plate (21) and the right mounting vertical plate (22) on the upper end side of the fixed bottom plate (1), the left clamping assembly (31) is positioned on the left end side of the right clamping assembly (32), the left clamping assembly (31) and the right clamping assembly (32) are arranged at intervals, a connector placing block (4) is arranged between the left clamping assembly (31) and the right clamping assembly (32) on the upper surface of the fixed bottom plate (1) in a screwed mode, and a connector placing groove (41) is formed in the upper surface of the connector placing block (4);

the left clamping assembly (31) comprises a left movable block (311), the left movable block (311) is provided with a left upper end through hole (3111) and a left lower end through hole (3112) which are respectively penetrated left and right completely, a left small-diameter clamping block (312) and a left upper end spring (313) positioned on the left end side of the left small-diameter clamping block (312) are embedded in the left upper end through hole (3111), the right end part of the left small-diameter clamping block (312) protrudes out of the right surface of the left movable block (311), and the right end part of the left upper end spring (313) is abutted to the left end surface of the left small-diameter clamping block (312); a left large-diameter clamping block (314) and a left lower end spring (315) positioned on the left end side of the left large-diameter clamping block (314) are embedded in the left lower end through hole (3112), the right end part of the left large-diameter clamping block (314) protrudes out of the right surface of the left movable block (311), and the right end part of the left lower end spring (315) is abutted against the left end surface of the left large-diameter clamping block (314); a left baffle (316) is screwed on the left surface of the left movable block (311), and the left end part of the left upper end spring (313) and the left end part of the left lower end spring (315) are respectively abutted against the left baffle (316);

the right clamping assembly (32) comprises a right movable block (321), the right movable block (321) is provided with a right upper end through hole (3211) and a right lower end through hole (3212) which are respectively and completely penetrated left and right, a right small-diameter clamping block (322) and a right upper end spring (323) located on the right side of the right small-diameter clamping block (322) are embedded in the right upper end through hole (3211), the left end of the right small-diameter clamping block (322) protrudes out of the left surface of the right movable block (321), the right small-diameter clamping block (322) is arranged opposite to the left small-diameter clamping block (312), and the left end of the right upper end spring (323) is abutted to the right end surface of the right small-diameter clamping block (322); a right large-diameter clamping block (324) and a right lower end spring (325) positioned on the right side end side of the right large-diameter clamping block (324) are embedded in the right lower end through hole (3212), the left end part of the right large-diameter clamping block (324) protrudes out of the left surface of the right movable block (321), the right large-diameter clamping block (324) is arranged opposite to the left large-diameter clamping block (314), and the left end part of the right lower end spring (325) is abutted to the right end surface of the right large-diameter clamping block (324); a right baffle (326) is screwed on the right surface of the right movable block (321), and the right end part of the right upper end spring (323) and the right end part of the right lower end spring (325) are respectively abutted against the right baffle (326);

the left mounting vertical plate (21) is provided with a left vertical plate threaded hole (211) which completely penetrates left and right, a left driving screw (51) is screwed in the left vertical plate threaded hole (211), the left end part of the left driving screw (51) extends to the left end side of the left mounting vertical plate (21), the right end part of the left driving screw (51) extends to the right end side of the left mounting vertical plate (21), and the right end part of the left driving screw (51) is connected with a left baffle (316); the right side riser screw hole (221) that runs through about completely is seted up to right side installation riser (22), and right side drive screw (52) are equipped with to right side riser screw hole (221) internal screw, and the right-hand member portion of right side drive screw (52) extends to the right-hand member side of right side installation riser (22), and the left end portion of right side drive screw (52) extends to the left end side of right side installation riser (22) and the left end portion of right side drive screw (52) is connected with right side baffle (326).

2. The jig structure for connector testing according to claim 1, wherein: the right end face of the left small-diameter clamping block (312) is provided with a left small-diameter clamping V-shaped groove (3121), and the left end face of the right small-diameter clamping block (322) is provided with a right small-diameter clamping V-shaped groove (3221).

3. The jig structure for connector testing according to claim 1, wherein: the right end face of the left large-diameter clamping block (314) is provided with a left large-diameter clamping V-shaped groove (3141), and the left end face of the right large-diameter clamping block (324) is provided with a right large-diameter clamping V-shaped groove (3241).

4. The jig structure for connector testing according to claim 1, wherein: the left baffle (316) is provided with a left connecting block (61) corresponding to the left driving screw (51) in a threaded manner, and the right end part of the left driving screw (51) can be sleeved and clamped on the left connecting block (61) in a relatively rotatable manner.

5. The jig structure for connector testing according to claim 1, wherein: the right baffle (326) is provided with a right connecting block (62) corresponding to the right driving screw (52) in a threaded manner, and the left end part of the right driving screw (52) can be sleeved and clamped on the right connecting block (62) in a relatively rotatable manner.

6. The jig structure for connector testing according to claim 1, wherein: the left end part of the left driving screw rod (51) is screwed with a left fixing block (71), and a left handle (81) is clamped between the left fixing block (71) and the left driving screw rod (51).

7. The jig structure for connector testing according to claim 1, wherein: the right end part of the right driving screw rod (52) is screwed with a right fixing block (72), and a right handle (82) is clamped between the right fixing block (72) and the right driving screw rod (52).

8. The jig structure for connector testing according to claim 1, wherein: the upper surface of PMKD (1) in the lower extreme side spiral shell of left side movable block (311) is equipped with along left and right sides horizontally extending's left side forked tail guide rail (91), and left side dovetail groove (3113) have been seted up to the lower tip of left side movable block (311), and left side forked tail guide rail (91) inlays and adorns in left side dovetail groove (3113) of left side movable block (311).

9. The jig structure for connector testing according to claim 1, wherein: the upper surface of the fixed bottom plate (1) is provided with a right dovetail guide rail (92) horizontally extending along the left-right direction in a threaded manner at the lower end side of the right movable block (321), the lower end part of the right movable block (321) is provided with a right dovetail groove (3213), and the right dovetail guide rail (92) is embedded in the right dovetail groove (3213) of the right movable block (321).

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