CN208653692U - A kind of full-automatic plug force tester - Google Patents

Abstract

The utility model discloses a kind of full-automatic plug force testers, aim to solve the problem that the not high problem of inefficiency, precision, its key points of the technical solution are that including the workbench for placing the fixture of clamping connector, the test probe for testing the connector and the driving assembly for driving the test probe to move along the vertical direction, reach high efficiency, high-precision purpose.

Description

A kind of full-automatic plug force tester

Technical field

The utility model relates to connector detection technique, in particular to a kind of full-automatic plug force tester.

Background technique

Be equipped with connector on the connecting lines such as earphone cable, data line and power supply line, connector be also known as used as connector, Plug and socket, carried out again after usually clamping clamp for connector during manufacturing connector contact engaging and separating force detection with Guarantee that product is qualified, existing contact engaging and separating force test is mainly carried out by artificial, not only inefficiency but also precision is not high.

Utility model content

The purpose of the utility model is to provide a kind of full-automatic plug force testers, can be improved connector and carry out contact engaging and separating force Efficiency and precision when detection.

The above-mentioned technical purpose of the utility model has the technical scheme that

A kind of full-automatic plug force tester, workbench including the fixture for placing clamping connector, for testing The test of the connector is popped one's head in and the driving assembly for driving the test probe to move along the vertical direction.

Using the above scheme, after connector is placed on fixture, start driving assembly with drive test probe it is close or Far from connector, contact engaging and separating force test can be carried out to connector after testing probe contacts to connector, tested in this way Efficiency and the efficiency manually tested of ratio of precision and precision it is higher.

Preferably, the driving component includes the first sliding block moved along the vertical direction, is set on the workbench And the first power source for the first mobile guide rail of the first sliding block and for driving first sliding block mobile, described first is sliding The both ends of block, which are equipped with, extends first guide rail and the first sliding part for fixing the test probe.

Using the above scheme, start the first power source to drive the first sliding block to slide along vertical direction on guide rail, make The first sliding part being fixedly connected with the first sliding block drives test probe to move along the vertical direction, so that test probe is close Or far from connector, this structure is simple, easily operated.

Preferably, being additionally provided between first sliding part and test probe for driving the test probe to exist The mobile regulating device of horizontal direction.

Using the above scheme, test probe position in the horizontal direction is adjusted by regulating device, so as to further The distance between test probe and connector are adjusted, increases the precision of test, this structure is simple, practical.

Preferably, the regulating device includes the fixed block for being symmetrically disposed on the first sliding part two sides, set on described solid Determine between block and with the threaded rod of fixed block rotation connection and for fixed test probe and be set on threaded rod with spiral shell The thread bush that rasp bar is threadedly coupled rotates threaded rod to drive the thread bush to move in the horizontal direction.

Using the above scheme, since threaded rod is rotatablely connected with fixed block and is threadedly coupled with thread bush, when rotation spiral shell When rasp bar, threaded rod keeps rotary state and thread bush is driven to move horizontally between fixed block, so that test driven to visit Head moves in the horizontal direction, this structure is simple, practical.

Preferably, the thread bush is equipped with limited block, restricted limited block rotation is opened up on first sliding part And for the first limiting slot that limited block moves in the horizontal direction.

Using the above scheme, by setting limited block and the first limiting slot, due to screw thread when can be avoided rotation threaded rod Frictional force excessive the case where causing thread bush that threaded rod is followed to rotate between bar and thread bush.

Preferably, the end of first guide rail is equipped with for buffering the mobile Buffer Unit of first sliding block, institute Stating Buffer Unit includes being fixedly connected on the elastic component of first rail end and to be fixedly connected on the elastic component separate The buffer board of one end of first guide rail.

Using the above scheme, if careless manipulation makes the first sliding block with faster when staff starts the first power source Speed slides into the top of the first guide rail, the impact force that the first sliding block and the first guide rail top generate may make test probe by Damage avoids the generation of above situation so Buffer Unit is arranged in the end of the first guide rail.

Preferably, on first guide rail and along the vertical direction equipped with graduated scale.

Using the above scheme, by the way that graduated scale is arranged on the first guide rail, staff is enable to be apparent from test The mobile distance of probe.

Preferably, first guide rail is equipped with dust cover.

Using the above scheme, dust can be reduced into the first guide rail to influence the first sliding block by the way that dust cover is arranged It is mobile.

Preferably, the driving component include the lead screw being arranged along the vertical direction, be set on the lead screw second Sliding block, the second guide rail for being set on the workbench and being moved along the vertical direction for the second sliding block and for driving the silk Second power source of thick stick rotation, the both ends of second sliding block, which are equipped with, extends second guide rail and pops one's head in the test solid The second fixed sliding part.

Using the above scheme, the second power source of starting makes to be set in the second sliding block on lead screw and exists to control lead screw rotation It is moved along the vertical direction in second guide rail, to make the second sliding part that test probe be driven to move along the vertical direction, visits test Head is separate or close to connector, this structure is simple, easily operated.

Preferably, the workbench is equipped with sleeve, the workbench and the set far from the side of the test probe Be equipped with that one end and the workbench are fixed, other end activity is interspersed in motion bar in the sleeve between cylinder, the sleeve with It is equipped with the screw for fixed the two between the motion bar, is additionally provided on the loading end of the workbench for limiting the folder Second limiting slot of tool.

Using the above scheme, motion bar is interspersed in sleeve, then is fixed the two by screw, if workbench needs more It changes, Unscrewed screw is only needed to take out motion bar out of sleeve, operation is very easy, and fixture is placed on the second limit Fixture can be made easily not move in slot.

In conclusion the utility model has the following beneficial effects:

It after being fixed connector with fixture, then is popped one's head in by test and contact engaging and separating force test is carried out to connector, can be improved survey The efficiency of examination, and also can control moving up and down for test probe, so that the result of test is more accurate.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment one；

Fig. 2 is the enlarged drawing in Fig. 1 at A；

Fig. 3 is the structural schematic diagram of the utility model embodiment two.

Appended drawing reference: 1, connector；2, fixture；3, workbench；4, test probe；5, console；6, the first sliding block；7, One guide rail；8, the first power source；9, the first sliding part；91, fixed block；92, the first limiting slot；10, threaded rod；101, screw thread Set；1011, limited block；11, elastic component；12, buffer board；13, graduated scale；14, dust cover；15, lead screw；16, the second sliding block； 17, the second guide rail；18, the second power source；19, the second sliding part；20, sleeve；21, motion bar；22, screw；23, the second limit Slot.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Embodiment one: a kind of full-automatic plug force tester, as shown in Figure 1, driving test probe 4 by driving assembly It moves up and down, to improve the precision and efficiency of detection connector 1.

Full-automatic plug force tester, as shown in Figures 1 and 2, the work including the fixture 2 for placing clamping connector 1 Make platform 3, for test connector 1 test probe 4, for drive test pop one's head in 4 driving assemblies that move along the vertical direction with And the console 5 for being electrically connected with driving assembly and being opened and closed for controlling driving assembly.

2 clamping connector 1 of fixture, then fixture 2 is placed on workbench 3, have on console 5 multiple electric with driving assembly The key of connection drives test probe 4 close to or far from connector 1 to control driving assembly, tests on probe 4 and is equipped with sensing Device, when test probe 4 is contacted with connector 1, sensor is shown after detecting data by Data Analysis Software over the display Show, it is higher to the contact engaging and separating force testing efficiency of the progress of connector 1 in this manner, while result is more accurate.

Driving assembly includes the first sliding block 6 moved along the vertical direction, is set on workbench 3 and moves for the first sliding block 6 The first dynamic guide rail 7 and the first power source 8 for being electrically connected with console 5 and being used to drive the first sliding block 6 mobile, the first sliding block 6 both ends, which are equipped with, extends the first guide rail 7 and the first sliding part 9 for fixed test probe 4.

In the present embodiment, the first power source 8 is specially oil cylinder, presses the key starting oil cylinder on console 5, oil cylinder band Dynamic first sliding block 6 moves along the vertical direction on the first guide rail 7, fixes at this time with the first sliding block 6 and extends the first guide rail 7 The drive of first sliding part 9 is tested probe 4 and is moved along the vertical direction, the 4 close or separate test probes so that test is popped one's head in 4。

During the first sliding block 6 is mobile, led if staff's operation error compresses the first sliding block 6 to first The top of rail 7 can generate impact force at this time, and test probe 4 may be made impaired, so useful in the installation of the end of the first guide rail 7 In buffering the mobile Buffer Unit of the first sliding block 6, Buffer Unit includes being mounted on the elastic component 11 of rail end and being mounted on The buffer board 12 of the one end of elastic component 11 far from the first guide rail 7.In the present embodiment, elastic component 11 is specially spring, when first When sliding block 6 compresses buffer board 12, since the buffer function of spring can reduce impact force, so that test probe 4 is not susceptible to Damage.

Graduated scale 13 is installed on first guide rail 7 and along the vertical direction, can intuitively find out test probe 4 it is mobile away from From, make staff operate more smoothly.

The movement of the first sliding block 6 may be influenced whether since dust enters in the first guide rail 7, so in the first guide rail 7 On dust cover 14 is installed, dust cover 14 can reduce dust into the first guide rail 7.

The precision tested in order to further increase is also equipped between the first sliding part 9 and test probe 4 for driving The regulating device that test probe 4 moves in the horizontal direction.

Regulating device include the fixed block 91 for being symmetrically disposed on 9 two sides of the first sliding part, be set to fixed block 91 between and with Threaded rod 10 that fixed block 91 is rotatablely connected and for fixed test probe 4 and be set on threaded rod 10 with threaded rod 10 The thread bush 101 of threaded connection rotates threaded rod 10 to drive thread bush 101 to move in the horizontal direction, when rotation threaded rod 10 When, threaded rod 10 is able to maintain rotation without moving and driving thread bush 101 to move in the horizontal direction, so that test Probe 4 moves in the horizontal direction, and adjusts 4 positions in the horizontal direction of test probe.

If but frictional force between threaded rod 10 and thread bush 101 it is excessive when, may be such that rotation threaded rod 10 Thread bush 101 is driven to rotate in the process, so being equipped with limited block 1011 on thread bush 101, and on the first sliding part 9 It opens up the rotation of restricted limited block 1011 and for the first limiting slot 92 that limited block 1011 moves in the horizontal direction, passes through limited block 1011 and first limiting slot 92 position-limiting action, thread bush 101 is moved without being able to rotate.

After contact engaging and separating force test is completed, it may be necessary to workbench 3 be cleaned or be replaced, so remote in workbench 3 Side from test probe 4 is equipped with sleeve 20, is equipped with that one end and workbench 3 be fixed, the other end between workbench 3 and sleeve 20 Activity is interspersed in the motion bar 21 in sleeve 20, is equipped between sleeve 20 and motion bar 21 for both fixed screw 22, Motion bar 21 is extracted out again from sleeve 20 by Unscrewed screw 22, workbench 3 just can be removed and it is cleaned or is replaced, very just Just.In addition, being also provided with the second limiting slot 23 for limiting fixture 2 on the loading end of workbench 3, fixture 2 is made to work It will not easily be moved when on platform 3.

Specific work process is as follows:

When being detected to connector 1, first connector 1 is placed on fixture 2, then press on console 5 by Key starts oil cylinder, makes oil cylinder that test probe 4 be driven to move down until testing probe 4 and is located at same level with connector 1, if It is that test probe 4 is not exposed to connector 1 at this time, then rotating threaded rod 10 makes thread bush 101 drive test probe 4 in level Direction is mobile, until contacting with connector 1.

Embodiment two:

A kind of full-automatic plug force tester, as shown in figure 3, with embodiment one the difference is that driving assembly not Together.

Driving assembly include the lead screw 15 being arranged along the vertical direction, the second sliding block 16 being set on lead screw 15, setting exist The second guide rail 17 for being moved along the vertical direction on workbench 3 and for the second sliding block 16 and be electrically connected with console 5 and be used to drive The second power source 18 that dynamic lead screw 15 rotates, the both ends of the second sliding block 16, which are equipped with, extends the second guide rail 17 and pops one's head in test 4 the second fixed sliding parts 19.

In the present embodiment, the second power source 18 is motor, starts motor by console 5 and is rotated with controlling lead screw 15, Move the second sliding block 16 being set on lead screw 15 along the vertical direction in the second guide rail 17, to make 19 band of the second sliding part It moves test probe 4 to move along the vertical direction, keeps test probe 4 separate or close to connector 1.

Above embodiment does not constitute the restriction to the technical solution protection scope.It is any in above embodiment Spirit and principle within made modifications, equivalent substitutions and improvements etc., should be included in the technical solution protection scope it It is interior.

Claims (10)

1. a kind of full-automatic plug force tester, characterized in that the work including the fixture (2) for placing clamping connector (1) Make platform (3), the test probe (4) for testing the connector (1) and for driving the test probe (4) along vertical side To mobile driving assembly.

2. a kind of full-automatic plug force tester according to claim 1, characterized in that the driving component includes along perpendicular Histogram to mobile the first sliding block (6), be set on the workbench (3) and first guide rail (7) mobile for the first sliding block (6) And the first power source (8) for driving first sliding block (6) mobile, the both ends of first sliding block (6), which are equipped with, to be extended First guide rail (7) and the first sliding part (9) for fixing the test probe (4) out.

3. a kind of full-automatic plug force tester according to claim 2, characterized in that first sliding part (9) with The regulating device for driving the test probe (4) to move in the horizontal direction is additionally provided between the test probe (4).

4. a kind of full-automatic plug force tester according to claim 3, characterized in that the regulating device includes symmetrical It is set to the fixed block (91) of the first sliding part (9) two sides, is set between the fixed block (91) and is rotated with fixed block (91) The threaded rod (10) of connection and for fixed test probe (4) and be set on threaded rod (10) with threaded rod (10) screw thread The thread bush (101) of connection rotates threaded rod (10) to drive the thread bush (101) to move in the horizontal direction.

5. a kind of full-automatic plug force tester according to claim 4, characterized in that set on the thread bush (101) Have limited block (1011), restricted limited block (1011) rotation is opened up on first sliding part (9) and for limited block (1011) The first limiting slot (92) moved in the horizontal direction.

6. a kind of full-automatic plug force tester according to claim 2, characterized in that the end of first guide rail (7) Portion is equipped with for buffering the mobile Buffer Unit of first sliding block (6), and the Buffer Unit includes being fixedly connected on described the The elastic component (11) of one guide rail (7) end and be fixedly connected on the elastic component (11) far from described first guide rail (7) one The buffer board (12) at end.

7. a kind of full-automatic plug force tester according to claim 2, characterized in that on first guide rail (7) and It is equipped with graduated scale (13) along the vertical direction.

8. a kind of full-automatic plug force tester according to claim 2, characterized in that set on first guide rail (7) There are dust cover (14).

9. a kind of full-automatic plug force tester according to claim 1, characterized in that the driving component includes along perpendicular Lead screw (15) from histogram to setting, be set on the lead screw (15) the second sliding block (16), be set on the workbench and The second guide rail (17) moved along the vertical direction for the second sliding block (16) and second for driving the lead screw (15) rotation Power source (18), the both ends of second sliding block (16), which are equipped with, extends second guide rail (17) and pops one's head in the test (4) fixed the second sliding part (19).

10. a kind of full-automatic plug force tester according to claim 1, characterized in that the workbench (3) is far from institute State test probe (4) side be equipped with sleeve (20), between the workbench (3) and the sleeve (20) equipped with one end with it is described Workbench (3) is fixed, other end activity is interspersed in the motion bar (21) in the sleeve (20), the sleeve (20) and the work It is equipped with the screw for fixed the two between lever (21), is additionally provided on the loading end of the workbench (3) described for limiting The second limiting slot (23) of fixture (2).