DE3518626C2 - - Google Patents

Description

The invention relates to a test probe for testing Printed circuit boards and assembled circuit boards, with a stylus, the one contact head and one integral with this, the Has power supply serving shaft and in one Needle holder is slidable, and with a shaft of Stylus surrounding coil spring with one end on the stylus and with its other end on one Support part of the needle holder is supported.

The building block used in the largest amount Electronics is the printed circuit board or the assembled one Circuit board (in the further circuit board). The Reliability, flawlessness of these circuit boards is crucial for the finished product Meaning, so it is essential to consider the eventual To be able to determine errors with the highest accuracy. The Checking the circuit boards is both before and after assembly.

To check the circuit boards is accordingly a number of methods for the parameters to be checked has been developed. Most of the test fixtures are used to connect the measurements and processing electronic central measuring unit to the measuring points of the circuit board to be tested so-called connection fields with needle bearings are used, since this is the simultaneous connection of one except neatly large number of measuring points with acceptable Ensure security. The needle bearings form one Interface between the measuring device and the device under test Printed circuit board, the most important of which is reliability in crucial element influencing the touch needle itself is.

A more common solution to training The stylus represents the solution to the  movable cylindrical part of the stylus in one cylindrical tube with loose adjustment is guided and under the moving part the default performing spring is arranged. This unit can to be arranged separately in a receiving sleeve in turn with one for connecting the electrical Measuring line suitable end piece is provided, which in most of the cases on the wire winding process is suitably trained. This receiving sleeve will tight according to the position of the points to be checked adapted in the formed from insulation material Hole arranged.

Such solutions are made up of several units built up. The first and most important of these units represents the needle head and the shaft, the only manufactured using a special machine park can be. The formation of the needle head will by the shape of the point to be checked and the appropriate contact determined jointly. To guarantee performance of better contact will be on the needle Head edges formed, which enables this that is easily formed on the circuit boards To break through oxide layer. The shaft part contains in almost all cases several shoulders and for his There is cylindrical shape and surface quality strict regulations as this is in a second unit is arranged precisely adapted. The simplest version The second unit is a cylindrical tube that both in its bore and on its coat is precisely and finely machined so that in its Bore the shaft part loose with good power supply is customizable.  

In the general case it is also cylindrical Provide pipe with stop edges and shoulders. The Jacket of the cylindrical tube is in a third Unit precisely arranged, which is a recording represents sleeve, the receiving sleeve with one, the Power connection securing end is provided. The Formation of the end depends on the type of power supply from / soldering, pressing, wire winding technology / wire-wrapping /, etc./. These three units, but at least the one last two, are provided with a precious metal cover, to improve the conditions of the power line. The needle holder as a receiving and positioning element can according to the shape and dimensions of the resilient styli, as well as according to the test requirements be carried out very differently.

The known solutions mentioned have several disadvantages

The cylindrical and shouldered Receiving sleeves, the adapting tube, the needle shaft and the needle head are extraordinary small diameters and with great accuracy to edit. Special machines are required for this. The needles are made of several pieces, and the surfaces to be matched must be replaced be trained bar. On the coat, as well as in the Drilling of the cylindrical parts or pipes is one excellent surface quality an indispensable Requirement. This is a disadvantageous construction and other disadvantageous properties. Out The above shows that the current path is in divides such constructions into two parts. In In the first section, the measuring current flows over the  jointly moving, unitary needle head and needle shaft, and then divides into two parts.

The one current path leads across each other adapting but moving towards each other cylindrical inner surfaces to which the spring housing forming sleeve, from there via a contact resistance to the also cylindrical receiving sleeve and arrives to the connection point of the measuring conductor.

The other current path is through the between the immovable and the movable part of the needle construction in a mechanically prestressed state arranged compression spring, the current of the needle shaft via a contact resistance the feathers passed, then from there also over a contact resistance in the adapter tube (see e.g. DE 31 36 896 A1), where this current is the same as that described above Power path conducted electricity combined.

The dimensions and the material of the print are thus determined by two conditions, the first being through that on the head of the stylus given spring force to be exerted and the properties the suspension is determined and the second condition is that the material of the spring should be electrically conductive. Of these two conditions necessarily pass the electrical properties in the background that but are not negligible. Because of the transition resistances and the moving rubbing themselves matching cylindrical parts become the Cover surfaces with precious metal. Thus, to secure the line of electricity is a additional technological step in the Insert manufacturing process.  

With such constructions must be expected that the power line over such Areas take place as a result of each other moving surfaces are subject to wear. Another disadvantage is that the Crumble surfaces due to wear and tear into the accumulate in most cases in the form of oxides.

As can be seen from the above, the electrical conductivity of the entire stylus the resting contact resistances through which constantly changing contact resistance values of the moving rubbing surfaces and the electrical Spring parameters determined. This fact leads to a large spread of the resulting values and in Over time it becomes an undesirable Increase in contact resistance, causing the Reliability of the entire measuring process is significant is reduced.

Other known inventions attempted this Solve problem in other directions. For this It is characteristic that solutions with Beibe keeping the cylindrical formation by extension the contact surface or by a resilient inner Contact, or by external flexible bridges sought to resolve the uncertainty of the contact, those resulting from the construction However, problems could not be completely solved be eliminated. An example of these solutions US 37 53 103 represents this problem tried to solve that on the end of the shaft of the Stylus mounted a piston-like friction element was that to achieve better electrical  Contact by a separate diaphragm in Radial direction constantly against the wall of the standing Sleeve is pressed. The goal of this solution was that Eliminate spring as a way of conducting current.

However, this solution was unable to over the moving-rubbing surfaces to eliminate uneven current flow, or the Bypass spring completely.

According to US 44 63 310 is a device for Detect built-in printed circuit boards Circuit elements known. This device exhibits mainly a mechanical and an electrical part on, with the mechanical part out in a needle holder against the force of a spring slidable cylindrical Needles is formed and the electrical part one at the Has printed circuit board arranged needle holder. The circuit board points according to the number and location of the needles, holes through which the needles protrude through. In this state it hits the needle arranged disc with the force of the spring on the Circuit board on, whereby a trained on this Circuit is closed. To check for the presence of a Circuit element is the circuit board under test Device arranged. In the event that an element under the If there is a needle, it moves against the force of the Spring in the needle holder, causing the on the needle arranged disc removed from the circuit board and accordingly the associated circuit is interrupted. In this embodiment, the power is supplied not over the needles, but for this is a separate one Circuit board required. The device must be used for each PCB to be tested is constructed separately and be trained.

US 34 34 095 describes a programming switch, whose purpose is to work on the different Sides of a printed circuit board  to get in touch with each other. According to this embodiment the circuit board has holes through the tracks which are suitable for receiving needle elements. In an interconnected state of two on different Lanes lying on the sides of the circuit board strike from one Side of the head of the needle on one path to and from the on the other hand, the spring on the needle opposite lane. The spring will on the one hand Needle element held in the hole and the other hand Electricity conducted. The current path between the two railways leads So over three contact resistances, namely between one Web and the needle, between the needle and the spring and between the spring and the other web.

In the test probe known from US 38 05 006 points the stylus has a cylindrical shape that is suitable for a reliable needle guidance of the test probe is absolutely necessary. This form of the stylus on the one hand requires one costly manufacturing and on the other hand limits the Training opportunities for power supply connections. The The position of the stylus is in the initial state only by the Force of the spring determined; according to this embodiment, the Spring can not be kept in the biased state, which at the moment of contacting the stylus with the testing circuit board a reliable contact pressure does not is available.

The object is achieved by the invention, such Test probe of the type mentioned in the beginning to develop that simple is producible, contains no contact resistances and good ones Tactile, contact, and power line conditions offers.

This is achieved in that the Stylus is designed as a flat needle, which is attached to it attached end of the coil spring in a bore in one Area of the contact head arranged guide part of the Needle holder is guided, and that the extension of the Contact head from the guide part limited by a stop becomes.

It is preferred that the turns of the stylus attached end of the coil spring a smaller pitch than have in the remaining part of the coil spring.  

It is also advantageous that the coil spring on the Contact head or on the shaft or on one between the Contact head and the shaft formed neck portion of the stylus is attached.

The test probe according to the invention is based on preferred Exemplary embodiments explained in more detail with the aid of the drawing. The drawing shows:

Fig. 1 shows a preferred embodiment of the test probe according to the invention in plan view and in section, and

Fig. 2 shows another embodiment of the test probe according to the invention in plan view and in section.

From Fig. 1 it can be seen that a contact head 1 and a shaft 2 serving for the power supply of the test probe according to the invention are designed as a one-piece flat needle. A helical spring 4 surrounding the flat needle is attached to a neck part 7 formed between the contact head 1 and the shaft 2 . The windings of the end 4 a of the coil spring 4 fastened to the stylus in the neck part 7 have a smaller pitch than in the remaining part of the coil spring 4 . The outer diameter of this end 4 a of the helical spring 4 as a loosely adapted sleeve guides and centers the needle element provided with a rectangular cross section in a bore which is formed in a guide part 5 a arranged in the region of the contact head 1 , preferably a cylindrical needle holder 5 .

The remaining part 4 b of the coil spring 4 , which is designed with a larger increase in turns, is supported on a support part 5 b of the needle holder 5 . The bore diameter of the shank 2 of the test probe-containing support member 5 b is smaller than the diameter of the coil spring 4, whereby the Anstützung easily solved. The test probe is lifted out after the measurement to the same level by means of the helical spring 4 , the extension of the contact head 1 from the guide part 5 a being limited by a stop 6 striking the support part 5 b of the needle holder 5, which is stopped by a recess of the shaft 2 engaging locking disc is formed.

In the embodiment shown in FIG. 2, the stop required for lifting the test probe to the same level is formed by a stop plate provided in the last phase of assembly on the guide part 5 a of the needle holder 5 and provided with an opening corresponding to the cross section of the contact head 1 , wherein the contact head 1 protrudes through the opening.

Except for the illustrated embodiments are within the scope of the invention also other embodiments realizable.

Such a test probe was created by the invention, which, due to their simplicity, is extremely light and with low cost  is producible since for the production of plate-like Components a range of at low cost method to be performed is known, further the test probe consists of a small number of Elements, so that the assembly is significantly simplified is. As can also be seen from the drawing, the solution according to the invention closes the contact uncertainties within the test probe because the Current from the contact head to the end of the shaft opposite the contact head for the current supply only one material flows, the resting and the moving-rubbing transition resistance stands are eliminated. So the different Design variants and the precious metal covers for No improvement in contact resistance.

As is apparent from Fig. 1 and Fig. 2, the needle member moves in the needle holder 5 los friction and thus can be considered with respect to the current command as a "floating needle".

When a given force is reached, the contact head 1 of the test probe lowers into the rigid needle holder 5 and is thus protected against possible damage.

With the previous constructions the contact needles guide the spring that secures the touch in any case the current.

In the solution according to the invention, the screws no other function than securing the Touch.

The test probe is due to its training to Suitable and can be inserted into a receiving sleeve thus as an independent unit instead of previous ones Contact needles or for other uses preferably  be used.

On the upper part of the test probe you can also usual contact head designs.

The top of the test probe is with edges provided so that the oxide layer which forms can be broken.

Claims (6)

1.Test probe for testing printed circuit boards and assembled circuit boards, with a stylus which has a contact head and a shaft which is integral with it and which serves for the power supply and can be displaced in a needle holder, and with a helical spring which surrounds the shaft of the stylus and which has one End is supported on the stylus and with its other end on a support part of the needle holder, characterized in that the stylus is designed as a flat needle, which is attached to the end ( 4 a) of the helical spring ( 4 ) attached to it in a bore in a Area of the contact head ( 1 ) arranged guide part ( 5 a) of the needle holder ( 5 ) is guided, and that the extension of the contact head ( 1 ) from the guide part ( 5 a) is limited by a stop ( 6 ). 2. Test probe according to claim 1, characterized in that the turns of the end attached to the stylus ( 4 a) of the coil spring ( 4 ) have a smaller pitch than in the rest of the coil spring. 3. Test probe according to claim 1 or 2, characterized in that the helical spring ( 4 ) on the contact head ( 1 ) or the shaft ( 2 ) or on a between this and the contact head ( 1 ) formed neck part ( 7 ) of the stylus is attached . 4. Test probe according to one of claims 1 to 3, characterized in that the stop ( 6 ) is formed by a locking disc engaging in a recess of the shaft ( 2 ). 5. Test probe according to one of claims 1 to 3, characterized in that the stop ( 6 ) from a on the guide part ( 5 a) of the needle holder ( 5 ) attached stop plate is formed with an opening corresponding to the cross section of the contact head ( 1 ), through which the contact head ( 1 ) protrudes. 6. Test probe according to one of claims 1 to 5, characterized in that that the test probe as an independent unit in a receptacle is arranged.