CN212134883U - Double-station mechanism for online test - Google Patents

Abstract

The utility model relates to a duplex position mechanism for on-line measuring belongs to mechanical technical field. Including the test frame, install in the transport structure of test frame upper surface, be located a plurality of tool boards on the transport structure, be located a plurality of test location structure of transport structure both sides, be located a plurality of test structure on the test frame and be located the jacking structure in the middle of the transport structure, the test frame include the backup pad and install in a plurality of bracing pieces of backup pad bottom. The utility model discloses an useful part is: on the tool board is placed to the PCBA board that will wait to detect, carry the position of settlement with the PCBA board through transport structure, through jacking structure with the tool board together with PCBA board jack-up, hold the tool board through test location structure, rethread test structure to the PCBA board test can to wait to detect the PCBA board break away from transport structure, can realize like this that transport structure does not stop, improved the efficiency that detects, the utility model discloses novel structure, convenient operation.

Description

Double-station mechanism for online test

The technical field is as follows:

the utility model relates to a duplex position mechanism for on-line measuring belongs to mechanical technical field.

Background art:

PCBA is English Printed Circuit Board + Assembly for short, it is PCB blank Board through SMT upper part, or through the whole process of DIP plug-in components, PCBA for short, PCBA Board is in the production process, need do various tests, the present test is mostly online test, online test is that PCBA Board circulates on the test line, the in-process of circulation tests, that is to say test under the condition of not deviating from the track, when PCBA Board is testing, whole production line is in the quiescent condition, will become the operation bottleneck of test line like this, reduced test efficiency.

The invention content is as follows:

the utility model discloses the technical problem that will solve is: a double-station mechanism for online testing is provided to solve the problems in the industry.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: the utility model provides a duplex position mechanism for on-line test, including the test frame, install in the transport structure of test frame upper surface, be located a plurality of tool boards on the transport structure, be located a plurality of test location structure of transport structure both sides, be located a plurality of test structure on the test frame and be located the jacking structure in the middle of the transport structure, the test frame include the backup pad and install in a plurality of bracing pieces of backup pad bottom.

Preferably, the conveying structure comprises a group of conveying frames which are arranged in parallel, a conveying belt is arranged on each conveying frame, a conveying motor is arranged at the right side end of each conveying frame, and the conveying motor drives the conveying belt to rotate.

Preferably, the jig plate comprises a jig supporting plate, a plurality of positioning blocks are arranged on the jig supporting plate, and a jacking groove is formed in the bottom of the jig supporting plate.

As preferred, test location structure includes L type backup pad, the side of L type backup pad is provided with lift location cylinder, the side of lift location cylinder is provided with lift location guide rail, be provided with lift location slider on the lift location guide rail, be provided with the lift locating plate on the lift location slider, the top of lift locating plate is provided with horizontal location board, be provided with horizontal location cylinder on the horizontal location board, the side of horizontal location cylinder is provided with horizontal location guide rail, be provided with horizontal location slider on the horizontal location guide rail, be provided with the test locating plate on the horizontal location slider, be provided with the test locating lever on the test locating plate.

Preferably, the test structure comprises a horizontal test base, a plurality of test support columns are arranged on the horizontal test base, a horizontal test upper seat is arranged at the tops of the test support columns, a test cylinder is arranged on the horizontal test upper seat, test guide rails are arranged on two sides of the test cylinder, a test slider is arranged on each test guide rail, a test moving plate is arranged on each test slider, a replaceable base is arranged on the right side of each test moving plate, and a test probe set is arranged on each replaceable base.

Preferably, the jacking structure comprises a jacking cylinder, a jacking plate is arranged on a cylinder shaft of the jacking cylinder, a plurality of jacking guide rods are arranged on the side edge of the jacking plate, jacking guide sleeves are arranged on the jacking guide rods, and the jacking guide sleeves are mounted at the bottom of the supporting plate.

Compared with the prior art, the utility model discloses an useful part is: on the tool board is placed to the PCBA board that will wait to detect, carry the position of settlement with the PCBA board through transport structure, through jacking structure with tool board together with PCBA board jack-up to hold the tool board through test location structure, rethread test structure to PCBA board test can, through foretell method, the PCBA board that will wait to detect breaks away from transport structure, can realize like this that transport structure does not shut down, has improved the efficiency that detects, the utility model discloses novel structure, convenient operation.

Description of the drawings:

the present invention will be further explained with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the conveying structure.

Fig. 3 is a schematic structural view of the jig plate.

Fig. 4 is a bottom view of the jig plate.

FIG. 5 is a schematic diagram of a test fixture.

FIG. 6 is a schematic diagram of a set of test locations.

FIG. 7 is a schematic diagram of a test structure.

Fig. 8 is a schematic structural view of the jacking structure.

In the figure: a test rack 1; a support plate 101; a support rod 102; a conveying structure 2; a conveyance rack 201; a conveyor belt 202; a conveying motor 203; a jig plate 3; a jig supporting plate 301; a positioning block 302; a jacking groove 303; a test positioning structure 4; an L-shaped support plate 401; a lift positioning cylinder 402; a lifting positioning guide rail 403; a lifting positioning slide 404; a lifting positioning plate 405; a horizontal positioning plate 406; a horizontal positioning cylinder 407; a horizontal positioning rail 408; a horizontal positioning slide block 409; a test alignment plate 410; testing the positioning rod 411; a test structure 5; a horizontal test base 501; a test support column 502; a horizontal test upper seat 503; a test cylinder 504; a test rail 505; a test slider 506; a test moving plate 507; a removable base 508; a test probe set 509; a jacking structure 6; a jacking cylinder 601; a jacking plate 602; a jacking guide rod 603; a guide sleeve 604 is jacked.

The specific implementation mode is as follows:

the present invention will be described in detail with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, the double-station mechanism for online testing includes a testing rack 1, a conveying structure 2 installed on the upper surface of the testing rack 1, a plurality of jig plates 3 located on the conveying structure 2, a plurality of testing positioning structures 4 located on two sides of the conveying structure 2, a plurality of testing structures 5 located on the testing rack 1, and a jacking structure 6 located in the middle of the conveying structure 2, wherein the testing rack 1 includes a supporting plate 101 and a plurality of supporting rods 102 installed at the bottom of the supporting plate 101.

As shown in fig. 2, the conveying structure 2 includes a group of conveying frames 201 disposed in parallel, a conveying belt 202 is disposed on the conveying frames 201, a conveying motor 203 is disposed at a right side end of the conveying frames 201, and the conveying motor 203 drives the conveying belt 202 to rotate.

As shown in fig. 2 and 4, the jig plate 3 includes a jig supporting plate 301, a plurality of positioning blocks 302 are disposed on the jig supporting plate 301, and a jacking groove 303 is disposed at the bottom of the jig supporting plate 301.

As shown in fig. 5 and 6, the test positioning structure 4 includes an L-shaped support plate 401, a lifting positioning cylinder 402 is disposed on a side of the L-shaped support plate 401, a lifting positioning guide rail 403 is disposed on a side of the lifting positioning cylinder 402, a lifting positioning slider 404 is disposed on the lifting positioning guide rail 403, a lifting positioning plate 405 is disposed on the lifting positioning slider 404, a horizontal positioning plate 406 is disposed at a top end of the lifting positioning plate 405, a horizontal positioning cylinder 407 is disposed on the horizontal positioning plate 406, a horizontal positioning guide rail 408 is disposed on a side of the horizontal positioning cylinder 407, a horizontal positioning slider 409 is disposed on the horizontal positioning guide rail 408, a test positioning plate 410 is disposed on the horizontal positioning slider 409, and a test positioning rod 411 is disposed on the test positioning plate 410.

As shown in fig. 7, the test structure 5 includes a horizontal test base 501, a plurality of test support columns 502 are arranged on the horizontal test base 501, a horizontal test upper seat 503 is arranged at the top of each test support column 502, a test cylinder 504 is arranged on the horizontal test upper seat 503, test guide rails 505 are arranged on two sides of each test cylinder 504, a test slider 506 is arranged on each test guide rail 505, a test moving plate 507 is arranged on each test slider 506, a replaceable base 508 is arranged on the right side of each test moving plate 507, and a test probe group 509 is arranged on each replaceable base 508.

As shown in fig. 8, the jacking structure 6 includes a jacking cylinder 601, a jacking plate 602 is disposed on a cylinder shaft of the jacking cylinder 601, a plurality of jacking guide rods 603 are disposed on a side of the jacking plate 602, a jacking guide sleeve 604 is disposed on the jacking guide rods 603, and the jacking guide sleeve 604 is mounted at the bottom of the support plate 101.

When the device is used, a PCBA board to be detected is placed on the jig plate 3, the jig plate 3 is placed on the conveying belt 202, the jig plate 3 is driven to move by the conveying belt 202, after the jig plate 3 is moved to a set position by the conveying belt 202, the jacking cylinder 601 is started, the jacking cylinder 601 drives the jacking plate 602 to ascend, finally the jacking plate 602 is jacked into the jacking groove 303, the jacking plate 602 is positioned by the jacking groove 303, the stability of the jig plate 3 is improved, after the jig plate 3 is continuously pushed to the set position by the jacking cylinder 601, the lifting positioning cylinder 402 is started, after the testing positioning plate 410 is lifted to the set position by the lifting positioning cylinder 402, the horizontal positioning cylinder 407 is started, the testing positioning plate 410 is pushed by the horizontal positioning cylinder 407 to move and move to the set position, then the lifting positioning cylinder 402 is started, the testing positioning rod 411 on the testing positioning plate 410 is inserted into the jig plate 3, and then, lifting the jig plate 3 to a set position, starting the testing cylinder 504, pushing the testing probe group 509 to move to the PCBA to be tested through the testing cylinder 504, and testing the PCBA.

Through the method, the tool plate 3 and the PCBA to be detected are separated from the conveying structure 2, so that the traditional PCBA online test method is replaced, and the test efficiency is improved.

It is to be emphasized that: the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form, and any simple modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (6)

1. A duplex position mechanism for on-line measuring which characterized in that: including test frame (1), install in transport structure (2) of test frame (1) upper surface, be located a plurality of tool boards (3) on transport structure (2), be located a plurality of test location structure (4) of transport structure (2) both sides, be located a plurality of test structure (5) on test frame (1) and be located jacking structure (6) in the middle of transport structure (2), test frame (1) include backup pad (101) and install in a plurality of bracing pieces (102) of backup pad (101) bottom.

2. The double station mechanism for in-line testing of claim 1, wherein: conveying structure (2) are including a set of carriage (201) of placing parallel to each other, be provided with conveyor belt (202) on carriage (201), the right side end of carriage (201) is provided with conveying motor (203), conveying motor (203) drive conveyor belt (202) rotate.

3. The double station mechanism for in-line testing of claim 1, wherein: the jig plate (3) comprises a jig supporting plate (301), a plurality of positioning blocks (302) are arranged on the jig supporting plate (301), and a jacking groove (303) is arranged at the bottom of the jig supporting plate (301).

4. The double station mechanism for in-line testing of claim 1, wherein: the test positioning structure (4) comprises an L-shaped supporting plate (401), a lifting positioning cylinder (402) is arranged on the side edge of the L-shaped supporting plate (401), a lifting positioning guide rail (403) is arranged on the side edge of the lifting positioning cylinder (402), a lifting positioning slide block (404) is arranged on the lifting positioning guide rail (403), a lifting positioning plate (405) is arranged on the lifting positioning slide block (404), a horizontal positioning plate (406) is arranged at the top end of the lifting positioning plate (405), a horizontal positioning cylinder (407) is arranged on the horizontal positioning plate (406), a horizontal positioning guide rail (408) is arranged on the side edge of the horizontal positioning cylinder (407), a horizontal positioning slide block (409) is arranged on the horizontal positioning guide rail (408), the horizontal positioning sliding block (409) is provided with a testing positioning plate (410), and the testing positioning plate (410) is provided with a testing positioning rod (411).

5. The double station mechanism for in-line testing of claim 1, wherein: the test structure (5) comprises a horizontal test base (501), a plurality of test support columns (502) are arranged on the horizontal test base (501), a horizontal test upper seat (503) is arranged at the top of each test support column (502), a test cylinder (504) is arranged on each horizontal test upper seat (503), test guide rails (505) are arranged on two sides of each test cylinder (504), test sliders (506) are arranged on the test guide rails (505), a test moving plate (507) is arranged on each test slider (506), a replaceable base (508) is arranged on the right side of each test moving plate (507), and test probe sets (509) are arranged on the replaceable base (508).

6. The double station mechanism for in-line testing of claim 1, wherein: the jacking structure (6) comprises a jacking cylinder (601), a jacking plate (602) is arranged on a cylinder shaft of the jacking cylinder (601), a plurality of jacking guide rods (603) are arranged on the side edge of the jacking plate (602), jacking guide sleeves (604) are arranged on the jacking guide rods (603), and the jacking guide sleeves (604) are arranged at the bottom of the supporting plate (101).

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