EP0091080A2 - Strain relief device - Google Patents

Abstract

In order to relieve the strain on the conductor tracks (11) of circuit cards (13) and the like, two identical clamping pieces (16, 17) are aligned on both sides of the circuit card (13) and can be locked together.

Description

The invention relates to a strain relief device for connected to circuit cards, connecting plates, plug-in units and the like, e.g. soldered conductor tracks, which consists of two clamping pieces that can be locked together by means of elastic locking elements, between which the conductor tracks are clamped.

Strain relief devices are always required when cable strings, conductors etc. are attached to a plug, a plug-in unit or the like, to which a certain tensile force is exerted, which in no way affects the line connection, e.g. the solder joint may be transferred. This is particularly true when plug connections can only be solved by pulling on the cable due to their small dimensions and difficult accessibility, or at least it can be expected that the connector will be released in this way.

Strain relief devices are known in large numbers. Thus, in 1968 shows the IBM Technical Disclosure Bulletin, Vol. 10, no. 10, March, pages 1519/20 a _Z ugent- lastungsanordnung for flat cable, wherein the cable end forms a loop before it is passed under a terminal block. When a tensile force acts on the cable, the loop is tightened and thus acts as a wedge to relieve the strain, so that the tensile forces are completely transmitted to the housing. However, the application of this relief principle is limited to flat cables.

In another strain relief facility (IBM Technical Disclosure Bulletin, Vol. 18, No. 11, April 1976, page 3830) the clamping force for the cable is generated by means of a screw and transferred to the clamping bracket. In this embodiment, the assembly of the cables is therefore complex, and there is also no control that the clamping force is correctly dimensioned. If the clamping force is too low, there is a risk that the cable will slip, while if the clamping force is too strong, the insulation may be damaged.

However, it is also known a strain relief, wherein the cable or the cable bundle is pinched between two Klemmstükken, the coupling members r by means of elastic Verrie ^g are locked together (IBM Technical Disclosure Bulletin, Vol. 4, no. 5, Oct. 1961 Page 33). This version is easy to handle, since the clamping element designed as a plug-in bar only has to be pressed in until it locks. The disadvantage here, however, is that the individual conductors are kinked sharply and this arrangement is moreover only suitable for flat cables arranged next to one another, but cannot be used for bundled cables.

The invention has for its object to provide a strain relief device which can be produced at low cost, which reliably secures cable bundles of different designs and can be handled easily without damage to the cables or the insulation occurring. This object has been solved according to claim 1 with the _Z ugentlastungseinrichtung. A particular advantage of the strain relief device according to the invention can also be seen in the fact that the two clamping pieces are of identical design, which simplifies storage.

• Fig. 1 eine perspektivische Ansicht der einzelnen Teile einer Zugentlastungseinrichtung in auseinandergezogener Darstellung und
• Fig. 2 die Zugentlastungseinrichtung nach Fig. 1 in einer anderen perspektivischen Ansicht und in zusammengebautem Zustand.

The invention is described below in an exemplary embodiment. Show it:

• Fig. 1 is an exploded view of the individual parts of a strain relief device and
• Fig. 2 shows the strain relief device according to Fig. 1 in another perspective view and in the assembled state.

1 shows a cable 10 with a number of conductor tracks 11, the ends of which are soldered to a number of contact connections with holes 12 in a circuit card 13. The circuit lines 14 on the card are conductively connected, e.g. soldered, with spring contacts of a plug unit 15.

The strain relief device consists of an upper clamping piece 16 and a lower clamping piece 17. The clamping pieces 16 and 17 are formed in one piece and identically and consist of a flexible, not too brittle and moisture-resistant material. A material made from an optimal combination of toughness, impact resistance, heat resistance and dimensional stability is preferred. Since the clamping pieces 16 and 17 are, as mentioned, identical, their shaped elements are designated by the same reference numerals.

Each clamping piece 16, 17 is provided on its outer surface 18 at one corner with a recess 19 and at the corner located diagonally thereto with a locking recess 20. There is a hole 21 in the recess 19, and the locking recess 20 has a V-shaped locking projection 22. At the in Neren surface 23 of each clamping piece 16, 17 is a locking pin 24 at one corner, while a locking hook 25 is formed on the diagonally opposite corner. The hole 21 and the locking pin 24 as well as the locking recess 20 and the locking hook 25 are each located at opposite ends, so that when the upper clamping piece 16 and the lower clamping piece 17 interact, when these have turned towards one another (FIG. 1), the locking pins 24 also the holes 21 aligned and the locking hooks 25 are assigned to the locking recesses 20. A recess 26 for receiving the conductor tracks 11 is also provided on the inner surface. Furthermore, Fig. 1 shows that the locking pins 24 are forked and provided at their ends with lugs 27. Each locking hook 25 carries a V-shaped hook part 28.

There are pin holes 29 at the corners of the circuit card 13 facing away from the plug unit 15. To assemble the device, the upper clamping piece 16 is placed with its inner side, ie the recess 26, on the free edge of the card 13. A resilient pressure piece 30 can be inserted between the clamping piece 16 and the conductor tracks 11. Then the locking pin 24 is inserted into the 'assigned pin hole 29 of the card 13 and the clamping piece 16 pressed against the card 13 so that the conductors get into the recess 26, the locking pin 24 and the locking hook 25 projecting beyond the thickness of the card 13 and the hole 21 in the recess 19 is aligned with the associated pin hole 29 of the card 13.

The lower clamp 17 is placed in reverse orientation from below so that its inner surface 23 with the recess 26 faces the lower surface of the card 13 and its locking pin 24 is aligned with the pin hole 29 in the card 13 and the hole 21 in the upper clamp 16 is. Now the two clamping pieces 16, 17 are pressed together and assume the position shown in FIG. 2. The locking pin 24 of the lower clamping piece 17 now protrudes through the pin hole 29 of the card 13 and the hole 21 of the upper clamping piece 16, the lugs 27 acting on the upper surface of the recess 19 in a locking manner. During the plugging together, the two halves of the locking pin 24, which is designed as an expansion pin, are pressed together and expand automatically as soon as the lugs 27 have passed through the hole 21. In addition, the hook part 28 of the locking hook 25 and the lower clamping piece 27 comes into engagement with the locking projection 22 on the upper clamping piece 16, as shown in FIG. 2. In the same way as described above, the locking hook 25 of the upper clamping piece 16 also engages in the locking projection 22 of the lower clamping piece 17. The shape of the recess 26 in the inner surface of the upper clamping piece 16 causes a portion of the conductor tracks 11 to be held on the card 13, and since the clamping pieces 16, 17 protrude with their inclined surfaces in the recesses 26 beyond the edge of the card 13 another section of the conductor tracks 11 clamped directly between the clamping pieces 16 and 17. To release the relief device, the connecting elements between the clamping pieces 16 and 17 are unlocked in the usual way.

The resilient pressure piece 30 is generally used only when there are only a few conductor tracks to befe are, as shown for example in Fig. 1. With a larger number of conductor runs 11, as in the illustration according to FIG. 2, such a pressure piece is not necessary.

Claims (7)

1. Strain relief device for connected to circuit cards, connecting plates, plug-in units and similar, for example soldered-on conductor tracks (11), consisting of two clamping pieces (16, 17) which can be locked by means of elastic locking elements, between which the conductor tracks (11) are clamped,
characterized,
that the two clamping pieces (16, 17) are of identical design and have on their mutually facing clamping surfaces a recess (26) for receiving the conductor tracks (11), the first clamping piece (16) on one surface of the circuit board (13) and that second clamping piece (17) are placed on the opposite surface of the circuit card (13) in such a way that their clamping surfaces are aligned with one another and face one another and can be locked together with the conductor tracks (11) clamped in between. 2. Strain relief device according to claim 1, characterized in
that the clamping pieces (16, 17) corresponding to its clamping surfaces interior surface having a locking pin (24) and a locking hook (25) and on its outer surface a _A usspa- tion (19) with hole (21) and a locking recess (20), wherein the locking pin (24) and the locking hook (25) of one clamping piece (16) interact with the recess (19) with hole (21) and the locking recess (20) of the other clamping piece (17), and vice versa. 3. Strain relief device according to claim 2, characterized in
that the locking pin (24) and the recess (19) with hole (21) are arranged in diagonally opposite corners and on opposite surfaces of the clamping pieces (16, 17) and that the locking hooks (25) and locking recesses (20) in the others, mutually diagonally opposite corners and also on opposite surfaces are arranged. 4. Strain relief device according to claim 1, characterized in
that the circuit card (13) in each of its corners has a pin hole (29) for the locking pins (24), the locking pin (24) of the first clamping piece (16) from one side and the one for assembling the clamping pieces (16, 17) Locking pin (24) of the second clamping piece (17) is inserted from the other side. 5. strain relief device according to claims 2 to 4,
characterized,
that the locking pins (24) are designed as expansion pins. 6. Strain relief device according to claims 2 and 3,
characterized,
that the locking hooks (25) are designed as elastic elements with a hook part (28). 7. Strain relief device according to claim 4, characterized in that
that part of the clamping pieces (16, 17) and their recesses (26) protrude beyond the edge of the circuit board (13), such that the conductor tracks (11) are clamped directly on both sides by the clamping pieces (16, 17).

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