CN210775773U - Six-station full-automatic pen electrical property tester - Google Patents
Six-station full-automatic pen electrical property tester Download PDFInfo
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- CN210775773U CN210775773U CN201921282802.0U CN201921282802U CN210775773U CN 210775773 U CN210775773 U CN 210775773U CN 201921282802 U CN201921282802 U CN 201921282802U CN 210775773 U CN210775773 U CN 210775773U
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Abstract
The utility model discloses a full-automatic pen electrical property test machine of six stations aims at providing a high and full-automatic six stations full-automatic pen electrical property test machine of efficiency of software testing. The utility model discloses a multichannel test platform, test product cargo airplane, defective products return line, yields return line, pan feeding belt line and move and carry the platform, the defective products return line test product cargo airplane multichannel test platform the yields return line all is X and sets up side by side around and in proper order, the pan feeding belt line is X and sets up to just cooperating multichannel test platform's one end, it is Y to just cooperating the setting to move the platform and be in multichannel test platform's the other end to move the platform, the defective products return line reaches the yields return line all with move and carry the platform cooperation. The utility model discloses be applied to the technical field of battery test machine.
Description
Technical Field
The utility model relates to a battery test machine, in particular to full-automatic pen electrical property test machine of six stations.
Background
In the battery production and manufacturing industry, performance testing is the most important link for guaranteeing battery quality, service life and safety, is an important guarantee for company to promise quality of customers, and is also an important link for company self-promotion and quality control in the information society. At present, automatic equipment testing and manual testing are mainly adopted in a battery performance testing method, and the existing automatic equipment testing is not compact in overall structure and low in testing efficiency. Therefore, there is a need to develop a six-station fully automatic pen electrical performance tester with high testing efficiency and full automation.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that overcome prior art not enough, provide a six station full-automatic pen electrical property test machines of efficiency of software testing height and full automatization.
The utility model adopts the technical proposal that: the utility model discloses a multichannel test platform, test product cargo airplane, defective products return line, yields return line, pan feeding belt line and move and carry the platform, the defective products return line test product cargo airplane multichannel test platform the yields return line all is X and sets up side by side around and in proper order, the pan feeding belt line is X and sets up to just cooperating multichannel test platform's one end, it is Y to just cooperating the setting to move the platform and be in multichannel test platform's the other end to move the platform, the defective products return line reaches the yields return line all with move and carry the platform cooperation.
Furthermore, multichannel test platform includes the test support seat, a plurality of test station has been arranged from top to bottom in proper order to the test support seat, be provided with test probe lift module directly over the test station, the cooperation is provided with test probe on the test probe lift module.
Further, pan feeding belt line is including being X to first transportation line, be provided with carrier guiding mechanism, first carrier push rod mechanism, carrier stop mechanism and second carrier push rod mechanism on the first transportation line, carrier guiding mechanism reaches second carrier push rod mechanism all is X to setting up, first carrier push rod mechanism reaches carrier stop mechanism all is Y to setting up, carrier stop mechanism is located carrier guiding mechanism's end, first carrier push rod mechanism reaches set up side by side around the second carrier push rod mechanism in proper order carrier stop mechanism is close to one side of carrier guiding mechanism.
Furthermore, a code scanning mechanism is arranged above the second carrier push rod mechanism in a matched mode.
Further, the test product conveyer comprises a carrier lifter, a lifting plate is arranged on the carrier lifter in a matched mode, and the lifting plate is provided with a transverse carrier conveying mechanism in the X direction.
Further, the number of the test stations is six.
Further, move and carry the platform including being Y to the second transportation line, sliding fit has carrier bearing board on the second transportation line, the both ends of second transportation line are provided with non-defective products pusher dog mechanism and defective products pusher dog mechanism respectively, non-defective products pusher dog mechanism and defective products pusher dog mechanism respectively with non-defective products return line reaches non-defective products return line.
The utility model has the advantages that: compared with the situation that the overall structure is not compact enough and the test efficiency is not high in the prior art, the utility model discloses in, through multichannel test platform test product conveyer the defective products backward flow line pan feeding belt line reaches move the setting of carrying the platform and make the utility model discloses can realize the full automatization and improve efficiency of software testing, and overall structure is more compact, structural design is reasonable, just multichannel test platform's setting makes the utility model discloses can have a plurality of test station, thereby make the utility model discloses increase the efficiency of test, so, the utility model has the advantages of efficiency of software testing is high and full automatization.
Drawings
Fig. 1 is a schematic perspective view of the present invention;
fig. 2 is a schematic plan view of the first viewing angle of the present invention;
fig. 3 is a schematic plan view of the second viewing angle of the present invention;
fig. 4 is a schematic plan view of a third viewing angle of the present invention;
FIG. 5 is a schematic plan view of a test product transporter;
fig. 6 is a partially enlarged schematic view of a portion a of fig. 1;
fig. 7 is a partially enlarged schematic view of a portion B of fig. 1;
fig. 8 is a partially enlarged schematic view of a portion C of fig. 4;
fig. 9 is a schematic layout diagram of the present invention.
Detailed Description
As shown in fig. 1-9, in this embodiment, the utility model discloses a multichannel test platform 1, test product conveyer 2, defective products return line 3, yields return line 4, pan feeding belt line 5 and move and carry platform 6, defective products return line 3 test product conveyer 2 multichannel test platform 1 the non-defective products return line 4 all is X and sets up side by side in proper order around just, pan feeding belt line 5 is X and sets up to just cooperating the one end of multichannel test platform 1, it is in to just cooperating the setting to move platform 6 to be Y to just to move platform 6's the other end of multichannel test platform 1, defective products return line 3 reaches yields return line 4 all with move platform 6 cooperation. The feeding belt line 5 is configured on the test product conveyer 2 for conveying the carrier with the battery to be tested to the test product conveyer 2, the test product conveyer 2 is configured on the multi-channel test platform 1 for testing the carrier with the battery to be tested and conveying the tested carrier and battery to the next station from the multi-channel test platform 1, the multi-channel test platform 1 is configured on the carrier for testing the battery, the transfer platform 6 is configured on the good product return line 4 for conveying the battery and carrier which are tested to be qualified and conveying the battery and carrier which are tested to be unqualified to the unqualified product return line 3, the good product return line 4 is configured on the next station for processing, the unqualified product return line 3 is configured on the next station for conveying the battery and carrier which are tested to be unqualified to be processed, compared with the situation that the overall structure is not compact enough level efficiency of software testing not high in prior art the utility model discloses in, through multichannel test platform 1 test product conveyer 2 the defective products backward flow line 3 the yields backward flow line 4 pan feeding belt line 5 reaches move the setting that carries platform 6 makes the utility model discloses can realize the full automatization and improve efficiency of software testing, and overall structure is more compact, structural design is reasonable, just multichannel test platform 1's setting makes the utility model discloses can have a plurality of test station, thereby make the utility model discloses increase the efficiency of test, consequently, the utility model has the advantages of efficiency of software testing is high and full automatization.
In this embodiment, the multi-channel test platform 1 includes a test support base 101, a plurality of test stations 102 are arranged in sequence from top to bottom on the test support base 101, a test probe lifting module 103 is arranged right above the test stations 102, and a test probe 104 is arranged on the test probe lifting module 103 in a matching manner. When the carrier that is equipped with the battery that awaits measuring passes through test product conveyer 2 transports when on test station 102, test probe lift module 103 drives test probe 104 pushes down, makes test probe 104 switches on the carrier to be connected with the battery that awaits measuring and test, after the test is accomplished test probe lift module 103 resets, and the battery and the carrier that further test was accomplished pass through test product conveyer 2 transports next station, a plurality of test station 102's setting makes the utility model discloses can test a plurality of batteries simultaneously to improve efficiency of software testing, make the utility model has the advantages of efficiency of software testing is high.
In this embodiment, the feeding belt line 5 includes a first transporting line 501 in an X direction, the first transporting line 501 is provided with a carrier guiding mechanism 502, a first carrier pushing rod mechanism 503, a carrier blocking mechanism 504 and a second carrier pushing rod mechanism 505, the carrier guiding mechanism 502 and the second carrier pushing rod mechanism 505 are all arranged in the X direction, the first carrier pushing rod mechanism 503 and the carrier blocking mechanism 504 are both arranged in the Y direction, the carrier blocking mechanism 504 is located at the end of the carrier guiding mechanism 502, and the first carrier pushing rod mechanism 503 and the second carrier pushing rod mechanism 505 are sequentially arranged side by side in front and back on one side of the carrier blocking mechanism 504 close to the carrier guiding mechanism 502. When the device is used, a carrier with a battery to be tested is transported on the first transport line 501 and guided by the carrier guide mechanism 502, the carrier comes out of the end of the carrier guide mechanism 502 and then abuts against the carrier blocking mechanism 504, the carrier is pushed backwards by the first carrier push rod mechanism 503, the carrier abuts against the second carrier push rod mechanism 505, the carrier is pushed by the second carrier push rod mechanism 505 to the carrier blocking mechanism 504, the carrier blocking mechanism 504 does not block the carrier any more, and the carrier passes through the carrier blocking mechanism 504, so that the test product transporter 2 can transport the carrier.
In the present embodiment, a code scanning mechanism 506 is cooperatively disposed above the second carrier pushing rod mechanism 505. The code scanning mechanism 506 is configured to scan the code of the carrier located at the second carrier pushing rod mechanism 505.
In this embodiment, the test product transporter 2 includes a carrier elevator 201, an elevator plate 202 is cooperatively disposed on the carrier elevator 201, and the elevator plate 202 is provided with a carrier transverse transport mechanism 203 in the X direction. The carrier lifter 201 is configured at the height of the changed carrier, the carrier transverse transportation mechanism 203 is configured at the horizontal position of the changed carrier, and the arrangement of the carrier transverse transportation mechanism 203 and the carrier lifter 201 enables the test product transporter 2 to transport the carrier to any station for testing.
In this embodiment, the number of test stations 102 is six.
In this embodiment, the transfer platform 6 includes a second transportation line 601 in the Y direction, a carrier supporting plate 602 is slidably fitted on the second transportation line 601, two ends of the second transportation line 601 are respectively provided with a good-product pusher dog mechanism 603 and a defective-product pusher dog mechanism 604, and the good-product pusher dog mechanism 603 and the defective-product pusher dog mechanism 604 are respectively fitted with the good-product return line 4 and the defective-product return line 3. When the test product conveyor 2 is used, the tested carrier and the tested battery are conveyed to the carrier supporting plate 602, when the battery is unqualified, the carrier supporting plate 602 conveys the carrier to the initial conveying end of the defective product return line 3, and the defective product pusher dog mechanism 604 pushes the unqualified battery and the carrier to the defective product return line 3, so that the unqualified battery and the carrier are conveyed to the next station by the defective product return line 3 for processing; when the battery is qualified, the carrier supporting plate 602 transports the carrier to the initial transportation end of the good product return line 4, and at this time, the qualified battery and the carrier of the good product pusher dog mechanism 603 are pushed onto the good product return line 4, so that the good product return line 4 transports the qualified battery and the qualified carrier to the next station for processing.
While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.
Claims (7)
1. The utility model provides a full-automatic pen electrical property test machine of six stations which characterized in that: it includes multichannel test platform (1), test product cargo airplane (2), defective products return line (3), yields return line (4), pan feeding belt line (5) and moves and carry platform (6), defective products return line (3) test product cargo airplane (2) multichannel test platform (1) yields return line (4) all is X and sets up side by side in proper order around and, pan feeding belt line (5) are X and is in to just the cooperation setting the one end of multichannel test platform (1), it is Y to just the cooperation setting to move and carry platform (6) and be the other end of multichannel test platform (1), defective products return line (3) reach yields return line (4) all with move and carry platform (6) cooperation.
2. The six-station full-automatic pen electrical property testing machine of claim 1, characterized in that: the multi-channel test platform (1) comprises a test support seat (101), a plurality of test stations (102) are sequentially arranged on the test support seat (101) from top to bottom, a test probe lifting module (103) is arranged right above the test stations (102), and test probes (104) are arranged on the test probe lifting module (103) in a matched mode.
3. The six-station full-automatic pen electrical property testing machine of claim 1, characterized in that: pan feeding belt line (5) is including being X to first transportation line (501), be provided with carrier guiding mechanism (502), first carrier push rod mechanism (503), carrier barrier mechanism (504) and second carrier push rod mechanism (505) on first transportation line (501), carrier guiding mechanism (502) and second carrier push rod mechanism (505) all are X to setting up, first carrier push rod mechanism (503) and carrier barrier mechanism (504) all are Y to setting up, carrier barrier mechanism (504) are located the end of carrier guiding mechanism (502), first carrier push rod mechanism (503) and second carrier push rod mechanism (505) are set up side by side in proper order around the carrier barrier mechanism (504) are close to one side of carrier guiding mechanism (502).
4. The six-station full-automatic pen electrical property testing machine of claim 3, characterized in that: a code scanning mechanism (506) is arranged above the second carrier push rod mechanism (505) in a matching manner.
5. The six-station full-automatic pen electrical property testing machine of claim 1, characterized in that: the test product transporter (2) comprises a carrier elevator (201), wherein an elevating plate (202) is arranged on the carrier elevator (201) in a matched mode, and the elevating plate (202) is provided with a carrier transverse transporting mechanism (203) in the X direction.
6. The six-station full-automatic pen electrical property testing machine of claim 2, characterized in that: the number of the test stations (102) is six.
7. The six-station full-automatic pen electrical property testing machine of claim 1, characterized in that: move and carry platform (6) including being Y to second transportation line (601), sliding fit has carrier bearing board (602) on second transportation line (601), the both ends of second transportation line (601) are provided with yields pusher dog mechanism (603) and defective products pusher dog mechanism (604) respectively, yields pusher dog mechanism (603) and defective products pusher dog mechanism (604) respectively with yields return line (4) and defective products return line (3) cooperation.
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CN201921282802.0U CN210775773U (en) | 2019-08-09 | 2019-08-09 | Six-station full-automatic pen electrical property tester |
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CN201921282802.0U CN210775773U (en) | 2019-08-09 | 2019-08-09 | Six-station full-automatic pen electrical property tester |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110376524A (en) * | 2019-08-09 | 2019-10-25 | 珠海冠宇电源有限公司 | Six station Full-automatic pen electric performance test machines |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110376524A (en) * | 2019-08-09 | 2019-10-25 | 珠海冠宇电源有限公司 | Six station Full-automatic pen electric performance test machines |
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