CN218350431U - Manual-automatic debugging device of assembly part - Google Patents
Manual-automatic debugging device of assembly part Download PDFInfo
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- CN218350431U CN218350431U CN202221967366.2U CN202221967366U CN218350431U CN 218350431 U CN218350431 U CN 218350431U CN 202221967366 U CN202221967366 U CN 202221967366U CN 218350431 U CN218350431 U CN 218350431U
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Abstract
The invention is used in the field of electronic assembly, and particularly relates to an assembly manual-automatic integrated debugging device. In order to avoid the influence of repeated welding debugging lines on a welding pad of the printed board assembly part and peripheral components thereof in the debugging and testing process of the printed board assembly part, the original mode of welding the debugging lines on the printed board assembly part is changed into the mode of directly contacting debugging points by using a testing contact pin of a device. The test control valve of the device is fixed on the supporting baffle and positioned above the bearing plate of the printed board assembly; the test positioning column is positioned at the bottom of the visual operating platform, and a groove is formed in the visual operating platform and used as a test cable channel I; the test probe set is inserted into the test cable channel I. The device has the advantages of novel material selection, small volume, convenient operation, material and labor cost saving, high safety, good product protection, high utilization rate and good adaptability, and is particularly suitable for the actual requirement of the test of the anisotropic printed board assembly.
Description
Technical Field
The utility model is used for the electronics assembly field, concretely relates to equipment manual-automatic debugs device.
Background
After the printed board assembly is produced, processed and manufactured, the electrical performance needs to be tested and adjusted according to different index requirements. Usually, before debugging and testing, the point to be tested is soldered by using a wire. And after debugging is finished, performing desoldering treatment on the welding spots. In order to avoid the influence of repeated welding debugging lines on a welding pad of the printed board assembly part and peripheral components thereof in the debugging and testing process of the printed board assembly part, and simultaneously to improve the production efficiency and ensure the debugging reliability of the printed board assembly part, the original mode of welding the debugging lines on the printed board assembly part is changed into a mode of utilizing a device to test a direct contact debugging point of a contact pin. The method can ensure effective contact and connection in the test process of the printed board assembly, and realize accurate and efficient electrical performance test. The debugging points at different positions of the printed board assembly are planned in a unified mode, and full-transparent visual automatic debugging is achieved on the device.
Due to the fact that variable factors are more in the debugging process, manual testing is required to be conducted on the local portion of the printed board, semi-hollow design is conducted on the device, and a user can directly conduct testing on the local welding points of the printed board.
In order to ensure that the device supports and protects the printed board in the test process, the bearing plate is assembled by the printed board. Protection shield and installation constant head tank etc. series of measures realize the fixed and accurate location of printing board built-up member test in-process.
Disclosure of Invention
The technical solution problem of the utility model is that: the defects in the prior art are overcome, and the manual-automatic debugging device for the special-shaped complex printed board assembly part is provided. The reliability of the welding pad of the printed board assembly is protected, and the debugging efficiency is improved.
The technical solution of the utility model is that:
an assembly manual-automatic integrated debugging device comprises a test control valve, a visual operating platform, a test positioning column, a test probe group and a printed board assembly bearing plate; the test control valve is fixed on the supporting baffle and is positioned above the printed board assembly bearing plate; the test positioning column is positioned at the bottom of the visual operating platform, and a groove is formed in the visual operating platform and is used as a test cable channel I; the test probe set is inserted into the test cable channel I.
The visual operating platform is fixedly arranged above the device bearing plate, is U-shaped in structure and is made of transparent plate glass fibers.
The supporting baffle is fixedly connected to the square column of the column group through bolts.
The stand group include cuboid stand and cylinder stand, open cuboid stand side has the recess, the tight recess in bolt top of supporting the baffle and can slide from top to bottom in the recess.
The bearing plate of the printed board assembly is a rectangular plate, the interior of the bearing plate is divided into a left rectangular hollow part and a right rectangular hollow part, and the middle of the left rectangular hollow part and the right rectangular hollow part is provided with a flexible board protective plate.
And a rectangular hole is protruded from the hollow lower left corner of the left rectangular to be used as a test cable channel II.
The shape of the groove of the rectangular hollow parts of the left part and the right part is the appearance of the printed board assembly part to be tested, the material is bakelite, and the lower edge of the groove is provided with a strip-shaped auxiliary groove.
The device bearing plate is rectangular plate-shaped, and bearing plate mounting positioning grooves are fixed at four corners of the device bearing plate; the bearing plate mounting positioning groove is a right-angle frame.
The bottom end of the cuboid stand column is fixed on the device bearing plate; the cylinder stand has the guide arm, passes visual operation platform.
The utility model has the advantages that:
the utility model discloses an including test control valve, supporting baffle, stand group, visual operation platform, test reference column, test probe group, printing board subassembly loading board, device loading board, test cable passageway I, flexbile plate protection shield, auxiliary tank, loading board installation constant head tank, test cable passageway II. The device has the advantages of novel material selection, small volume, convenient operation, material and labor cost saving, high safety, good product protection, high utilization rate and good adaptability, and is particularly suitable for the actual requirement of the test of the anisotropic printed board assembly.
Drawings
FIG. 1 is a schematic structural diagram of a manual-automatic integrated debugging device for an assembly part of a special-shaped complex printed board
FIG. 2 is a schematic plan view of an automatic-manual debugging device for an assembly part of a special-shaped complex printed board
Wherein: 1. the test device comprises a test control valve, 2. A supporting baffle, 3. A column group, 4. A visual operation platform, 5. A test positioning column, 6. A test probe group, 7. A printed board assembly bearing plate, 8. A printed board assembly bearing plate, 9. Test cable channels I, 10. A flexible board protection plate, 11. An auxiliary groove, 12. A bearing plate installation positioning groove, 13. A test cable channel II.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and examples.
The manual-automatic integrated debugging device for the special-shaped complex printed board assembly part comprises a test control valve 1, a support baffle 2, a stand column group 3, a visual operation platform 4, a test positioning column 5, a test probe group 6, a printed board assembly bearing plate 7, a device bearing plate 8, a test cable channel I9, a test cable channel 10, a flexible board protective plate 11, an auxiliary groove 12, a bearing plate installation positioning groove 13 and a test cable channel II.
The test control valve 1 and the supporting baffle 2 are supported by the column group 3 and are located above the device bearing plate 8, the visual operating platform 4 is located above the device bearing plate 8, the test positioning column 5 and the test probe group 6 are located on the visual operating platform 4, the printed board assembly bearing plate 7 is located in the middle of the visual operating platform 4 and the device bearing plate 8, the three are parallel, the test cable channel I9 is located in the visual operating platform 4, the flexible board protection plate 10, the test cable channel II13 and the auxiliary groove 11 are located on the printed board assembly bearing plate 7, and the bearing plate installation positioning groove 12 is located in the device bearing plate 8.
The device main body is in an L-shaped structure; controllable operation is realized through the handle. Controlling the contact between a test needle on the test probe group and a welding plate of the printed board assembly by controlling the movement of the handle;
the square upright post with the groove connects the supporting baffle with the device bearing plate; circular stand of taking the guide arm passes visual operation platform, ensures the last test probe group space translation precision of in-process of visual operation platform.
The test positioning column 5 is of a limited cylindrical structure, so that the test probe group is ensured to be in full contact with a point to be tested on the printed board assembly part, and the test point of the printed board assembly part is not damaged.
Printed board built-up member loading board 8 is rectangular plate structure, and inside recess size is the overall dimension of the printed board built-up member that awaits measuring, and edge and intermediate position have auxiliary tank 11, and the printed board built-up member of being convenient for is placed and is taken out. When the printed board assembly part 8 is installed in the carrier plate, the outer edge of the carrier plate is coplanar with the surface of the printed board assembly part to be tested. The material is bakelite (phenolic plastic) which is an insulating material, does not deform when heated and has certain mechanical strength. The bearing plate has uniform external dimension, is convenient for uniform management, and improves the universality of the device. The internal shape is different according to the difference of the printed board to be tested, and the problem of test positioning of the anisotropic printed board assembly part is particularly solved.
The device bearing plate 8 is of a cuboid structure and is used for supporting the device and bearing the printed plate assembly bearing plate through the inner bearing plate mounting positioning groove. And the printed board assembly is ensured to be accurately installed and positioned.
The test cable channel I9 is a square groove, is positioned on the visual operating platform and is used for butting connectors on the upper surface of the printed board assembly.
The test cable channel II13 is in a rectangular groove structure, is located in the printed board assembly part bearing plate 7 and is used for butting connectors on the lower surface of the printed board assembly part.
The flexible plate protection plate 10 is of a rectangular plate structure and comprises two positioning mounting holes, and the flatness and the fixation of the flexible plate of the rigid-flex plate can be guaranteed. The reliability of the test process is guaranteed.
Claims (9)
1. The utility model provides an equipment manual-automatic debugs device which characterized in that: the device comprises a test control valve (1), a visual operating platform (4), a test positioning column (5), a test probe group (6) and a printed board assembly bearing plate (7); the test control valve (1) is fixed on the supporting baffle (2) and is positioned above the printed board assembly bearing plate (7); the test positioning column (5) is positioned at the bottom of the visual operating platform (4), and a groove is formed in the visual operating platform (4) and is used as a test cable channel I (9); the test probe set (6) is inserted into the test cable channel I (9).
2. The assembly manual-automatic debugging device of claim 1, characterized in that: the visual operating platform (4) is fixedly arranged above the device bearing plate (8), the structure is U-shaped, and the material is transparent plate glass fiber.
3. The assembly manual-automatic debugging device of claim 2, characterized in that: the supporting baffle (2) is fixedly connected to the square columns of the column group (3) through bolts.
4. The assembly manual-automatic debugging device of claim 3, characterized in that: the stand group (3) include cuboid stand and cylinder stand, open the cuboid stand side has the recess, the tight recess in bolt top of supporting baffle (2) can slide from top to bottom in the recess.
5. The assembly manual-automatic debugging device of claim 1, characterized in that: the printed board assembly bearing plate (7) is a rectangular plate, the interior of the printed board assembly bearing plate is divided into a left rectangular hollow part and a right rectangular hollow part, and a flexible board protective plate (10) is arranged between the left rectangular hollow part and the right rectangular hollow part.
6. The assembly manual-automatic debugging device of claim 5, characterized in that: and a rectangular hole is protruded from the hollow left lower corner of the left rectangular to be used as a test cable channel II (13).
7. The assembly manual-automatic debugging device of claim 5, characterized in that: the shape of the groove of the rectangular hollow parts of the left part and the right part is the appearance of the printed board assembly part to be tested, the material is bakelite, and the lower edge of the groove is provided with a strip-shaped auxiliary groove (11).
8. The assembly manual-automatic integrated debugging device of claim 2, characterized in that: the device bearing plate (8) is rectangular plate-shaped, and bearing plate mounting positioning grooves (12) are fixed at four corners; the bearing plate mounting positioning groove (12) is a right-angle frame.
9. The assembly manual-automatic debugging device of claim 4, characterized in that: the bottom end of the cuboid stand column is fixed on the device bearing plate (8); the cylindrical upright post is provided with a guide rod which penetrates through the visible operating platform (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202221967366.2U CN218350431U (en) | 2022-07-28 | 2022-07-28 | Manual-automatic debugging device of assembly part |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202221967366.2U CN218350431U (en) | 2022-07-28 | 2022-07-28 | Manual-automatic debugging device of assembly part |
Publications (1)
Publication Number | Publication Date |
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CN218350431U true CN218350431U (en) | 2023-01-20 |
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Family Applications (1)
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CN202221967366.2U Active CN218350431U (en) | 2022-07-28 | 2022-07-28 | Manual-automatic debugging device of assembly part |
Country Status (1)
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CN (1) | CN218350431U (en) |
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2022
- 2022-07-28 CN CN202221967366.2U patent/CN218350431U/en active Active
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