DE3511821C1 - Adaptor for holding printed-circuit boards which are to be tested on both sides - Google Patents

Abstract

In order to simplify the reequipment and construction of an adaptor for testing printed-circuit boards on both sides by means of an automatic measurement system, the contact-carrier boards which can be displaced towards one another and carry on their inside the contact needles which can be pressed onto the top of the printed-circuit boards which are to be tested, together with the holding device (which is provided between these contact-carrier boards) for the printed-circuit board are constructed as a replaceable adapter unit on whose rear side the contacts which can be connected to the measurement system are fitted, while the drive unit which has the drive device for displacing the contact-carrier boards is fitted to the measurement system and has two compression arms which can be displaced towards one another, between which the replaceable adapter unit can be inserted.

Description

In the adapter system according to the invention, the mechanical drive device is separate from the actual adapter unit to be adapted to the respective test objects, it can therefore be used together for different to different test objects adapter units to be adapted. The adapter units themselves are very simple in structure and only contain those components that are necessary for adaptation to different DUTs are absolutely necessary, namely only the receiving device for the PCB to be tested and the one attached to both sides of it so that it can be moved Contact carrier plates on which the contact needles required for the respective test process are attached in the desired pattern. All mechanical drive parts are housed in the separate drive unit. This is an inventive Adapter system can be set up very easily and cheaply and, above all, very quickly Can be converted to different test items, since only the simply constructed and cheap manufacturable adapter unit must be replaced, which without interfering with the electrical Wiring simply by removing the adapter unit from the drive unit and reinserting the other adapter unit and plugging it into the rear attached contact strips in the assigned genorni (en contact strips the measuring system happens. This is the first time that such a system can be converted take place fully automatically via a machine, since only the adapter units are plugged in must be and no more interference in the electrical or mechanical structure of the adapter is necessary for the conversion. Since the adapter unit according to the invention includes only those components to be adapted that are most necessary for the respective test items, as is very easy and cheap to manufacture, can be used for a wide variety of test items such adapter units are kept in stock and so an automatic measuring system can be changed over to new test work very quickly. Of course you can too the adapter unit itself can be retrofitted very easily for new test items, since only the contact carrier plates with the associated contact blocks of the interface are hard-wired, must be swapped for others, while the rest mechanical structure of the adapter unit can be retained.

The invention is illustrated below with reference to a schematic drawing explained in more detail using an exemplary embodiment.

The figure shows schematically an adapter for receiving one of both sides to be electrically tested circuit board 1, the one on the front side schematically indicated measuring system 2 is attached. The measuring system is in one housed larger rack frames equipped with various measuring instruments.

On the front of the measuring system 2 there is a storage table 3 to the front from, in the rear edge area 4 standardized electrical contact sockets attached that leads into the interior of the measuring system and the interface between the adapter and display the measuring system. Above this storage table 3 is on the front of the A drive unit 5 is attached to the measuring system and is designed as a stem above the table 3 and has two downwardly projecting pressure arms 6 and 7. On these pressure arms 6 and 7 are each narrow pressure plates 8 and 9 attached, which with the on the Table 3 parked actual adapter unit 10 interact.

The drive unit 5 comprises an electromagnetically controlled double-acting compressed air cylinder, which with its piston rod 12 is a linear slidably mounted rack 13 cooperates and diesc in the direction of the shown Double arrow moves. Parallel to the rack 13 is a second opposite Rack 14 mounted so as to be linearly displaceable and between the opposing racks 13 and 14 a meshing pinion 15 is attached so that the two racks 13 and 14 via the motor 11 in opposite directions in the sense of the double arrows shown can be moved horizontally over the table 3. Instead of the air cylinder could of course any other motor 11 can be used, for example also an electric motor, if no compressed air is available at the test station. At the ends of the two Racks 13 and 14 which are horizontally displaceable in opposite directions are the downwards protruding pressure arms 6 and 7 attached, which are thus synchronous to each other via the motor 11 can be moved towards and away from each other. The entire drive unit 5 is open attached to a frame, which can preferably be pivoted away on one side via a hinge is attached to the (, frame of the measuring system. This means that the entire drive unit be swiveled out from the front of the measuring system so far that the in the area of the adapter Measuring system are freely accessible.

The actual adapter unit 10 consists of a base plate 16, which can be connected to the interface contacts of the measuring system on its rear side 18 Contact strips carries. Two side frames are upward from the base plate 16 19 and 20, which are attached to the base plate and to guide the actual Contact carrier plates 21, 22 are used, which on their the printed circuit board to be measured 1 opposite inside in the desired arrangement thin in itself resilient Wear contact pins 23. The contact carrier plates are on the corresponding frame parts fastened at their diametrically opposite corners via linear sliding sleeves 24 are slidably guided on the stationary side frame 19, 20. With the axial outwardly over the side frames 19 and 20 protruding ends of these sliding sleeves 24 the ends of the pressure plates 8 and 9 cooperate. By compression springs that the Sliding sleeves 24 are assigned, the contact carrier plates 21, 22 are respectively biased in the outward direction from the circuit board 1 in the rest position. Between towards each other and away from each other by the compression springs into the rest position pretensioned contact carrier plates 21, 22 is the convertible on the base plate 16 Receiving device 25 for the printed circuit board 1 to be tested is attached. Not at that visible, the front plate of the measuring system 2 facing side of this receiving device 25 the contact strip for the printed circuit board 1 to be tested is attached.

The adapter unit 10 can be removed very easily be converted to different test items 1, it is only necessary to to incorporate a receiving device 25 suitable for the respective circuit board 1 and in the frames 26, 27 which can be moved towards one another, suitable contact carrier plates 21, 22 to be used on the inside for the respective circuit board 1 has the necessary distribution of contact needles. The one on the back of the contact carrier plates 21, 22 lead away connecting lines of the contact needles are in the space between the contact carrier plates 21, 22 and the associated side frames 19 and 20 after guided down into the space of the base plate 16 and from there to the on the back 18 interface contact strips attached to the base plate.

An adapter unit equipped in this way for a specific circuit board is then simply attached between the pressure plates 8 and 9 of the measuring system Drive unit 5 pushed in until the interface contact strips on the rear Snap the edge of the base plate 16 into the corresponding contacts on the measuring system. The adapter unit 10 is then attached to the table by a suitable latching device set in this position.

To test a circuit board 1, it is standing vertically from the front inserted into the receiving device 25 until sensor-controlled alignment pins click into place. The contact carrier plates 21, 22 are still held by the compression springs pushed away from each other.

This insertion of the adapter unit and also the insertion of the to circuit board under test in the adapter can easily be via a machine take place.

To carry out an electrical test process, the motor 11 switched on, the two pressure plates 8 and 9 synchronously via the rack and pinion drive shifts towards each other. The ends of the pressure plates 8 and 9 press on here the protruding Ends of the sliding sleeves 24 so that over this against the force of the compression springs, the contact carrier plates 21, 22 in the direction of one another moved to and on the opposite surfaces of the guide plate 1 to be tested until the contact needles at the selected test points of the printed circuit board to be tested come to the plant. The actual electrical test process is then carried out via the measuring system the circuit board carried out, after completion, the motor 11 is in the opposite Direction driven, the printing plates 8 and 9 are thus again synchronized with each other moved away and the contact carrier plates 21, 22 are on the compression springs of the to be measured printed circuit board 1 lifted. The circuit board can then be removed and replaced by the next test item.

It is often the case with electrical testing of such circuit boards also desirable not only on the top of the circuit board electrical measurements to be carried out directly on the contact strip of the circuit board.

In this case it is advantageous to be in the rear area of the adapter unit directly opposite the contact strip receiving the printed circuit board 1 an additional one slidable contact carrier strip which is narrower than the contact carrier plates 21, 22 to be provided, which in turn carries contact needles in a desired distribution. These Contact carrier strip is in turn on by suitable axial guide devices the adapter unit 10 is mounted displaceably, namely perpendicular to the displacement path of the contact carrier plates 21, 22, that is to say from the rear in the direction of the contact strip the circuit board 1 to and away from this. The displacement of this contact carrier strip takes place by a separate preferably again pneumatic drive, the is attached to the drive unit 5. With correctly inserted adapter unit 10 this displaceable contact carrier strip, not shown, arrives in the plant the additional drive device, also not shown, of the drive unit 5 and can then be moved into the measuring position in which your contact needles come to rest on the contacts of the contact strip of the circuit board 1.

To compensate for the pressure forces in the event of an uneven distribution of the Contact needles on the contact carrier plates can be additional, not shown Pressure compensation elements can be provided on the contact carrier plates. For an exact Can guide the contact carrier plates in relation to the printed circuit board to be tested between the receiving device 25 for the circuit board and these contact carrier plates 21, 22 still be provided corresponding guide bearings, also between the printed circuit board to be tested and the contact carrier plates assigned to it additional alignment pins are provided to which sensors are assigned. If the In a vertical position, the printed circuit board is pushed into the receiving device 25 from the front 1 reaches its correct measuring position, the sensor-controlled alignment pins snap into place into corresponding holes in the circuit board 1. Since the invention Device the printed circuit board to be tested standing vertically from the front into the receiving device 25 is inserted, this adapter is particularly suitable for a fully automatic Robotic testing in which the test items are fully automated without an operator are fed in, checked and removed again one after the other.

The adapter according to the invention can also be used in a simple manner different test procedures are carried out one after the other. This is how it is, for example possible to provide spring contact needles of different lengths on the contact carrier plates. Controlled by various limit switches for the displacement of the contact carrier plates the two contact carrier plates are only so far on top of each other for a first test process to moved until the longer contact needles on the circuit board to be tested for Plant come. After completion of this first test process, the contact carrier plates then shifted further towards each other until the somewhat shorter contact needles come to the facility and then carry out a test at several additional test points can be.

Claims (8)

Claims: 1. Adapter for receiving items to be tested on both sides Printed circuit boards, which have electrical contacts attached to its rear side an automatic measuring system can be connected, with two opposite each other at a distance Contact carrier plates which can be moved towards one another by means of a drive device and which have contact needles on their inside that are located on selected circuit points which can be used between the contact carrier plates in a receiving device to be tested printed circuit board can be pressed and electrically connected to the measuring system connectable contacts of the adapter are connected, d a characterized in that the displaceable contact carrier plates (21, 22) and the one arranged between them Receiving device (25) for the printed circuit board (1) to be tested as from the drive unit (5) separate interchangeable adapter unit (10) are formed and with the Measuring system (2) connectable contacts on the back of this adapter unit (10) are attached, while the drive unit (5) is attached to the measuring system (2) and has two pressure arms (6, 7) which can be displaced towards one another, between which the exchangeable adapter unit (10) can be used. 2. Adapter according to claim 1, characterized in that the drive unit (5) with their pressure arms (6, 7) on the front panel of the measuring system (2) above one Support table (3) for the interchangeable adapter units (10) detachably attached is. 3. Adapter according to claim 1 or 2, characterized in that the Pressure arms (6, 7) of the drive unit (5) on two counter-rotating by a motor (11) driven racks (13, 14) are attached. 4. Adapter according to claim 3, characterized in that the motor (11) is an electromagnetically controlled air motor. 5. Adapter according to one of the preceding claims, characterized in that that the adapter unit (10) can be placed on the support table (3) of the measuring system Has base plate (16), on the rear side (18) of which the contact strips for the connection are attached to the measuring system and from which two side frames (19, 20) protrude, on which the contact carrier plates (21, 22) via sliding bearing bushes (24) in such a way are slidably mounted that by pressure of the pressure arms (6, 7) of the drive unit (5) on the protruding ends of the sliding bearing bushes attached to the contact carrier plates (24) these can be moved towards one another. 6. Adapter according to one of the preceding claims, characterized in that that pressure plates (8, 9) are attached to the pressure arms of the drive unit (5), those when the adapter unit (10) is inserted on the protruding beyond the side frames (19, 20) Attack the ends of the sliding bearing bushes (24). 7. Adapter according to one of the preceding claims, characterized in that that the contact carrier plates by acting in the direction of the side frames (19, 20) Springs are biased to their original position. 8. Adapter according to one of the preceding claims che, characterized that on the adapter unit (10) an additional one in the direction of the end face Contact strip of the printed circuit board to be tested (1) movable contact carrier strip and on the drive unit (5) an additional drive device cooperating therewith is provided. The invention relates to an adapter according to the preamble of the main claim. Adapter of this type for double-sided testing of electronic circuit boards Devices that are equipped with components on both sides are known (Micro Mate Adapter System for SMD-equipped printed circuit boards from GenRad). With these known adapters are the contact carrier plates carrying the contact needles interchangeable, so that the adapter can be converted to other test items, the conversion however, it is relatively expensive, since not only the contact carrier plates are made individually their brackets within the drive device built into the adapter. and must be installed but also the cable harnesses by hand, which lead away from the back of the contact carrier plates, with their contact strips need to be changed on the back of the adapter. With the known adapter system it is absolutely necessary to avoid longer test interruptions, at least Provide two such adapters so that one adapter can be converted as long as a test is performed with the other adapter. The known adapters are also very expensive and cumbersome to handle. It is the object of the invention to provide a simple and inexpensive construction To create adapter for automatic double-sided testing of printed circuit boards, the enables quick, uncomplicated conversion to other test items. This task is carried out on the basis of an adapter according to the generic term of Main claim solved by its characterizing features. Advantageous further training result from the subclaims.