CN204831908U - Push away tensile test device - Google Patents

Abstract

The utility model discloses a push away tensile test device, DLC is surveyed in fixing of can stabilizing, makes the test result accurate to can designate the test dynamics. A push away tensile test device, includes the base, the fixed structure is counted to the push -pull effort that is located on the base, fixes at push -pull effort meter fixed structure front end, fixes the push -pull effort meter that structure control can reciprocate by the push -pull effort meter, still includes the DLC fixed structure that is located on push -pull effort meter below, the base, the DLC fixed structure is including connecting on the base and the slidable slide rail, and slider with slide linkage's tetragonal body shape is located the clamp splice on the slider to and from the clamp splice top surface link up downwards the clamp splice and with the tight knob of clamp of slider spiro union. Compared with the prior art, DLC fixed structure centre gripping DLC is firm, and can vertical centre gripping also horizontal centre gripping, the push -pull effort meter of the numerical value that can show the push -pull effort still has, can fix the test dynamics, the experimental data accuracy.

Description

Device for testing push-pull force

Technical field

The utility model relates to a kind of cable quality laboratory proving installation, and particularly a kind of test electronic data cable connector can bear the device for testing push-pull force of how many external pressures or pulling force.

Background technology

In order to ensure the outgoing of electronic device data line, need to carry out Good Laboratory detection to electronic device data line, the lateral pressure that can need bear data cable connector or pulling force are measured, and need firm for measured object to be fixed on the base of proving installation in the process measured.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of device for testing push-pull force, can be firm fix measured data wire terminal, make test result accurate, and can nominative testing dynamics.

In order to solve the problems of the technologies described above, a kind of device for testing push-pull force of the utility model, comprise base, be positioned at the pull and push dynamometer fixed sturcture on base, be fixed on pull and push dynamometer fixed sturcture front end, pull and push dynamometer moving up and down is controlled by pull and push dynamometer fixed sturcture, described device for testing push-pull force also comprises and is positioned at below pull and push dynamometer, data cable connector fixed sturcture on base, described data cable connector fixed sturcture comprises and to be connected on base and slidably slide rail, the slide block of the tetragonal body shape be connected with slide rail, be positioned at the fixture block on slide block, and the clamping knob to be spirally connected from the downward through fixture block of fixture block end face and with slide block.

Edge, slide block upper surface front described in the utility model or back edge place are provided with low groove, described low groove and data cable connector grafting partial shape adaptation.

Low groove described in the utility model and data cable connector grafting part vertical time shape adaptation, described fixture block lower surface front along or back edge place be provided with upper groove, described upper groove and data cable connector grafting part transverse shapes adaptation.

The front edge of slide block upper surface described in the utility model is provided with low groove, thereafter edge is provided with rear low groove, the described front edge of fixture block lower surface is provided with upper groove, its back edge is provided with rear upper groove, described rear low groove and rear upper groove and low groove and the adaptive different data cable plug shape of upper groove.

Slide rail described in the utility model is strip, the bottom surface of described slide block is fixedly connected with one end of described slide rail end face, described slide rail is provided with the sliding-rail groove along slide rail length direction away from one end of slide block, described base is provided with the thumb screw be screwed onto after through sliding-rail groove on base.

Sliding-rail groove described in the utility model is two, and corresponding thumb screw is two.

Pull and push dynamometer described in the utility model comprises the push-pull effort device be fixedly connected with described pull and push dynamometer fixed sturcture, removably connect with push-pull effort device bottom, for pushing away measured object or drawing the pull bar of measured object, and be positioned at the dial plate on push-pull effort device front surface.

Pull and push dynamometer fixed sturcture described in the utility model comprise vertically stand on base, by two support bars and the fixed mount that formed by the crossbeam that two they sup-port rise, stand on base in the middle part of through crossbeam, vertically, outside surface has screw thread and rotatable screw rod, passed by support bar and screw rod and the trave lling girder be spirally connected with screw rod, described pull and push dynamometer is fixedly connected with trave lling girder front end simultaneously.

Screw tip described in the utility model is fixedly connected with the handwheel of annular, rotates handwheel and screw rod can be driven to rotate.

Device for testing push-pull force described in the utility model also comprises the hanging beam be erected at above pull and push dynamometer.

Compared with prior art, a kind of device for testing push-pull force of the utility model, having can the data cable connector fixed sturcture of movement on base, there is the slide block and fixture block that measured data wire terminal can be clamped, and the clamping knob that fixture block and slide block can be made after screwing to clamp, this data cable connector fixed sturcture clamping data cable connector is firm, and vertically can clamp and also can laterally clamp, also there is the pull and push dynamometer of the numerical value that can show push-pull effort, can fixing test dynamics, experimental data is accurate.

Accompanying drawing explanation

Fig. 1 is the utility model device for testing push-pull force front perspective view.

Fig. 2 is the utility model device for testing push-pull force rear perspective schematic diagram.

Fig. 3 data cable connector fixed sturcture front perspective view.

Fig. 4 data cable connector fixed sturcture rear perspective schematic diagram.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

As figure 1 ?shown in 4, a kind of device for testing push-pull force, whether quality requirements can be reached when being subject to lateral pressure or pulling force for test data wire terminal, described device for testing push-pull force comprises base 1, be positioned at the pull and push dynamometer fixed sturcture 2 on base 1, be fixed on pull and push dynamometer fixed sturcture 2 front end, pull and push dynamometer 3 moving up and down is controlled by pull and push dynamometer fixed sturcture 2, be erected at the hanging beam 5 above pull and push dynamometer 3, and be positioned at below pull and push dynamometer 3, the data cable connector fixed sturcture 4 for fixed data wire terminal on base 1, when test, data cable connector is fixed by usage data wire terminal fixed sturcture 4, then pull and push dynamometer fixed sturcture 2 is utilized to move down pull and push dynamometer 3 to the pressure of the data cable connector side direction be fixed, holding capacity with data cable connector tests the quality of this data cable connector, or measured object can be suspended on hanging beam 5 and to be fixedly connected with pull and push dynamometer 3, move down pull and push dynamometer 3, measured data wire terminal can be tested and bear pulling force.

As shown in Figure 3,4, described data cable connector fixed sturcture 4 comprises and to be connected on base 1 and slidably slide rail 41, the slide block 42 of the tetragonal body shape be connected with slide rail 41, be positioned at the fixture block 43 on slide block 42, and the clamping knob 44 to be spirally connected from the downward through fixture block 43 of fixture block 43 end face and with slide block 42, data cable plug can be clipped between slide block 42 and fixture block 43 when using, screw clamping knob 44 and can clamp data cable plug; Further in order to more firmly better data cable plug can be clamped, low groove 421 is provided with on edge, described slide block 42 upper surface front or back edge place, described low groove 421 is adaptive with data cable connector grafting partial shape, data cable plug is placed in low groove 421, then screws clamping knob 44 and fixture block 43 and slide block 42 are clamped.

In order to better test data line plug all directions bear downward pressure or to quality during upper pulling force, shape adaptation when described low groove 421 is designed to vertical with data cable connector grafting part, and be provided with upper groove 431 on edge, the lower surface front of described fixture block 43 or back edge place, described in this, upper groove 431 is adaptive with data cable connector grafting part transverse shapes, when described data cable plug inserts low groove 421 or upper groove 431, screw clamping knob 44 and slide block 42 and fixture block 43 can be made to be clamped by data cable plug.

In order to different data cable plugs can be tested, the front edge of described slide block 42 upper surface is set to low groove 421, thereafter edge is set to rear low groove 422, the front edge of described fixture block 43 lower surface is provided with upper groove 431, its back edge is provided with rear upper groove 432, described rear low groove 422 and rear upper groove 432 and low groove 421 and the adaptive different data cable plug shape (as shown in Figure 4) of upper groove 431, such as: the vertical shape of low groove 421 and upper groove 431 adaptive 8pin plug and transverse shapes, rear low groove 422 and the adaptive USB plug of rear upper groove 432 vertical.

The whole data cable connector fixed sturcture 4 of movement conveniently, the data cable plug that data cable connector fixed sturcture 4 is clamped well can coordinate with the pull and push dynamometer 3 above it to be tested, described slide rail 41 is designed to strip, the bottom surface of described slide block 42 is fixedly connected with one end of described slide rail 41 end face, described slide rail 41 is provided with the sliding-rail groove 411 along slide rail 41 length direction away from one end of slide block 42, described base 1 is provided with the thumb screw 412 be screwed onto after through sliding-rail groove 411 on base 1, unscrewing thumb screw 412 can make slide rail 41 slide along sliding-rail groove 411, slide rail 41 can be fixed on base 1 after screwing thumb screw 412.Further more stable in order to what fixed by slide rail 41, described sliding-rail groove 411 can be designed to two, corresponding thumb screw 412 is two.

Described pull and push dynamometer 3 comprises the push-pull effort device 32 be fixedly connected with described pull and push dynamometer fixed sturcture 2, removably connect with push-pull effort device 32 bottom, for pushing away measured object or drawing the pull bar 31 of measured object, and the dial plate 33 be positioned on push-pull effort device 32 front surface, when concrete test, such as: data cable connector compressive resistance is tested, tested data cable connector grafting part is fixed on data cable connector fixed sturcture 4, mobile pull and push dynamometer fixed sturcture 2 makes pull and push dynamometer 3 move down, make the outsourcing part contact of pull bar 31 and tested data cable connector, according to the pressure of the numerical value display adjustment pull and push dynamometer 3 of dial plate 33.

Described pull and push dynamometer fixed sturcture 2 comprise vertically stand on base 1, by two support bars 211 and the fixed mount 21 that formed by the crossbeam 212 that two support bars 211 support, stand on base 1 in the middle part of through crossbeam 212, vertically, outside surface has screw thread and rotatable screw rod 22, passed by support bar 211 and screw rod 22 and the trave lling girder 23 be spirally connected with screw rod 22, described pull and push dynamometer 3 is fixedly connected with trave lling girder 23 front end simultaneously; Tell the handwheel 221 that screw rod 22 top is fixedly connected with annular, rotate handwheel 221 screw rod 22 can be driven to rotate.By the rotation of screw rod 22 can drive trave lling girder 23 on move or move down, and then drive be fixed on trave lling girder 23 front end pull and push dynamometer 3 on move or move down.

Claims (10)

1. a device for testing push-pull force, comprise base (1), be positioned at the pull and push dynamometer fixed sturcture (2) on base (1), be fixed on pull and push dynamometer fixed sturcture (2) front end, pull and push dynamometer moving up and down (3) is controlled by pull and push dynamometer fixed sturcture (2), it is characterized in that: described device for testing push-pull force also comprise be positioned at pull and push dynamometer (3) below, data cable connector fixed sturcture (4) on base (1), described data cable connector fixed sturcture (4) comprises and is connected to the upper and slidably slide rail (41) of base (1), the slide block (42) of the tetragonal body shape be connected with slide rail (41), be positioned at the fixture block (43) on slide block (42), and the clamping knob (44) to be spirally connected from the downward through fixture block (43) of fixture block (43) end face and with slide block (42).

2. device for testing push-pull force according to claim 1, it is characterized in that: edge, described slide block (42) upper surface front or back edge place are provided with low groove (421), and described low groove (421) is adaptive with data cable connector grafting partial shape.

3. device for testing push-pull force according to claim 2, it is characterized in that: shape adaptation when described low groove (421) is vertical with data cable connector grafting part, edge, described fixture block (43) lower surface front or back edge place are provided with upper groove (431), and described upper groove (431) is adaptive with data cable connector grafting part transverse shapes.

4. device for testing push-pull force according to claim 3, it is characterized in that: the front edge of described slide block (42) upper surface is provided with low groove (421), thereafter edge is provided with rear low groove (422), the front edge of described fixture block (43) lower surface is provided with upper groove (431), its back edge is provided with rear upper groove (432), described rear low groove (422) and rear upper groove (432) and low groove (421) and the adaptive different data cable plug shape of upper groove (431).

5. device for testing push-pull force according to claim 4, it is characterized in that: described slide rail (41) is strip, the bottom surface of described slide block (42) is fixedly connected with one end of described slide rail (41) end face, described slide rail (41) is provided with the sliding-rail groove (411) along slide rail (41) length direction away from one end of slide block (42), described base (1) is provided with the thumb screw (412) through being screwed onto after sliding-rail groove (411) on base (1).

6. device for testing push-pull force according to claim 5, is characterized in that: described sliding-rail groove (411) is two, and corresponding thumb screw (412) is two.

7. device for testing push-pull force according to claim 1, it is characterized in that: described pull and push dynamometer (3) comprises the push-pull effort device (32) be fixedly connected with described pull and push dynamometer fixed sturcture (2), removably connect with push-pull effort device (32) bottom, for pushing away measured object or drawing the pull bar (31) of measured object, and be positioned at the dial plate (33) on push-pull effort device (32) front surface.

8. device for testing push-pull force according to claim 1, it is characterized in that: described pull and push dynamometer fixed sturcture (2) comprises and vertically stands on base (1), by two support bars (211) and the fixed mount (21) that formed by the crossbeam (212) that two support bars (211) support, through crossbeam (212) middle part, vertically stand on base (1), outside surface has screw thread and rotatable screw rod (22), passed by support bar (211) and screw rod (22) and the trave lling girder (23) be spirally connected with screw rod (22) simultaneously, described pull and push dynamometer (3) is fixedly connected with trave lling girder (23) front end.

9. device for testing push-pull force according to claim 8, it is characterized in that: described screw rod (22) top is fixedly connected with the handwheel (221) of annular, rotate handwheel (221) and screw rod (22) can be driven to rotate.

10. device for testing push-pull force according to claim 1, is characterized in that: described device for testing push-pull force also comprises the hanging beam (5) being erected at pull and push dynamometer (3) top.