CN204128724U - Contact engaging and separating force proving installation - Google Patents

Abstract

The utility model provides a kind of contact engaging and separating force proving installation, comprise support and controller, described support is provided with feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism, wherein, the rotating disk that described intermittent rotating mechanism comprises intermittent driving portion and is connected with described intermittent driving portion, described rotating disk is provided with the fixture of holding workpiece, described fixture is provided with clamping hole, described fixture has two at least and circumferential interval along described rotating disk is arranged, described feed mechanism, insert Force meansurement mechanism, pull out force mechanism for testing, receiving mechanism is arranged on the surrounding of described rotating disk, described feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism are electrically connected with described controller respectively.The beneficial effects of the utility model are: improve testing efficiency, improve measuring accuracy.

Description

Contact engaging and separating force proving installation

Technical field

The utility model relates to proving installation, particularly relates to a kind of contact engaging and separating force proving installation in proving installation.

Background technology

At present, in the production run of connector, usually need to carry out contact engaging and separating force test, existing contact engaging and separating force test mainly relies on manually to be carried out, and on the one hand, efficiency is lower, and on the other hand, precision is lower.

Summary of the invention

In order to solve the problems of the prior art, the utility model provides the contact engaging and separating force proving installation that a kind of efficiency is high, precision is high.

The utility model provides a kind of contact engaging and separating force proving installation, comprise support and controller, described support is provided with feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism, wherein, the rotating disk that described intermittent rotating mechanism comprises intermittent driving portion and is connected with described intermittent driving portion, described rotating disk is provided with the fixture of holding workpiece, described fixture is provided with clamping hole, described fixture has two at least and circumferential interval along described rotating disk is arranged, described feed mechanism, insert Force meansurement mechanism, pull out force mechanism for testing, receiving mechanism is arranged on the surrounding of described rotating disk, described feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism are electrically connected with described controller respectively.

As further improvement of the utility model, described feed mechanism, slotting Force meansurement mechanism, pull out force mechanism for testing, receiving mechanism are arranged around the circumferential interval of described rotating disk successively.

As further improvement of the utility model, described support is provided with slotting power defective products recovering mechanism, described slotting power defective products recovering mechanism is arranged between described slotting Force meansurement mechanism, pull out force mechanism for testing, described slotting power defective products recovering mechanism is electrically connected with described controller, described support is provided with pull out force defective products recovering mechanism, described pull out force defective products recovering mechanism is arranged between described pull out force mechanism for testing, receiving mechanism, and described pull out force defective products recovering mechanism is electrically connected with described controller.

As further improvement of the utility model, described slotting power defective products recovering mechanism comprises the first jet portion, first recovery channel and the first collection box, described first recovery channel is communicated with described first recovery tube, the entrance of described first recovery tube is suspended from described rotating disk, the puff prot in described first jet portion is arranged under described rotating disk, the entrance of described first recovery tube, the linear vertical of the formation between the puff prot in the first jet portion is in described rotating disk, the entrance of described first recovery tube, the distance in the straight line of the formation between the puff prot in the first jet portion and the center of circle of described rotating disk equals the distance in the axis of the clamping hole of described fixture and the center of circle of described rotating disk, described pull out force defective products recovering mechanism comprises the second jet portion, second recovery channel and the second collection box, described second recovery channel is communicated with described second recovery tube, the entrance of described second recovery tube is suspended from described rotating disk, the puff prot in described second jet portion is arranged under described rotating disk, the entrance of described second recovery tube, the linear vertical of the formation between the puff prot in the second jet portion is in described rotating disk, the entrance of described second recovery tube, the distance in the straight line of the formation between the puff prot in the second jet portion and the center of circle of described rotating disk equals the distance in the axis of the clamping hole of described fixture and the center of circle of described rotating disk, described first jet portion, second jet part is not electrically connected with described controller.

As further improvement of the utility model, described support is provided with workpiece and inserts trigger mechanism not in place, described workpiece inserts trigger mechanism not in place and is arranged on described feed mechanism, inserts between Force meansurement mechanism, described workpiece inserts trigger mechanism not in place and is electrically connected with described controller, described support is provided with the non-discharging trigger mechanism of non-defective unit, described non-defective unit non-discharging trigger mechanism is arranged between described receiving mechanism, feed mechanism, and described non-defective unit non-discharging trigger mechanism is electrically connected with described controller.

As further improvement of the utility model, described workpiece inserts trigger mechanism not in place and comprises the first support, first trigger and the first shell fragment, described first Bracket setting is on described support, described first trigger, first shell fragment is all arranged on described first support, one end of described first shell fragment contacts with described first trigger, the other end of described first shell fragment is suspended from described rotating disk, the projection of described first shell fragment on described rotating disk is crossing with the circle that described fixture is formed around described rotating disk, the non-discharging trigger mechanism of described non-defective unit comprises the second support, second trigger and the second shell fragment, described second Bracket setting is on described support, described second trigger, second shell fragment is all arranged on described second support, one end of described second shell fragment contacts with described second trigger, the other end of described second shell fragment is suspended from described rotating disk, the projection of described second shell fragment on described rotating disk is crossing with the circle that described fixture is formed around described rotating disk, described first trigger unit, second trigger unit is electrically connected with described controller respectively.

As further improvement of the utility model, described slotting Force meansurement mechanism comprises slotting Force meansurement support, insert Force meansurement lifting drive division, insert Force meansurement lifting table, contact pin and slotting force snesor, wherein, described slotting Force meansurement lifting table and described slotting Force meansurement support are moving sets, described slotting Force meansurement lifting drive division is arranged on described slotting Force meansurement support, described slotting Force meansurement lifting drive division is connected with described slotting Force meansurement lifting table, described contact pin is arranged on slotting Force meansurement lifting table, described contact pin is positioned under described rotating disk, described slotting force snesor is connected with described slotting Force meansurement support, described slotting force snesor is suspended from described rotating disk, the extended line of described contact pin is crossing with described slotting force snesor, described pins normal is in described rotating disk, the projection of described contact pin on described rotating disk is positioned on the circle that described fixture formed around described rotating disk, described slotting force snesor, insert Force meansurement elevation actuating part not to be electrically connected with described controller.

As further improvement of the utility model, described slotting Force meansurement support comprises slotting Force meansurement base, insert Force meansurement side plate and slotting Force meansurement crossbeam, described slotting Force meansurement side plate is arranged on described slotting Force meansurement base, described slotting Force meansurement crossbeam is connected with the top of described slotting Force meansurement side plate, described slotting Force meansurement lifting drive division is arranged on described slotting Force meansurement base, described slotting Force meansurement lifting drive division is for inserting Force meansurement cylinder, described slotting Force meansurement side plate is provided with slotting Force meansurement slide rail, described slotting Force meansurement lifting table and described slotting Force meansurement slide rail are slidably connected, described slotting Force meansurement lifting table is provided with Plug pin patch bay, described contact pin is arranged on described Plug pin patch bay.

As further improvement of the utility model, described pull out force mechanism for testing comprises pull out force test bracket, pull out force test lifting drive division, pull out force test lifting table, balancing weight, optical sensor, pull out force contact pin and Lifting Device, wherein, described pull out force test bracket, pull out force test lifting table is moving sets, described pull out force test lifting drive division is arranged on described pull out force test bracket, described pull out force test lifting drive division is tested lifting table with described pull out force and is connected, described pull out force contact pin is connected with described balancing weight, described pull out force test lifting table is provided with lifting movable cavity, limit for height block and light-conductive hole, described balancing weight is arranged in described lifting movable cavity, described lifting movable cavity is provided with opening, described pull out force contact pin is through the opening of described lifting movable cavity, described limit for height block is positioned on the opening of described lifting movable cavity, described light-conductive hole is positioned at the bottom of described lifting movable cavity, described light-conductive hole is positioned at described lifting movable cavity and is connected, described optical sensor is arranged in described light-conductive hole, described Lifting Device is connected with described pull out force test bracket, described Lifting Device is suspended from described rotating disk, the extended line of described pull out force contact pin is crossing with described Lifting Device, described pull out force pins normal is in described rotating disk, the projection of described pull out force contact pin on described rotating disk is positioned on the circle that described fixture formed around described rotating disk, described optical sensor, pull out force test elevation actuating part is not electrically connected with described controller.

As further improvement of the utility model, described pull out force test bracket comprises pull out force testing base, pull out force test side plate and pull out force test crossbeam, described pull out force test side plate is arranged on described pull out force testing base, described pull out force test crossbeam is connected with the top that described pull out force tests side plate, described pull out force test lifting drive division is arranged in described pull out force testing base, described pull out force test lifting drive division is pull out force tested cylinder, described pull out force test side plate is provided with pull out force test slide rail, it is moving sets that described pull out force test lifting drive division and described pull out force test slide rail, described Lifting Device comprises push rod and spring, it is moving sets that described push rod and described pull out force test crossbeam, described spring clamp is located at described push rod, between pull out force test crossbeam, described optical sensor is optical fiber, described pull out force test lifting table comprises pull out force Plug pin patch bay, described lifting movable cavity, limit for height block and light-conductive hole are all arranged on described pull out force Plug pin patch bay.

As further improvement of the utility model, described intermittent rotating mechanism comprises tape handler and Cam splitter, and the input shaft of described Cam splitter is connected with described tape handler, and the output shaft of described Cam splitter is connected with described rotating disk.

The beneficial effects of the utility model are: pass through such scheme, rotating disk is driven to carry out intermittent rotary by intermittent driving portion, and then drive fixture to carry out intermittent rotary, by feed mechanism by work piece delivery on fixture, the slotting power carrying out test piece by slotting Force meansurement mechanism, carrys out the pull out force of test piece by pull out force mechanism for testing, to be knocked off back and forth part by receiving mechanism again, complete the slotting power of workpiece, the automatic test of pull out force, improve testing efficiency, improve measuring accuracy.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of contact engaging and separating force proving installation of the utility model;

Fig. 2 is the part-structure schematic diagram of a kind of contact engaging and separating force proving installation of the utility model;

Fig. 3 is the structural representation of the slotting Force meansurement mechanism of a kind of contact engaging and separating force of the utility model proving installation;

Fig. 4 is the pull out force mechanism for testing structural representation before insertion of a kind of contact engaging and separating force proving installation of the utility model;

Fig. 5 is the structural representation of pull out force mechanism for testing when inserting of a kind of contact engaging and separating force proving installation of the utility model;

Fig. 6 is the structural representation of pull out force mechanism for testing when extracting of a kind of contact engaging and separating force proving installation of the utility model;

Fig. 7 is the partial enlarged drawing A of Fig. 6.

Embodiment

To illustrate below in conjunction with accompanying drawing and embodiment further illustrates the utility model.

Drawing reference numeral in Fig. 1 to Fig. 7 is: vibrator supply dish 1; Linear vibration feeder 2; Feeding material component 3; Workpiece inserts trigger mechanism 4 not in place; Insert Force meansurement mechanism 5; Insert Force meansurement support 51; Insert Force meansurement base 511; Insert Force meansurement side plate 512; Insert Force meansurement crossbeam 513; Insert Force meansurement slide rail 52; Insert Force meansurement lifting table 53; Plug pin patch bay 531; Insert Force meansurement lifting drive division 54; Contact pin 55; Insert force snesor 56; Pull out force mechanism for testing 6; Pull out force test bracket 61; Pull out force testing base 611; Pull out force test side plate 612; Pull out force test crossbeam 613; Pull out force test slide rail 62; Pull out force test lifting table 63; Pull out force Plug pin patch bay 631; Limit for height block 632; Light-conductive hole 633; Lifting movable cavity 634; Optical sensor 64; Balancing weight 65; Pull out force contact pin 66; Push rod 67; Spring 68; Pull out force test lifting drive division 69; Insert power defective products recovering mechanism 7; Pull out force defective products recovering mechanism 8; Receiving mechanism 9; Display 10; The non-discharging trigger mechanism 11 of non-defective unit; Rotating disk 12; Fixture 121; Tape handler 13; Support 14; Workpiece 100;

As shown in Figures 1 to 7, a kind of contact engaging and separating force proving installation, comprise support 14 and controller, described support 14 is provided with feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism 5, pull out force mechanism for testing 6 and receiving mechanism 9, wherein, the rotating disk 12 that described intermittent rotating mechanism comprises intermittent driving portion and is connected with described intermittent driving portion, described rotating disk 12 is provided with the fixture 121 of holding workpiece 100, described fixture 121 is provided with clamping hole, described fixture 121 has two at least and circumferential interval along described rotating disk 12 is arranged, described feed mechanism, insert Force meansurement mechanism 5, pull out force mechanism for testing 6, receiving mechanism 9 is arranged on the surrounding of described rotating disk 12, described feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism 5, pull out force mechanism for testing 6 and receiving mechanism 9 are electrically connected with described controller respectively.

As shown in Figures 1 to 7, described feed mechanism involving vibrations supply disk 1, linear vibration feeder 2 and feeding material component 3, can be placed in vibrator supply dish 1 by workpiece 100, be sent on fixture 121 by linear vibration feeder 2 and feeding material component 3.

As shown in Figures 1 to 7, described feed mechanism, slotting Force meansurement mechanism 5, pull out force mechanism for testing 6, receiving mechanism 9 are arranged around the circumferential interval of described rotating disk 12 successively.

As shown in Figures 1 to 7, described support 14 is provided with slotting power defective products recovering mechanism 7, described slotting power defective products recovering mechanism 7 is arranged between described slotting Force meansurement mechanism 5, pull out force mechanism for testing 6, described slotting power defective products recovering mechanism 7 is electrically connected with described controller, described support 14 is provided with pull out force defective products recovering mechanism 8, described pull out force defective products recovering mechanism 8 is arranged between described pull out force mechanism for testing 6, receiving mechanism 9, and described pull out force defective products recovering mechanism 7 is electrically connected with described controller.

As shown in Figures 1 to 7, described slotting power defective products recovering mechanism 7 comprises the first jet portion, first recovery channel and the first collection box, described first recovery channel is communicated with described first recovery tube, the entrance of described first recovery tube is suspended from described rotating disk 12, the puff prot in described first jet portion is arranged under described rotating disk 12, the entrance of described first recovery tube, the linear vertical of the formation between the puff prot in the first jet portion is in described rotating disk 12, the entrance of described first recovery tube, the distance in the straight line of the formation between the puff prot in the first jet portion and the center of circle of described rotating disk 12 equals the distance in the axis of the clamping hole of described fixture 121 and the center of circle of described rotating disk 12, described pull out force defective products recovering mechanism 8 comprises the second jet portion, second recovery channel and the second collection box, described second recovery channel is communicated with described second recovery tube, the entrance of described second recovery tube is suspended from described rotating disk 12, the puff prot in described second jet portion is arranged under described rotating disk 12, the entrance of described second recovery tube, the linear vertical of the formation between the puff prot in the second jet portion is in described rotating disk, the entrance of described second recovery tube, the distance in the straight line of the formation between the puff prot in the second jet portion and the center of circle of described rotating disk 12 equals the distance in the axis of the clamping hole of described fixture 121 and the center of circle of described rotating disk 12, described first jet portion, second jet part is not electrically connected with described controller, described first jet portion is controlled by controller, second jet portion is jet, to complete slotting power defective products respectively, the recovery of pull out force defective products.

As shown in Figures 1 to 7, described support 14 is provided with workpiece and inserts trigger mechanism 4 not in place, described workpiece inserts trigger mechanism 4 not in place and is arranged on described feed mechanism, inserts between Force meansurement mechanism 5, described workpiece inserts trigger mechanism 4 not in place and is electrically connected with described controller, described support 14 is provided with the non-discharging trigger mechanism 11 of non-defective unit, described non-defective unit non-discharging trigger mechanism 11 is arranged between described receiving mechanism 9, feed mechanism, and described non-defective unit non-discharging trigger mechanism 11 is electrically connected with described controller.

As shown in Figures 1 to 7, described workpiece inserts trigger mechanism 4 not in place and comprises the first support, first trigger and the first shell fragment, described first Bracket setting is on described support 14, described first trigger, first shell fragment is all arranged on described first support, one end of described first shell fragment contacts with described first trigger, the other end of described first shell fragment is suspended from described rotating disk 12, the projection of described first shell fragment on described rotating disk 12 is crossing with the circle that described fixture 121 is formed around described rotating disk 12, the non-discharging trigger mechanism 11 of described non-defective unit comprises the second support, second trigger and the second shell fragment, described second Bracket setting is on described support 14, described second trigger, second shell fragment is all arranged on described second support, one end of described second shell fragment contacts with described second trigger, the other end of described second shell fragment is suspended from described rotating disk 12, the projection of described second shell fragment on described rotating disk 12 is crossing with the circle that described fixture 121 is formed around described rotating disk 12, described first trigger unit, second trigger unit is electrically connected with described controller respectively, monitor by the first trigger unit whether to have workpiece 100 to install not in place, whether monitor by the second trigger has workpiece 100 not complete discharging.

As shown in Figures 1 to 7, described slotting Force meansurement mechanism comprises slotting Force meansurement support 51, insert Force meansurement lifting drive division 54, insert Force meansurement lifting table 53, contact pin 55 and slotting force snesor 56, wherein, described slotting Force meansurement lifting table 53 is moving sets with described slotting Force meansurement support 51, described slotting Force meansurement lifting drive division 54 is arranged on described slotting Force meansurement support 51, described slotting Force meansurement lifting drive division 54 is connected with described slotting Force meansurement lifting table 53, described contact pin 55 is arranged on slotting Force meansurement lifting table 53, described contact pin 55 is positioned under described rotating disk 12, described slotting force snesor 56 is connected with described slotting Force meansurement support 51, described slotting force snesor 56 is suspended from described rotating disk 23, the extended line of described contact pin 55 is crossing with described slotting force snesor 56, described contact pin 55 is perpendicular to described rotating disk 12, the projection of described contact pin 55 on described rotating disk 12 is positioned on the circle that described fixture 121 formed around described rotating disk 12, described slotting force snesor 56, insert Force meansurement lifting drive division 54 to be electrically connected with described controller respectively.

As shown in Figures 1 to 7, described slotting Force meansurement support 51 comprises slotting Force meansurement base 511, insert Force meansurement side plate 512 and slotting Force meansurement crossbeam 513, described slotting Force meansurement side plate 512 is arranged on described slotting Force meansurement base 511, described slotting Force meansurement crossbeam 513 is connected with the top of described slotting Force meansurement side plate 512, described slotting Force meansurement lifting drive division 54 is arranged on described slotting Force meansurement base 511, described slotting Force meansurement lifting drive division 53 is preferably inserts Force meansurement cylinder, described slotting Force meansurement side plate 512 is provided with slotting Force meansurement slide rail 52, described slotting Force meansurement lifting table 54 is slidably connected with described slotting Force meansurement slide rail 52, described slotting Force meansurement lifting table 53 is provided with Plug pin patch bay 531, described contact pin 55 is arranged on described Plug pin patch bay 531.

As shown in Figures 1 to 7, described pull out force mechanism for testing 6 comprises pull out force test bracket 61, pull out force test lifting drive division 69, pull out force test lifting table 63, balancing weight 65, optical sensor 64, pull out force contact pin 66 and Lifting Device, wherein, described pull out force test bracket 61, pull out force test lifting table 63 is moving sets, described pull out force test lifting drive division 69 is arranged on described pull out force test bracket 61, described pull out force test lifting drive division 69 is tested lifting table 63 with described pull out force and is connected, described pull out force contact pin 66 is connected with described balancing weight 65, described pull out force test lifting table 63 is provided with lifting movable cavity 634, limit for height block 632 and light-conductive hole 633, described balancing weight 65 is arranged in described lifting movable cavity 634, described lifting movable cavity 634 is provided with opening, described pull out force contact pin 66 is through the opening of described lifting movable cavity 634, described limit for height block 632 is positioned on the opening of described lifting movable cavity 634, described light-conductive hole 633 is positioned at the bottom of described lifting movable cavity 634, described light-conductive hole 633 is positioned at described lifting movable cavity 634 and is connected, described optical sensor 64 is arranged in described light-conductive hole 633, described Lifting Device is connected with described pull out force test bracket 61, described Lifting Device is suspended from described rotating disk 123, the extended line of described pull out force contact pin 66 is crossing with described Lifting Device, described pull out force contact pin 66 is perpendicular to described rotating disk 12, the projection of described pull out force contact pin 66 on described rotating disk 12 is positioned on the circle that described fixture 121 formed around described rotating disk 12, described optical sensor 64, pull out force test lifting drive division 69 is electrically connected with described controller respectively.

As shown in Figures 1 to 7, described pull out force test bracket 61 comprises pull out force testing base 611, pull out force test side plate 612 and pull out force test crossbeam 613, described pull out force test side plate 612 is arranged on described pull out force testing base 611, described pull out force test crossbeam 613 is connected with the top that described pull out force tests side plate 612, described pull out force test lifting drive division 69 is arranged in described pull out force testing base 611, described pull out force test lifting drive division 69 is pull out force tested cylinder, described pull out force test side plate 612 is provided with pull out force test slide rail 62, it is moving sets that described pull out force test lifting drive division 69 tests slide rail 62 with described pull out force, described Lifting Device comprises push rod 67 and spring 68, it is moving sets that described push rod 67 tests crossbeam 613 with described pull out force, described spring 68 is folded in described push rod 67, between pull out force test crossbeam 613, described optical sensor 64 is optical fiber, described pull out force test lifting table 63 comprises pull out force Plug pin patch bay 631, described lifting movable cavity 634, limit for height block 632 and light-conductive hole 633 are all arranged on described pull out force Plug pin patch bay 631.

As shown in Figures 1 to 7, described intermittent rotating mechanism comprises tape handler 13 and Cam splitter, and the input shaft of described Cam splitter is connected with described tape handler 13, and the output shaft of described Cam splitter is connected with described rotating disk 12.

As shown in Figures 1 to 7, the principle of work of a kind of contact engaging and separating force proving installation that the utility model provides is: drive rotating disk 12 to carry out intermittent rotary by tape handler 13 through Cam splitter, and then drive fixture 121 to carry out intermittent rotary, workpiece 100 is placed in vibrator supply dish 1, by vibrator supply dish 1, linear vibration feeder 2, workpiece 100 is delivered in fixture 121 by feeding material component 3, under the drive of rotating disk, drive workpiece 100 is carried out intermittent rotary by fixture 121, make workpiece 100 can turn to feeding material component 3 successively, workpiece inserts trigger mechanism 4 not in place, insert Force meansurement mechanism 5, insert power defective products recovering mechanism 7, pull out force mechanism for testing 6, pull out force defective products recovering mechanism 8, receiving mechanism 9, on the corresponding station of the non-discharging trigger mechanism 11 of non-defective unit, the principle of each station is as follows:

1, when workpiece 100 put into fixture 121 not in place time, insert trigger mechanism 4 notification controller not in place by workpiece and shut down, convenient to revise;

2, when workpiece 100 arrives slotting Force meansurement mechanism 5, carry out slotting Force meansurement, as shown in Figure 3, promote to insert Force meansurement lifting table 53 by slotting Force meansurement lifting drive division 54 to rise, contact pin 55 is made to insert workpiece 100, workpiece 100 is pushed up to and inserts force snesor 56, after contact pin 55 insertion puts in place, its slotting power is tested by slotting force snesor 56, and judge that whether slotting power is qualified by controller, if the power of inserting is defective, then workpiece 100 blows out by the slotting power defective products recovering mechanism 7 of notice, if qualified, then holding workpiece 100 is in fixture 121;

3, when workpiece 100 arrives slotting power defective products recovering mechanism 7, judge whether insert power defective products recovering mechanism 7 runs by controller, if the power of inserting is defective, then inserts power defective products recovering mechanism 7 and workpiece 100 is blown out, if qualified, then holding workpiece 100 is in fixture 121;

4, when workpiece 100 arrives pull out force mechanism for testing 6, carry out pull out force test, as shown in Figure 4, promote pull out force test lifting table 63 by pull out force test lifting drive division 69 to rise, pull out force contact pin 66 is made to insert workpiece 100, insertion process carries out resilient protection by push rod 67, spring 68, avoids workpiece 100 to be ejected; As shown in Fig. 5,6,7, after insertion puts in place, drive pull out force to test lifting table 63 by pull out force test lifting drive division 69 to decline, due to the effect of pull out force, balancing weight 65 will keep motionless, if pull out force is qualified, then balancing weight 65 does not drop, optical sensor 64 sends light beam by light-conductive hole 633, and balancing weight 65 is not fallen within the range of exposures of this optical sensor 64, then notification controller pull out force is qualified, if pull out force is defective, then balancing weight 65 drops, and balancing weight 65 is fallen within the range of exposures of this optical sensor 64, then notification controller pull out force is defective;

5, when workpiece 100 arrives pull out force defective products recovering mechanism 8, judge whether pull out force defective products recovering mechanism 8 runs by controller, if pull out force is defective, then pull out force defective products recovering mechanism 8 runs, workpiece 100 is blown out, if pull out force is qualified, then pull out force defective products recovering mechanism 8 does not run, and workpiece 100 remains in fixture 121;

6, when workpiece 100 arrives receiving mechanism 9, rewinding is carried out;

7, when workpiece 100 arrives non-defective unit non-discharging trigger mechanism 11; under normal circumstances; workpiece 100 reclaim by receiving mechanism 9; if end is reclaimed; then workpiece 100 will trigger the non-discharging trigger mechanism 11 of non-defective unit; controlled to shut down by controller, convenient correction, avoids workpiece 100 also in fixture 121, to enter feed mechanism.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. a contact engaging and separating force proving installation, it is characterized in that: comprise support and controller, described support is provided with feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism, wherein, the rotating disk that described intermittent rotating mechanism comprises intermittent driving portion and is connected with described intermittent driving portion, described rotating disk is provided with the fixture of holding workpiece, described fixture is provided with clamping hole, described fixture has two at least and circumferential interval along described rotating disk is arranged, described feed mechanism, insert Force meansurement mechanism, pull out force mechanism for testing, receiving mechanism is arranged on the surrounding of described rotating disk, described feed mechanism, intermittent rotating mechanism, insert Force meansurement mechanism, pull out force mechanism for testing and receiving mechanism are electrically connected with described controller respectively.

2. contact engaging and separating force proving installation according to claim 1, is characterized in that: described feed mechanism, slotting Force meansurement mechanism, pull out force mechanism for testing, receiving mechanism are arranged around the circumferential interval of described rotating disk successively.

3. contact engaging and separating force proving installation according to claim 2, it is characterized in that: described support is provided with slotting power defective products recovering mechanism, described slotting power defective products recovering mechanism is arranged between described slotting Force meansurement mechanism, pull out force mechanism for testing, described slotting power defective products recovering mechanism is electrically connected with described controller, described support is provided with pull out force defective products recovering mechanism, described pull out force defective products recovering mechanism is arranged between described pull out force mechanism for testing, receiving mechanism, and described pull out force defective products recovering mechanism is electrically connected with described controller.

4. contact engaging and separating force proving installation according to claim 3, it is characterized in that: described slotting power defective products recovering mechanism comprises the first jet portion, first recovery channel and the first collection box, described first recovery channel is communicated with described first recovery tube, the entrance of described first recovery tube is suspended from described rotating disk, the puff prot in described first jet portion is arranged under described rotating disk, the entrance of described first recovery tube, the linear vertical of the formation between the puff prot in the first jet portion is in described rotating disk, the entrance of described first recovery tube, the distance in the straight line of the formation between the puff prot in the first jet portion and the center of circle of described rotating disk equals the distance in the axis of the clamping hole of described fixture and the center of circle of described rotating disk, described pull out force defective products recovering mechanism comprises the second jet portion, second recovery channel and the second collection box, described second recovery channel is communicated with described second recovery tube, the entrance of described second recovery tube is suspended from described rotating disk, the puff prot in described second jet portion is arranged under described rotating disk, the entrance of described second recovery tube, the linear vertical of the formation between the puff prot in the second jet portion is in described rotating disk, the entrance of described second recovery tube, the distance in the straight line of the formation between the puff prot in the second jet portion and the center of circle of described rotating disk equals the distance in the axis of the clamping hole of described fixture and the center of circle of described rotating disk, described first jet portion, second jet part is not electrically connected with described controller.

5. contact engaging and separating force proving installation according to claim 2, it is characterized in that: described support is provided with workpiece and inserts trigger mechanism not in place, described workpiece inserts trigger mechanism not in place and is arranged on described feed mechanism, inserts between Force meansurement mechanism, described workpiece inserts trigger mechanism not in place and is electrically connected with described controller, described support is provided with the non-discharging trigger mechanism of non-defective unit, described non-defective unit non-discharging trigger mechanism is arranged between described receiving mechanism, feed mechanism, and described non-defective unit non-discharging trigger mechanism is electrically connected with described controller.

6. contact engaging and separating force proving installation according to claim 5, it is characterized in that: described workpiece inserts trigger mechanism not in place and comprises the first support, first trigger and the first shell fragment, described first Bracket setting is on described support, described first trigger, first shell fragment is all arranged on described first support, one end of described first shell fragment contacts with described first trigger, the other end of described first shell fragment is suspended from described rotating disk, the projection of described first shell fragment on described rotating disk is crossing with the circle that described fixture is formed around described rotating disk, the non-discharging trigger mechanism of described non-defective unit comprises the second support, second trigger and the second shell fragment, described second Bracket setting is on described support, described second trigger, second shell fragment is all arranged on described second support, one end of described second shell fragment contacts with described second trigger, the other end of described second shell fragment is suspended from described rotating disk, the projection of described second shell fragment on described rotating disk is crossing with the circle that described fixture is formed around described rotating disk, described first trigger unit, second trigger unit is electrically connected with described controller respectively.

7. contact engaging and separating force proving installation according to claim 1, it is characterized in that: described slotting Force meansurement mechanism comprises slotting Force meansurement support, insert Force meansurement lifting drive division, insert Force meansurement lifting table, contact pin and slotting force snesor, wherein, described slotting Force meansurement lifting table and described slotting Force meansurement support are moving sets, described slotting Force meansurement lifting drive division is arranged on described slotting Force meansurement support, described slotting Force meansurement lifting drive division is connected with described slotting Force meansurement lifting table, described contact pin is arranged on slotting Force meansurement lifting table, described contact pin is positioned under described rotating disk, described slotting force snesor is connected with described slotting Force meansurement support, described slotting force snesor is suspended from described rotating disk, the extended line of described contact pin is crossing with described slotting force snesor, described pins normal is in described rotating disk, the projection of described contact pin on described rotating disk is positioned on the circle that described fixture formed around described rotating disk, described slotting force snesor, insert Force meansurement elevation actuating part not to be electrically connected with described controller.

8. contact engaging and separating force proving installation according to claim 7, it is characterized in that: described slotting Force meansurement support comprises slotting Force meansurement base, insert Force meansurement side plate and slotting Force meansurement crossbeam, described slotting Force meansurement side plate is arranged on described slotting Force meansurement base, described slotting Force meansurement crossbeam is connected with the top of described slotting Force meansurement side plate, described slotting Force meansurement lifting drive division is arranged on described slotting Force meansurement base, described slotting Force meansurement lifting drive division is for inserting Force meansurement cylinder, described slotting Force meansurement side plate is provided with slotting Force meansurement slide rail, described slotting Force meansurement lifting table and described slotting Force meansurement slide rail are slidably connected, described slotting Force meansurement lifting table is provided with Plug pin patch bay, described contact pin is arranged on described Plug pin patch bay.

9. contact engaging and separating force proving installation according to claim 1, it is characterized in that: described pull out force mechanism for testing comprises pull out force test bracket, pull out force test lifting drive division, pull out force test lifting table, balancing weight, optical sensor, pull out force contact pin and Lifting Device, wherein, described pull out force test bracket, pull out force test lifting table is moving sets, described pull out force test lifting drive division is arranged on described pull out force test bracket, described pull out force test lifting drive division is tested lifting table with described pull out force and is connected, described pull out force contact pin is connected with described balancing weight, described pull out force test lifting table is provided with lifting movable cavity, limit for height block and light-conductive hole, described balancing weight is arranged in described lifting movable cavity, described lifting movable cavity is provided with opening, described pull out force contact pin is through the opening of described lifting movable cavity, described limit for height block is positioned on the opening of described lifting movable cavity, described light-conductive hole is positioned at the bottom of described lifting movable cavity, described light-conductive hole is positioned at described lifting movable cavity and is connected, described optical sensor is arranged in described light-conductive hole, described Lifting Device is connected with described pull out force test bracket, described Lifting Device is suspended from described rotating disk, the extended line of described pull out force contact pin is crossing with described Lifting Device, described pull out force pins normal is in described rotating disk, the projection of described pull out force contact pin on described rotating disk is positioned on the circle that described fixture formed around described rotating disk, described optical sensor, pull out force test elevation actuating part is not electrically connected with described controller.

10. contact engaging and separating force proving installation according to claim 9, it is characterized in that: described pull out force test bracket comprises pull out force testing base, pull out force test side plate and pull out force test crossbeam, described pull out force test side plate is arranged on described pull out force testing base, described pull out force test crossbeam is connected with the top that described pull out force tests side plate, described pull out force test lifting drive division is arranged in described pull out force testing base, described pull out force test lifting drive division is pull out force tested cylinder, described pull out force test side plate is provided with pull out force test slide rail, it is moving sets that described pull out force test lifting drive division and described pull out force test slide rail, described Lifting Device comprises push rod and spring, it is moving sets that described push rod and described pull out force test crossbeam, described spring clamp is located at described push rod, between pull out force test crossbeam, described optical sensor is optical fiber, described pull out force test lifting table comprises pull out force Plug pin patch bay, described lifting movable cavity, limit for height block and light-conductive hole are all arranged on described pull out force Plug pin patch bay.