JPH0519953B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an adapter for continuity testing of printed wiring boards used in electronic equipment, and in particular, the present invention relates to an adapter for continuity testing of printed wiring boards used in electronic equipment, and in particular, an adapter in which through-holes for mounting components, terminal parts, etc. are arranged on a non-grid. The present invention relates to a continuity testing adapter device used for testing continuity of a printed wiring board.

[Prior Art] A continuity testing adapter device used to test the continuity of a printed wiring board with a continuity testing machine has a hole drilled at the same position as the testing position of the sample 1 to be tested, as shown in FIG. The continuity test probe pin 2 connected to the test section 15 is mounted on the adapter board 23.
4, align the inspection position of the sample to be inspected with the hole in the adapter, and place the sample to be inspected 1 on the press board 14.
There is an adapter for continuity testing that can be pressed to bring the testing position into contact with the probe pin. However, this continuity testing adapter does not allow probe pin 2 to be used for continuity testing.
Due to the press load received by 4, the probe pin 24
The probe pin 24 is fixed to the adapter board 23 so that the probe pin 24 does not come off from the adapter board 23. Therefore, if the inspection position of the sample to be inspected does not fall on the specified grid, this continuity testing adapter will be used exclusively for the specific sample to be inspected, and will not be used for printed wiring boards produced in small quantities. However, it has the disadvantage of being relatively expensive to produce and difficult to apply.

In order to improve the above-mentioned drawbacks, as shown in Figure 4, a continuity tester is used in which probe pins are arranged on a predetermined grid, and an adapter pin is placed between the sample to be tested and the probe pins in contact with both. using
There is an adapter device for continuity testing that can be used for general purposes by replacing the adapter pins for each sample to be tested without fixing them to the adapter board.

This continuity testing adapter device
An adapter board 26 with holes drilled at the same position as the inspection position of the probe pin 24 and a mesh board 27 with holes arranged on the same grid as the probe pins 24 are integrated by an assembly support 28, and the adapter pin 29 is connected to the test position of the adapter board 26. The adapter is inserted through the insertion hole 30, and the socket at the lower end of the adapter pin 29 is dropped into the hole 31 of the mesh board to form a continuity testing adapter.

A base board 32 on which this continuity testing adapter is fixed with probe pins 24 arranged on a prescribed grid.
By placing the probe pin 24 on the mesh board 27 and matching the position of the probe pin 24 with the perforation position of the mesh board 27,
Connect the socket part of adapter pin 29 to probe pin 2.
The test can be carried out by touching the head part of No. 4.

This continuity testing adapter is compatible with adapter board 2.
6, or the diameter of the pin insertion hole 30 of the adapter board 26 relative to the diameter of the adapter pin 29, and the diameter of the pin insertion hole 30 of the adapter board 26 and the mesh board 27.
Since the adapter pin 29 can be tilted by setting the spatial height of the probe pin 24, the inspection position of the sample to be inspected does not need to be on the same grid as the probe pin 24.

However, if the test positions of the test specimens are close to each other, adjacent adapter pins may cross each other and be set on the mesh board, causing the adapter pins to come into contact with each other during the test and cause a major problem. Become. In addition, in such a continuity test adapter that is indirectly connected by an adapter pin, it is necessary to visually check the position of the probe pin on the mesh board where the adapter pin is set.
A transparent acrylic board is used as the material of 6, and the thickness of the board is selected to be 6 to 10 mm in order to hold the load caused by setting the adapter pin and to suppress excessive inclination of the adapter pin. For this reason, many man-hours are required to process the adapter pin insertion holes, resulting in a disadvantage that the processability of the adapter board is significantly reduced.

In order to solve this problem, the adapter board is divided into thin main board 33 and guide board 34 as shown in FIG.
In order to maintain the thickness necessary to suppress the inclination of the main board 33 and the guide board 34, an adapter device for continuity testing has been developed in which a spacer 35 is disposed between the main board 33 and the guide board 34. However, in this adapter device for continuity testing, the strength required to hold a large number of adapter pins 36 cannot be obtained due to the thin plate thickness of the main board 33. It has a protruding structure without being suspended from the top. Furthermore, since the adapter pin 36 used is directly subjected to press pressure during continuity testing, it has a structure with a built-in spring to absorb the pressure, and the large diameter part for this purpose is exposed at the top of the adapter board. The upper projection requires considerable length. For this reason, the amount of displacement of the head position due to the inclination of the adapter pin is large, which tends to cause misalignment with respect to the inspection position.Furthermore, if the inspection positions are close to each other, the heads of adjacent adapter pins may come into contact, resulting in poor conductivity. There were deficiencies that hindered inspection. Further, due to the structure of the adapter pin 36 used, its unit cost is high, and therefore the adapter itself is extremely expensive.

[Problems to be Solved by the Invention] The present invention improves the above-mentioned drawbacks, stabilizes the operation during inspection, increases inspection accuracy, and improves the accuracy of hole processing of the adapter board and insertion of the adapter pin.
An object of the present invention is to provide a continuity testing adapter device that can be manufactured at low cost by facilitating setting.

[Means for Solving the Problems] The present invention, which solves the above-mentioned technical problems, includes a head portion that contacts the inspection position of a printed wiring board to be tested for continuity, a span portion that is thinner than this head portion, and an end of the span portion. a transparent main board made of an insulating material and having insertion holes provided at positions corresponding to the component mounting holes on the printed wiring board; a transparent guide board made of an insulating material and provided with an insertion hole for guiding an adapter pin inserted through the insertion hole of the main board; and a transparent guide board made of an insulating material that supports the main board and maintains a predetermined distance between the main board and the guide board. a composite adapter board comprising: a metal board fixing frame; a mesh board in which a plurality of grid holes are provided in a grid pattern at regular intervals regardless of the inspection position of the printed wiring board; and a telescoping assembly post for supporting the composite adapter board, the adapter device for continuity testing of a printed wiring board, wherein the plurality of adapter pins have their head portions inserted into the insertion holes of the main board. The print is supported by the edges, the span part is guided by the insertion hole of the guide board, and the print is suspended on the composite adapter board with the socket part inserted into the grid hole of the mesh board. This is an adapter device for testing continuity of wiring boards.

The present invention will be explained in detail below based on FIG. 1 showing one embodiment of the present invention.

Reference numeral 1 denotes a sample to be inspected, and normally a component mounting hole or a terminal portion drilled in the inspection sample comes into contact with an adapter pin 2 as a test site. As shown in FIG. 2, the adapter pin has a head part 19 that contacts the part to be inspected, and a socket part 20 that contacts the probe pin.
Insulating treatment is performed by covering with insulating material 22 except for
Prevents inspection failures due to contact between adapter pins. The material used for this insulation is arbitrary, but
It is desirable that a coating such as insulating paint or plastic film be used to avoid increasing the diameter of the adapter pin too much.

The composite adapter board 21 is divided into a main board 3 and a guide board 4, each of which has adapter pin insertion holes 16 and 17 formed at the same position as the component mounting position of the printed wiring board to be inspected.
Preferably, a countersink hole 25 is formed in the insertion hole 16 of the main board 3 on the side opposite to the board fixing frame 6 so as to fit with the bottom of the head of the adapter pin. In addition, in order to facilitate insertion of the adapter pin into the insertion hole 17 of the guide board 4, the upper surface thereof is
That is, it is preferable that a countersunk hole 26 be formed on the board fixing frame side.

The board fixing frame 6 is made of, for example, an aluminum angle material processed into the shape of a window frame, and is arranged between the main board 3 and the guide board 4, and is fixed with a set screw 7.
The composite adapter board 2 is fixed to the head of the slide pin 9 of the assembly column 8 by the main board 3, board fixing frame 6, and guide board 4.
1.

The assembly support 8 is fixed to the mesh board 5,
Slide pin 9 with spring coil 10 attached
During continuity testing without applying any load, the composite adapter board 21 is pushed upward to the stopper 11 by the elasticity of the spring coil 10. This stopper 11 regulates the height of the composite adapter board 21 when no load is applied, that is, the distance from the main board 3 to the mesh board 5, and any system can be adopted as long as it is a mechanism that is released in response to press pressure during continuity testing. Ru.

The mesh board 5 used is one having the same size as the main board 3 created corresponding to the sample 1 to be inspected. mesh board 5 is base board 1
Grid holes 18 are bored at predetermined intervals to correspond to the probe pins 13 arranged in two rows.

Setting the thickness of the composite adapter board, or setting the main board 3 for the diameter of the span part of the adapter pin 2.
and pin insertion hole 16 of each guide board 4
The degree of freedom of the inclination of the adapter pin is determined by setting the diameters of the main board 3 and the mesh board 5, and by selecting the spatial height of the main board 3 relative to the mesh board 5.

Note that the baseboard 12 on which the continuity testing adapter of the present invention is mounted is preferably covered with another mesh board 40 to protect the pin heads, so that a plurality of testing adapters can be installed on a sufficiently wide baseboard. It is possible to perform a continuity test at the same time.

[Function] The adapter pin 2 is inserted through the pin insertion hole 16 of the main board 3, and then inserted into the setting hole 18 of the mesh board 5 via the insertion hole 17 of the guide board.

As mentioned above, the composite adapter board 21 is pushed up by the elasticity of the spring coil 10 to the position where it is stopped by the stopper 11, so the spatial height of the main board 3 and the mesh board 5 is set relative to the length of the adapter pin 2. If the stopper 11 is set appropriately, the head 19 of the adapter pin 2
The bottom part of the main board 3 is suspended from the main board 3 and can be fitted into the countersunk hole 25 of the main board 3 for stabilization.

Next, install this adapter for continuity testing on the base board of the continuity testing machine so that the probe pin 13 and the perforation position of the mesh board 5 match, set the sample to be tested on the head of the adapter pin, and set it on the continuity testing machine. By lowering the press board 14 and applying a load, the socket portion 20 of the adapter pin 2 and the tip of the probe pin 13 come into contact, and a continuity test is performed via the detection portion 15.

[Effects of the Invention] The advantages of the continuity testing adapter according to the present invention are listed below.

(1) Since the composite adapter board is transparent, the insertion status of the adapter pins can be clearly seen, making it easy to insert the adapter pins. In addition, since the adapter pin inserted into the insertion hole of the main board is suspended in the insertion hole, the head position of the adapter pin is fixed, and there is no deviation from the inspection position of the sample to be inspected, and the inspection position is fixed. Even when the heads are in close proximity, damage caused by mutual contact between the heads is prevented.

(2) In addition, since the surfaces of the adapter pin spans are insulated, there is no need to pay close attention to mutual contact between the adapter pins when loading the adapter pins, and the adapter pin spans do not cross each other.
Since it is possible to insert the adapter pin so as to make contact with each other, and the degree of freedom in setting can be expanded, the inspection efficiency can be improved and the reliability of the inspection results can be improved.

(3) By dividing the adapter board into the main board and guide board to reduce the board thickness and integrating it with the board fixing frame, it is possible to hold the hanging load of the adapter pins, and the pin insertion holes of the main board and guide board can be Processability is improved. Furthermore, the shape of the adapter pin can be simplified, and the manufacturing cost of the adapter device for continuity testing can be reduced.

(4) The adapter set for a specific test sample can be saved until the next test.
The socket end of the loaded adapter pin is protected within the mesh board of the adapter for easy storage.

[Example] An example of the present invention will be briefly described with reference to FIG.

The adapter pin 2, except for its head portion 19 and socket portion 20, is coated with Teflon resin for insulation treatment. As this insulating material, it is also possible to apply an insulating resin other than Teflon or to use a resin tube. In this example, the span shaft diameter of the adapter pin 2 is 1.35 mm, the head diameter is 1.5 mm, and the length of the adapter pin 2 is 100 mm.

The main board 3 and guide board 4 have a board thickness of 3
Main board 3 using mm transparent acrylic board
The diameter of the pin insertion hole drilled in the hole is 1.4φmm, and is smoothed to fit with the bottom of the head of the adapter pin 2. On the other hand, the hole diameter of guide board 4 is
The diameter is 1.5φmm, and in order to make it easier to load the adapter pin 2, it is also subjected to a smooth machining process. The board fixing frame 6 is made of aluminum angle material with a thickness of 3 mm processed into the shape of a window frame, placed between the periphery of the main board 3 and guide board 4, and fixed to the head of the slide pin of the support column 8 with a set screw 7. to form a composite adapter board. The mesh board 5 has the same arrangement as the probe pins 13 mounted on the grid of the base board 12 of the continuity tester.
This is a member with 2.54φmm holes drilled on the grid. The mesh board 5 and the composite adapter board 21 are integrally constituted by a support 8 fixed to each and a slide pin to which a spring coil 10 is attached.

The height of the space between the main board 3 and the mesh board can be freely set by a slide stopper 11 attached to the support column 8, and is set to 100 mm in this example. When no press load is applied to the main board 3, the composite adapter 21 is pushed upward, the adapter pin 2 is suspended from the main board 3, and the head portion 19 of the adapter pin 2 is inserted into the insertion hole 16 of the main board 3. It is fitted into the countersunk hole 25 and fixed. This continuity testing adapter is installed on the base board 12 of the continuity testing machine so that the probe pins 13 of the continuity testing machine are aligned with the positions of the grid holes 18 of the mesh board 5.

Set the printed wiring board to be tested on the head of the adapter pin and press the press plate 14 of the continuity tester.
By lowering the adapter pin, the socket portion of the adapter pin and the tip of the probe pin come into contact with each other, and a continuity test is performed by comparing reference data and inspection data using a detection section.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a continuity testing adapter device according to the present invention, and FIG. 2 is an example of an adapter pin. 3 to 5 are cross-sectional views of a conventional continuity testing adapter device.

Claims (1)

[Scope of Claims] 1. A device for continuity testing that includes a head portion 19 that comes into contact with the testing position of a printed wiring board to be tested for continuity, a span portion that is narrower than the head portion, and a socket portion 20 that is provided at the end of the span portion. an adapter pin 2; a transparent main board 3 made of an insulating material having insertion holes 16 provided at positions corresponding to component mounting holes on the printed wiring board; A transparent guide board 4 made of an insulating material is provided with an insertion hole 17 for guiding the adapter pin, and a metal board fixing member is used to support the main board and maintain a predetermined distance between the main board and the guide board. a composite adapter board 21 consisting of a frame 6; a mesh board 5 provided with a plurality of grid holes 18 in a grid pattern at regular intervals regardless of the inspection position of the printed wiring board; The adapter device for continuity testing of a printed wiring board is equipped with a telescopic assembly post 8 for supporting a composite adapter board, wherein the plurality of adapter pins have their head portions at the edge of the insertion hole of the main board. A printed wiring board, characterized in that the printed wiring board is suspended by the composite adapter board, with the span part guided by the insertion hole of the guide board, and the socket part inserted into the lattice hole of the mesh board. Adapter device for continuity testing. 2. The adapter device for continuity testing of a printed wiring board according to claim 1, wherein a countersink hole 25 is provided on the surface of the insertion hole 16 opposite to the board fixing frame. 3 Countersunk hole 2 on the side of the board fixing frame of the insertion hole 17
6. An adapter device for continuity testing of a printed wiring board according to claim 1 or 2, comprising: 6. 4. The adapter pin 2 for continuity testing has a span portion covered with an insulating material, except for the contact portion between the head portion at the upper end of the adapter pin and the socket portion 20 at the lower end.
An adapter device for continuity testing of a printed wiring board according to any one of claims 1 to 3.