DE7116877U - Contact spring set - Google Patents

Description

The innovation relates to a contact spring set for telecommunications equipment, in particular telephony technology, its flat Contact spring are fixed in an insulating body, the from two “lusammeii a 'jz-housing forming shell-like Parts with hollow sides facing each other, comprise the contact springs and have elements for securing the position of the contact springs in their interior.

Such a contact spring set is known, for example, from DT-Gbm 1 948 405 and is also characterized by the Advantage of an arrangement that is mechanically protected from dirt of the contact spring set is characterized in particular by the fact that its structure can be carried out quickly and automatically, because Instead of a time-consuming layering of many individual parts, just simply insert the contact springs into one of the two half-shells of the insulating body is required. By the provided in this known arrangement Elements for securing the position of the contact springs is also largely ensured that the contact springs also, without time-consuming adjustment work to adopt and maintain its functional position. Securing the installation position of the Contact springs, however, assume that the specified dimensions prescribed for the manufacture of the individual parts are adhered to are, while in practice deviations inevitably occur, which result from the sum of all permissible tolerances adjust the individual parts and, if necessary, if it is unfavorable

VPA 9/610/1112 Pfa / Sti

Meeting the exact and constant seat of the contact springs endanger.

The aforementioned gap in securing the position of the contact spring · !! to eliminate and a contact spring set of the type mentioned while retaining all of its advantages to design automated production and adjustment-free structure of its contacts in such a way that also the practically unavoidable The purpose of the present innovation is to compensate for the total tolerances of all individual parts.

This goal is achieved by the fact that the innovation in the clamping area of a contact spring between its upper edge facing the cover part of the protective housing and their support on the inside of the cover part at least one, extending over a certain part of the clamping area, the spring-elastic element pressing against the bottom part of the protective housing is arranged.

This hatred ensures reliably and without prejudice the simple manufacturing process of the contact spring set ensures that all tolerances that arise from deviations of the individual parts result from the ideal size, are balanced to the extent that the contact springs when assembling the the protective housing they receive automatically and precisely their target position take and maintain it over a long period of use.

In itself, the resilient element could well consist of a suitably wide or two spaced apart arranged strips of a resilient material, for example made of silicone rubber odor the like, be. Around however, a guarantee for a long service life even under unfavorable climatic and mechanical influences is to be offered it is provided according to one embodiment of the innovation that

VPA 9/610/1112
Pfa / Sti

each contact spring two, preferably symmetrical to the central axis their clamping area arranged, the upper edge of the contact spring has protruding spring legs. These struts and made of the clever material and therefore viable for just as long like the contact spring itself. In addition, it requires little effort to manufacture it because the spring struts can be produced in a uniform, efficient stamping process together with the contact spring itself. About that In addition, special work processes and means for fastening the resilient elements are omitted because the struts are expediently punched out in one piece together with the contact spring itself.

If, according to a further embodiment of the innovation in the aforementioned embodiment of the subject of the application, the free end of the spring strut is designed to be spherical in the direction of the cover part 6aa protective housing, this has the advantage that the spring struts do not get caught, but rather can evade their resilient deformation without difficulty when the two parts of a protective housing are assembled, in which, according to a further development of the innovation, the cover part of the protective housing in the clamping area of the contact springs is shaped in such a way that the spring legs of the contact springs are deformed under mechanical pretension when the two housing parts are connected.

In the following, the innovation is explained in more detail with reference to an embodiment shown in the drawing. To this end, in axonometric, partly abgebroche- ^ ₀ ner and sectional representation, the drawing shows a ready-contact spring assembly.

In this case, 1 designates a carrier designed, for example, as a base frame of an electromagnetic relay net, on which a protective housing 2 made of insulating material is mounted, which consists of two housing parts screwed by means of two screws 3

VPA 9/610/1112
Pfa / Sti

schaler 4 and 5 is composed. In the lower scarves 4 these two housing parts are two rows A and B of locating pins 6 are arranged, which the installation position, the seat and the Determine Einapann length flat contact springs 7, which before Screw on the upper shell 5, designed as a cover, in each case between two fixing pins that are adjacent within a row are layered. In doing so, the exact, which is indispensable for a perfect function of the contact spring set Location of the contact springs on the one hand by the thickness of a

• j ₀ contact spring adapted distance between two adjacent fixing pins in a row, the alignment of the lower edges of all contact springs by means of two, possibly ground ribs 8 and 9, and finally the longitudinal-axial securing by a web 10, which in a corresponding notch 11 of the Contact spring engages positively. To the

ις compensation of practically unavoidable tolerances, due to the construction of the protective housing from two half-sockets, the punching inaccuracy of the contact springs themselves and due to dimensional deviations in the aforementioned septa, webs and notches arise, each contact spring has two spring legs 12 and 13 at its upper edge, each with a crowned one End of 14. These struts become more when the two housing shells 4 and 5 are connected, depending on the tolerance present or less deformed and their resilience ensures that the contact spring is constantly seated without play. Every Contact spring 7 has a soldering lug 15 with recesses as heat accumulation or for threading connection wires (not shown), where the soldering lugs are known for the purpose of better accessibility during the wiring and are clear from the illustration are recognizably offset alternately in two planes.

From its free end opposite the clamping area, each of the contact springs is divided into two by a slot 16 Tongues each with their own contact member 17 divided, i.e. formed into a known double contact. The ends of the Non-moving contact springs are supported in the installed position on projections 18 of the lower housing shell 4, while

- 5th

the moved Xontaktfedern are freely movable at their ends and are held by drivers 19 of an actuator 20 in their desired position. The actuator 20 is in the manner of a
Bayonet lock in a opposite to the representation around

90 ° rotated position threaded through widenings 21 of the slots ib of the contact springs and then crossed by 90 °,
whereby the driver 19 lay in front of the respective movable contact springs. With 22 one of the mechanical guidance of the actuator and optionally also serving the actuation end is referred to. The adjustment path of the actuator 20 is through end stops, not shown in detail
limited, with of course a certain overstroke
for the contact springs «is included.

4 claims for protection
1 figure

Claims (4)

Protection claims 1. Contact spring set for telecommunication devices in particular Telephony, its flat contact springs in one Isolierstoffkörper are fixed, which consists of two shell-like parts forming a protective housing together, • the facing with the hollow sides each consisting of Kont.aHtfedern and oco'itzen in their I ^^ older elements for securing the position of the contact springs, characterized geke n nzeic h net that in the clamping area of a contact spring '7 * Ewischen which the lid part ( 5) of the protective housing ... facing upper edge and its support on the inside of the cover part (5) at least one, over a "certain part of the clamping area extending, the contact spring (7) against the bottom part (4) of the protective housing (2) pressing spring-elastic Element (12, 13) is arranged. 2. Contact spring set according to claim 1, characterized in that each contact spring (7) has two, preferably symmetrically to the central axis of its clamping area arranged, the upper edge of the contact spring protruding spring legs (12, 13). 3ο contact spring set according to claim 2, characterized in that the free end of the spring strut (12, 13) in the direction of the cover part (5) of the protective housing (2) is convex (14). 4. Contact spring set according to claim 2 or 3 » characterized in that the cover part (5) of the protective housing (2) in the clamping area of the contact springs (7) is shaped so that the spring legs (Ί2, 13) of the contact spring (7) during the connection of the two housing parts (4, 5) are deformed under mechanical prestress.