CN214845659U - High-efficient test machine - Google Patents

Abstract

The utility model relates to the technical field of automation equipment, in particular to a high-efficiency testing machine, which comprises a frame, wherein a disc is arranged on the frame, a clamp inlet position and a clamp outlet position which is arranged opposite to the clamp inlet position are arranged on the circumference of the disc, and a plurality of testing positions are uniformly distributed between the clamp inlet position and the clamp outlet position; a golden finger testing mechanism is arranged on the testing position; the middle part of the disc is hollow, and the middle part of the disc is provided with a clamp poking and rotating mechanism which comprises a rotating module, and a clamp poking module before test and a clamp poking module after test which are arranged on the rotating module; the upper end of the disc is provided with a rotary code scanning mechanism; the utility model provides a pair of high-efficient test machine has that occupation space is little, low cost's advantage, cooperates the production test demand simultaneously, solves the wait operation phenomenon that appears in the production process, effectively improves production efficiency.

Description

High-efficient test machine

Technical Field

The utility model relates to an automation equipment technical field especially relates to a high-efficient test machine.

Background

The battery has the characteristics of high energy density, convenience in use and the like, and is widely applied to the aspects of numerous electronic devices, new energy vehicles and the like.

In the production operation process of the battery, a golden finger test and a code scanning test are often performed on the battery, so that whether the battery is good or not is judged, and the quality of the product is ensured.

Because the golden finger testing procedure and the code scanning testing procedure require different operation time lengths, the code scanning testing procedure is in a waiting operation state frequently. In order to solve the problem, a plurality of golden finger testing mechanisms are usually arranged in parallel in the existing industry, and after the golden finger testing is finished, products are conveyed to the code scanning testing mechanism one by the conveying manipulator for code scanning testing, so that the occupied space of a production line is increased, the conveying times of the products are increased, the cost is not reduced, and the production efficiency is not improved.

SUMMERY OF THE UTILITY MODEL

In the battery production operation process to the aforesaid existence, because the long difference of required duration of operation process leads to the problem that cost increase, production efficiency are poor, the utility model provides a high-efficient test machine has advantage that occupation space is little, low cost, and the while cooperates the production test demand, solves the operation phenomenon of waiting for that appears in the production process, effectively improves production efficiency.

In order to solve the technical problem, the utility model provides a concrete scheme as follows:

a high-efficiency testing machine comprises a rack, wherein a disc is arranged on the rack, a clamp inlet position and a clamp outlet position opposite to the clamp inlet position are arranged on the circumference of the disc, and a plurality of testing positions are uniformly distributed between the clamp inlet position and the clamp outlet position;

a golden finger testing mechanism is arranged on the testing position;

the middle part of the disc is hollow, and the middle part of the disc is provided with a clamp poking and rotating mechanism which comprises a rotating module, and a clamp poking module before test and a clamp poking module after test which are arranged on the rotating module;

the upper end of the disc is provided with a rotary code scanning mechanism.

Optionally, the yard mechanism is swept in the rotation is including setting up the rotation in the frame and sweeping a yard mounting bracket, the rotation is swept and is provided with cavity rotary platform on the yard mounting bracket, cavity rotary platform is connected with the installation arm, install on the installation arm and sweep a yard rifle, sweep a yard rifle and install fixedly through the installation arm to remove to a plurality of test positions under cavity rotary platform's effect and sweep a yard test, effectively improve production efficiency.

Optionally, the module is stirred to anchor clamps before the test includes that the anchor clamps stir the module before the test and locate before the test that the anchor clamps stir the test on the module and dial anchor clamps and push up and stretch the unit, dial anchor clamps before the test and push up and stretch the unit before the test under the effect that the module was stirred to anchor clamps before the test, remove to advancing anchor clamps position, stir anchor clamps before the test.

Optionally, dial anchor clamps before the test and push up and stretch the unit and dial anchor clamps shifting block before the test on the anchor clamps push up and stretch the cylinder and locate the test, the anchor clamps shifting block rises under the effect of dialling anchor clamps before the test and pushing up and stretch the cylinder before the test, carries out the block with anchor clamps to follow-up drive anchor clamps and remove.

Optionally, the module is stirred to anchor clamps after the test includes that the test anchor clamps stir the module and locate the test after the anchor clamps stir the test on the module pull in anchor clamps top and stretch the unit, dial out the anchor clamps top and stretch the unit after the test, pull in anchor clamps top after the test and stretch the unit and dial out anchor clamps top after the test and stretch the unit under the effect that the test after the anchor clamps stir the module, remove to test position, play anchor clamps position, stir the anchor clamps.

Optionally, the test back pull-in fixture jacking unit comprises a test back pull-in fixture jacking cylinder and a test back pull-in shifting block arranged on the test back pull-in fixture jacking cylinder, the test back pull-in shifting block rises under the effect of the test back pull-in fixture jacking cylinder and is clamped with the fixture, so that the subsequent fixture is driven to move.

Optionally, dial out anchor clamps after the test and push out the unit and dial out anchor clamps jacking cylinder after including the test and dial out the anchor clamps jacking cylinder after locating the test on the anchor clamps jacking cylinder after the test, dial out the piece after the test and dial out anchor clamps jacking cylinder's effect after the test and rise under, carry out the block with anchor clamps to follow-up drive anchor clamps and remove.

Optionally, the test position is provided with a detachable positioning frame for positioning the fixture, so that the fixture with different sizes can be positioned, and the overall universality is improved.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a pair of high-efficient test machine has that occupation space is little, low cost's advantage, cooperates the production test demand simultaneously, solves the wait operation phenomenon that appears in the production process, effectively improves production efficiency.

Drawings

Fig. 1 is an overall schematic structural diagram of an efficient testing machine provided in an embodiment of the present invention.

Fig. 2 is a schematic view of a disc structure provided in an embodiment of the present invention.

Fig. 3 is a schematic structural view of a fixture shifting and rotating mechanism provided in the embodiment of the present invention.

Fig. 4 is a schematic structural view of a rotary code scanning mechanism provided in an embodiment of the present invention.

Fig. 5 is a schematic view of a structure of a fixture shifting module before testing provided in an embodiment of the present invention.

Fig. 6 is a schematic view of a structure of a post-test fixture shifting module provided in the embodiment of the present invention.

Wherein, 1 is a frame; 2 is a disc; 3 is a clamp feeding position; 4, a clamp outlet position; 5 is a test bit; 6 is a golden finger testing mechanism; 7, a fixture shifting and rotating mechanism; 71 is a rotating module; 72 is a clamp poking module before test; 721 is the fixture shifting module before testing; 722 is a test front shifting clamp jacking unit; 7221 it is a test front-dialing clamp jacking cylinder; 7222 it is a fixture shifting block before test; 73 is a clamp poking module after testing; 731 is a fixture shifting module after test; 732, a post-test pull-in fixture jacking unit; 7321 drawing in the clamp jacking cylinder after test; 7322 pull-in paddle after test; 733 is a post-test pull-out fixture jacking unit; 7331 pulling out the clamp to jack the cylinder after test; 7332 it is the post-test pull-out block; 8 is a rotary code scanning mechanism; 81 is a rotary code scanning mounting rack; 82 is a hollow rotary platform; 83 is a mounting arm; numeral gun 84 is a code scanning gun.

Detailed Description

In order to explain the technical solution of the present invention in detail, the following will combine the drawings of the embodiments of the present invention to perform clear and complete description on the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

For example, an efficient testing machine comprises a rack, wherein a disc is arranged on the rack, a clamp inlet position and a clamp outlet position opposite to the clamp inlet position are arranged on the circumference of the disc, and a plurality of testing positions are uniformly distributed between the clamp inlet position and the clamp outlet position; a golden finger testing mechanism is arranged on the testing position; the middle part of the disc is hollow, the middle part of the disc is provided with a clamp poking and rotating mechanism, and the clamp poking and rotating mechanism comprises a rotating module, and a clamp poking module before test and a clamp poking module after test which are arranged on the rotating module; the upper end of the disc is provided with a rotary code scanning mechanism.

The high-efficient test machine that this embodiment provided has little, the low cost's of occupation space advantage, and the wait operation phenomenon that appears in the solution production process is produced the test demand in the cooperation simultaneously, effectively improves production efficiency.

As shown in fig. 1 to 3, an efficient tester includes a frame 1 for mounting and fixing other mechanisms and facilitating the overall handling and use of the tester. Be provided with disc 2 in the frame, be provided with into anchor clamps position 3 and with the relative play anchor clamps position 4 that sets up of anchor clamps position on the circumference of disc, advance the feeding of anchor clamps position before being used for the test anchor clamps, go out the ejection of compact that anchor clamps position is used for the test back anchor clamps, the equipartition has a plurality of test positions 5 between advancing anchor clamps position and play anchor clamps position, in this example, the test position is total 14, be provided with golden finger accredited testing organization 6 on each test position for test the product on the anchor clamps, of course, to the quantity of test position, can adjust the setting according to actual conditions.

The middle part of the disc is hollow, the middle part of the disc is provided with a clamp poking rotating mechanism 7, the clamp poking rotating mechanism comprises a rotating module 71, a test front clamp poking module 72 and a test rear clamp poking module 73 which are arranged on the rotating module, and the test front clamp poking module and the test rear clamp poking module rotate under the action of the rotating module.

When the device is used, the clamp before the test is fed through the clamp feeding position, under the action of the clamp stirring module before the test, the clamp before the test is stirred to leave the clamp feeding position on the disc and is made to move along with the clamp stirring module before the test, under the drive of the rotating module, the clamp before the test stirs the module, the clamp after the test stirs the module to rotate, at the moment, the clamp before the test also stirs the module along with the clamp before the test to rotate, after the rotation is completed, the clamp before the test comes to the test position, under the action of the clamp stirring module before the test, the clamp before the test is stirred to the test position to be tested. When the rest test positions are not provided with the clamps for testing, when the clamp before the next test is fed through the clamp feeding position, the clamp before the test is stirred to be separated from the clamp feeding position on the disc and moves along with the clamp stirring module before the test under the action of the clamp stirring module before the test, the clamp stirring module before the test and the clamp stirring module after the test rotate under the drive of the rotating module, the clamp stirring module before the test drives the clamp before the test to move to the last vacant test position, at the moment, the other test position opposite to the vacant test position just finishes the test, and the clamp stirring module after the test stirs the clamp before the test to the vacant test position and simultaneously stirs the clamp on the other test position opposite to the vacant test position to be separated from the test position, and stir the module and remove along with the anchor clamps after the test, then under the effect of rotation module, anchor clamps stir the module before the test and come into the anchor clamps position, and anchor clamps stir the module after the test and come out the anchor clamps position, and anchor clamps stir the module before the test and continue to say that the anchor clamps on the anchor clamps position stir and leave the anchor clamps position of advancing on the circumference before the test, and meanwhile, anchor clamps stir the module after the test and stir the anchor clamps that have accomplished the test and stir and go out the anchor clamps position and carry out the unloading.

The rotary code scanning mechanism 8 is arranged at the upper end of the disc, when the clamp before testing is stirred to the testing position by the clamp stirring module before testing to perform golden finger testing, the rotary code scanning mechanism correspondingly rotates to the testing position, and code scanning testing is performed on products on the testing position.

In some embodiments, as shown in fig. 4, the rotary code scanning mechanism 8 includes a rotary code scanning mounting 81 disposed on the frame, and a hollow rotary platform 82 is disposed on the rotary code scanning mounting, and a mounting arm 83 is connected to the hollow rotary platform, and a code scanning gun 84 is mounted on the mounting arm.

Sweep a yard rifle and install fixedly through the installation arm to remove to a plurality of test positions under the effect of cavity rotary platform and sweep a yard test, need not all to set up a yard rifle on each test position, be favorable to reduce cost, also need not to carry the product to the rotation after the product accomplishes the golden finger test and sweep a yard mechanism position, effectively improve production efficiency.

In some embodiments, as shown in fig. 5, the pre-test fixture shifting module 72 includes a pre-test fixture shifting module 721 and a pre-test shifting fixture ejecting unit 722 disposed on the pre-test fixture shifting module, and the pre-test shifting fixture ejecting unit moves to the fixture entering position under the action of the pre-test fixture shifting module to shift the pre-test fixture.

Specifically, dial anchor clamps before the test and push up and stretch unit 722 dial anchor clamps before the test and push up and stretch cylinder 7221 and locate before the test and dial anchor clamps on the anchor clamps push up and stretch cylinder before the test anchor clamps dial block 7222, the anchor clamps dial block rises under the effect of dialling the anchor clamps before the test and push up and stretch the cylinder before the test, carries out the block with anchor clamps to follow-up drive anchor clamps remove.

The fixture is provided with a positioning hole matched with a fixture shifting block before testing, the fixture shifting block before testing rises under the action of a jacking cylinder of the fixture before testing and is clamped with the positioning hole of the fixture, and then the fixture is shifted to leave the fixture position under the action of a fixture shifting module before testing; when needs stir anchor clamps to the test position, stir the anchor clamps earlier and advance the test position under the effect that the module was stirred to anchor clamps before the test, dial anchor clamps shifting block descend under the effect that the anchor clamps top extended the cylinder before the test after that, break away from anchor clamps.

In some embodiments, as shown in fig. 6, the post-test fixture shifting module 73 includes a post-test fixture shifting module 731, a post-test pull-in fixture ejecting unit 732 and a post-test pull-out fixture ejecting unit 733, which are disposed on the post-test fixture shifting module, and the post-test pull-in fixture ejecting unit and the post-test pull-out fixture ejecting unit move to the test position and the clamp position under the action of the post-test fixture shifting module to shift the fixture.

Specifically, the test back pull-in clamp jacking unit 732 includes a test back pull-in clamp jacking cylinder 7321 and a test back pull-in shifting block 7322 disposed on the test back pull-in clamp jacking cylinder, and the test back pull-in shifting block rises under the effect of the test back pull-in clamp jacking cylinder and is clamped with the clamp, so as to facilitate the subsequent movement of the clamp.

The post-test pullout clamp jacking unit 733 includes a post-test pullout clamp jacking cylinder 7331 and a post-test pullout block 7332 provided on the post-test pullout clamp jacking cylinder, and the post-test pullout block rises under the effect of the post-test pullout clamp jacking cylinder and is clamped with a clamp so as to subsequently drive the clamp to move.

The fixture is provided with positioning holes which are respectively matched with the tested pull-in shifting block and the tested pull-out block, the tested pull-in shifting block rises under the action of the tested pull-in fixture jacking cylinder and is clamped with the positioning holes of the fixture, and then the fixture is shifted away from the testing position under the action of the tested fixture shifting module; when needs stir anchor clamps to anchor clamps position, pull in the shifting block after the test and descend under the effect that anchor clamps jacking cylinder was pulled in after the test, break away from anchor clamps, the shifting block rises under the effect that anchor clamps jacking cylinder was pulled out after the test to the piece of stirring out after the test simultaneously, carries out the block with anchor clamps, after the anchor clamps were stirred earlier to pass in and out anchor clamps position under the effect that the module was stirred to anchor clamps after the test, the shifting block descends under the effect that anchor clamps jacking cylinder was stirred out after the test to the piece of stirring out after the test, breaks away from with anchor clamps.

Wherein, be provided with on the test position and be used for carrying out the dismantlement locating frame of fixing a position to anchor clamps, be suitable for and fix a position the anchor clamps of equidimension not, improve whole commonality.

The utility model provides a pair of high-efficient test machine has that occupation space is little, low cost's advantage, cooperates the production test demand simultaneously, solves the wait operation phenomenon that appears in the production process, effectively improves production efficiency.

It is understood that different embodiments among the components in the above embodiments can be combined and implemented, and the embodiments are only for illustrating the implementation of specific structures and are not limited to the implementation of the embodiments.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (8)

1. The efficient testing machine is characterized by comprising a rack (1), wherein a disc (2) is arranged on the rack (1), a clamp inlet position (3) and a clamp outlet position (4) opposite to the clamp inlet position (3) are arranged on the circumference of the disc (2), and a plurality of testing positions (5) are uniformly distributed between the clamp inlet position (3) and the clamp outlet position (4);

a golden finger testing mechanism (6) is arranged on the testing position (5);

the middle part of the disc (2) is hollow, the middle part of the disc (2) is provided with a clamp poking and rotating mechanism (7), and the clamp poking and rotating mechanism (7) comprises a rotating module (71), and a clamp poking module (72) before testing and a clamp poking module (73) after testing which are arranged on the rotating module (71);

the upper end of the disc (2) is provided with a rotary code scanning mechanism (8).

2. The high efficiency testing machine of claim 1, wherein the rotary code scanning mechanism (8) comprises a rotary code scanning mounting rack (81) arranged on the machine frame (1), a hollow rotary platform (82) is arranged on the rotary code scanning mounting rack (81), a mounting arm (83) is connected to the hollow rotary platform (82), and a code scanning gun (84) is mounted on the mounting arm (83).

3. The high efficiency testing machine of claim 1, wherein the pre-test fixture poking module (72) comprises a pre-test fixture poking module (721) and a pre-test poking fixture jacking unit (722) disposed on the pre-test fixture poking module (721).

4. The high efficiency testing machine of claim 3, wherein the pre-test dial clamp jacking unit (722) comprises a pre-test dial clamp jacking cylinder (7221) and a pre-test clamp dial block (7222) disposed on the pre-test dial clamp jacking cylinder (7221).

5. The high efficiency testing machine as claimed in claim 1, wherein the post-test fixture poking module (73) comprises a post-test fixture poking module (731), and a post-test pull-in fixture ejecting unit (732) and a post-test pull-out fixture ejecting unit (733) disposed on the post-test fixture poking module (731).

6. The high efficiency testing machine of claim 5, wherein the post test pull in clamp jacking unit (732) comprises a post test pull in clamp jacking cylinder (7321) and a post test pull in paddle (7322) provided on the post test pull in clamp jacking cylinder (7321).

7. The high efficiency testing machine of claim 5, wherein the post test pullout clamp jacking unit (733) comprises a post test pullout clamp jacking cylinder (7331) and a post test pullout block (7332) provided on the post test pullout clamp jacking cylinder (7331).

8. The high efficiency testing machine as claimed in claim 1, wherein the test station (5) is provided with a detachable positioning frame for positioning a fixture.

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