DE3507619A1 - Adaptor for a circuit board tester - Google Patents

Abstract

The invention relates to an adaptor (13) for a circuit board tester, by means of which test contacts with matrix spacing can be connected, by means of adaptor pins (14), to test points, with/without matrix spacing, of a circuit board to be tested, with a first, a second, and a third guide plate (17-19) which are arranged in parallel and at a distance from one another, the guide plates (17-19) exhibiting guide holes (21, 23) into which the adaptor pins (14) can be inserted. It is the purpose of the invention to design the adaptor (13) in such a manner that after an adaptor pin (14) has been inserted into a guide hole (21) of the first guide plate (17), it is not necessary to search for the guide hole (22) located thereunder. This is achieved by the fact that, even with maximum offset (V1) from matrix spacing of a guide hole (23) of the third guide plate (19), an adaptor pin (14) inserted into the associated guide hole (21) of the first guide plate (17) and inserted perpendicular to the latter still hits the associated guide hole (22) of the second guide plate (18) with its conically tapering end (31). <IMAGE>

Description

Adapter for a circuit board tester

The invention relates to an adapter according to the preamble of claim 1.

An adapter of this type is the subject matter of an older embodiment an older patent application. In the older embodiment, the offset is the Guide holes lying outside the grid in the second guide plate are selected in such a way that that - if the offset is a maximum - the conical tip of the adapter pins in any case still dips into the guide holes of the second guide plate, regardless of the pin deflection angle at which the adapter pins in the first guide plate are plugged in. This is the thickness of the first guide plate and the amount of movement the adapter pins in their guide holes and the play in the guide holes the second guide plate matched so that the conical tips the adapter pins into the guide holes of the third guide plate when inserting immerse.

The older embodiment turns out to be a useful solution but it needs to be improved for the following reasons.

It is guaranteed that the tip of the adapter pin in question when it is deflected, it dips into the guide hole below, however it is necessary to search for this hole, especially in the case of a maximum offset, which is done by moving the adapter pin in different directions.

As a result, an adapter pin is inserted in one go only possible if the position of the tip of the adapter pin with the position of the guide hole. If this is not the case, the relevant guide hole must first be felt.

This is a hindrance to the assembly process.

The invention is based on the object of an adapter of the initially designated design so that it is after the insertion of an adapter pin in a relevant hole of the first guide plate not looking for the one below Guide hole is required.

This object is contained in claims 1 and 2 Features solved.

Both solutions according to the invention have a special positioning the portions of the hole edges facing away from the offset direction in the first and common in the second guide plate. Because of the positioning according to the invention this hole edge becomes a perpendicular in the relevant guide hole of the first Guide plate inserted pin automatically into the associated guide hole of the second guide plate inserted when the offset of this guide hole or of the guide hole in the third guide plate is a maximum. The introduction is guaranteed because the adapter pin in question, in the worst case, i.e. at maximum offset, its tip hits the edge of the hole and consequently is passed into the relevant guide hole. At all against the maximum Offset is smaller offset dimensions the introduction of the adapter pen tip in the relevant guide hole ensured that the adapter pin with a point positioned within the edge of the hole strikes the edge of the hole.

As a result, after the adapter pin in question has been inserted into the Guide hole of the first guide plate has been introduced, led down vertically or can be dropped in a vertical position.

In both cases, the adapter pin is inserted into the associated guide hole the second guide plate is automatically introduced and it is also due to the existing guide alignment in the associated guide hole of the third guide plate initiated.

In the embodiment according to the invention, it is necessary to equip the Adapters with adapter pins therefore do not search for the guide holes in the second Guide plate.

The embodiment according to the invention is suitable for both the machine as well as for manual assembly with adapter pins. In both cases you can the adapter pins lowered or dropped in a vertical position will. Dropping is particularly suitable for manual loading because it saves a lot of time.

The adapter according to the invention is fully reproducible. This is by limiting the maximum offset in terms of a possible one maximum offset of adjacent guide holes guaranteed.

The training according to claim 3 is in particular for manual loading advantageous with adapter pins because guide holes in the first guide plate, which do not need to be populated are not available at all. Hence is in every existing one Guide hole to introduce an adapter pin, eliminating confusion during insertion are avoided.

The embodiments according to claims 4 and 5 of the invention Adapter simplified by the same shape.

An embodiment of the invention is based on a simplified drawing described in more detail.

It shows: FIG. 1 a partial section through a device for testing Printed circuit boards, the partial section being perpendicular to that recorded in the device, according to the invention configured adapter runs; Fig. 2 is a vertical partial section through the Adapter according to Fig. 1.

In Fig. 1 is a receiving plate of the not shown as a whole Device for testing printed circuit boards denoted by 1. On this mounting plate 1 there is a printed circuit board 2 with test points 3. Above those to be tested Circuit board 2 is a perforated grid plate 4, the holes 5 of which are arranged in the grid are, and two in directions on the circuit board 2 and back movable modules 6, which are provided with test contacts 7 in the form of pins on their lower end faces are, which in the lowered position of a module 6, the holes 5 in the Raster reach through perforated plate 4. The test contacts 7 carry telescopically retractable and extendable test contact heads 8 in the direction of their outer end position are biased by a spring, not shown.

The test contacts 7 are fastened in the modules 6 by potting and are connected by electrical lines 9 with circuit boards carrying IC chips 11 12 in connection, which are arranged within the modules 6 and in their entirety with the circuit boards 12, the IC chips 11 and possibly other components form a sub-switch matrix assigned to the test contacts 7.

On the circuit board 2 there is a grid adjustment adapter 13, which has a plurality of adapter pins 14 extending through it, which are in the grid Connect the arranged test contacts 7 to the test points 3 arranged outside the grid. The adapter pins 14 are therefore not in the respective alignment with the test contacts, but extend obliquely through the adapter 13, with both ends protrude from the adapter and raised contact points with respect to the top and bottom form. The length of the adapter pins 14 is denoted by 1.

The height, which is a little smaller in comparison with this length 1 of the adapter pin 13 is denoted by n. The adapter pins 14 have ball heads 15 on top of the adapter 13.

The adapter 13 consists of three one above the other and parallel to one another arranged guide plates, namely a first upper guide plate 17, a second middle guide plate 18 and a third lower guide plate 19, in the usual way in the sense of a box design in their positions shown are fixed and held together.

Fig. 2 shows three guide holes 21 in the first guide plate 17, each of which has guide holes 22 in the second guide plate 18 and guide holes 23 in the third guide plate 19 are assigned.

The guide holes assigned to one another are located one above the other, and an adapter pin 14 is inserted in each case. The adapter pins 14 are with their ball heads 15 on the hole edges 26 of the guide holes 21 in the first Guide plate 17 on. The diameter D of the guide holes 21 to 23, the diameter d of the adapter pins 14 and the thickness e of the guide plates 17 to 19 are respectively the same size.

The mutually associated guide holes shown on the left in FIG. 2 21 to 23 are in the grid of the test points, i.e. there is no lateral Offset between these guide holes and the associated adapter pin 14 is located in it in a vertical position.

Of the guide holes 21 to shown in the middle in FIG 23, the guide hole 23 in the third guide plate 19 is offset to the left. The 25rs ^ zma: ° is denoted by V1 and is a maximum with regard to possible offset dimensions adjacent guide holes 23. The relevant guide hole 22 in the second guide plate 18 is offset towards the same offset direction (arrow 27), but by a considerable amount smaller dimension, namely the offset dimension V2, which is not greater than the radius r of the adapter pin 14.

Thus, from the hole edges 28, 29 facing away from the offset direction 27 the guide holes 21,22 of the edge of the hole 29 opposite the edge of the hole 28 also around offset V2. As a result, it is ensured that a vertical into the first guide hole 21 introduced adapter pin 14 with his conical tip 31 either within the guide hole 22 or in the worst case Trap, namely when the offset V1 is a maximum, onto the hole edge 29 occurs, whereby in all cases the relevant adapter pin 14 in the guide hole 22 is steered or directed. The position of the adapter pin 14 in which the tip 31 of which arrives in the region of the guide hole 22 when it is inserted shown with solid lines.

The adapter pin 14 automatically enters the guide hole 22, falls further down and also automatically comes through the first guide hole due to the 21 and the second guide hole 22 formed guide into the third guide hole 23, as indicated by dash-dotted lines. This is due to a small amount of play s easy running of the adapter pin 14 in the guide holes 21 to 23 is guaranteed.

In the guide hole arrangement shown on the right in FIG as in the case described above, a test point located in the grid through a Adapter pin 14 connected to an off-grid printed circuit board point. In this case, the lateral offset of the guide holes 22, 23 is significantly less than in the case described above. Therefore, one in a vertical position meets the first guide hole 21 inserted adapter pin 14 with its tip 31 in one Distance from the edge of the hole 29 to the guide hole 22 in the second guide plate 18, as shown in solid lines.

When inserting the adapter pins 14, all that is required is them Introduction to the pilot holes 21 of the first guide plate 17, after which the adapter pins 14 slowly lowered or dropped in the vertical position can be. In both cases, the adapter pins 14 automatically slide into the positions assigned to them.

The adapter pins 14 are made in a known manner from electrically conductive Material to make a connection between the test points and the circuit board points to manufacture. The guide plates 17 to 19, however, do not consist of electrical conductive material.

The invention is not limited to the displacement directions described above limited. It is of course possible to allow a variety of offset directions for each guide hole 23 within a predetermined by the maximum offset Environment.

The following dimensions are used for the above-described exemplary embodiment indicated: thickness of each of the three guide plates 17 to 19 = 1.7 mm diameter of all Guide holes 21 to 23 = 1.7 mm diameter of the adapter pins 14 = 1.35 mm the second guide plate 18 has a distance o to the third guide plate 19, the about 80 ° ó from the distance p between the first guide plate 17 and the third guide plate 19 is.

Claims (5)

CLAIMS 1) Adapter for a circuit board tester by means of which Test contacts located in the grid with test contacts located in or out of the grid a circuit board to be tested can be connected by adapter pins attached to their the ends facing the test contacts located in or out of the grid tapers conically are, with a first, a second and a third guide plate that are parallel and are arranged at a distance from one another, the first guide plate in the grid has located guide holes for the adapter pins that are located in the grid Test contacts are assigned, the third guide plate in and out of grid has located guide holes for the adapter pins, the inside and outside Grid located test contacts are assigned, and wherein the between the first and third guide plate located second guide plate too in and out of the grid located guide holes for the adapter pins, of each associated with one of the guide holes in the first and third guide plates is, and of which the off-grid guide holes are a lesser one Out-of-grid offsets have as the corresponding off-grid pilot holes in the third guide plate, such that one in a guide hole of the first guide plate and adapter pin inserted into the associated guide hole of the second guide plate necessarily passed into the associated guide hole of the third guide plate is, characterized in that even with a maximum off-grid offset (V1) one Guide hole (23) of the third guide plate (19) into the associated guide hole (21) of the first guide plate (17) and adapter pin inserted perpendicular to the latter (14) in any case still with its conically tapered end (31) into the associated Guide hole (22) of the second guide plate (18) meets. 2) Adapter according to the preamble of claim 1, characterized in that that even with the maximum off-grid offset (V1) of a guide hole (23) the third Guide plate (19) opposite the associated guide hole (21) in the first guide plate (17) from the edge of the hole (28,29) facing away from the direction of offset (arrow 27) associated guide holes (21,22) in the first and second guide plates (17,18) the edge of the hole (29) of the guide hole (22) in the second guide plate opposite the edge of the hole (28) of the guide hole (21) in the first guide plate (17) by not more than a dimension (V2) corresponding approximately to the radius (r) of the adapter pin (14) is offset. 3) Adapter according to claim 1 or 2, characterized in that the first guide plate (17) has guide holes (21) only at the grid points, which test contacts are assigned to the circuit board (2). 4) Adapter according to one of claims 1 to 3, characterized in that that all guide hole diameters (D) and all adapter pin diameters (d) respectively are of the same size. 5) Adapter according to one of Claims 1 to 4, characterized in that that all guide plates (17-19) have the same thickness (e).