Abstract:
An electrical connection in which a flexible, elastic conductor track carrier is affixed by a connecting end to an electrical component and embedded in potting compound. To prevent breakage at the fastening point at the transition from the potting compound to the outside, the conductor track carrier is reinforced with additional layers of insulating material.

Description:
BACKGROUND OF THE INVENTION 
     The invention is based on an electrical connection of a movably disposed electrical component with a flexible, elastic conductor track carrier. In one such electrical connection, known from German Patent Application 19 63 76 26, provisions are made to protect the conductor track carrier, in its connection with the movable component, from impacts by embodying the conductor track carrier in looplike fashion in predetermined regions at right angles to the plane of the conductor track carrier. In addition, at the point where the conductor track carrier is deflected into the interior, the conductor track carrier is fixed to a housing edge of the component, so that in the region where it is locally fixed inside this component, the conductor track carrier is no longer exposed to any movements. Nevertheless, from its fastening point on the housing of the movable component, the conductor track carrier is still exposed to vibrating or oscillating motions, which are more and more critical to the conductor track carrier, in terms of potential breakage of the conductor track carrier, the closer it is to the fixed fastening point. 
     OBJECT AND SUMMARY OF THE INVENTION 
     The disposition according to the invention of the electrical connection has the advantage over the prior art that no additional cap on the movable component is needed, and that in the region where the conductor track carrier is embedded in the movable component, it is essentially stabilized; this stabilization is then reduced at points that are increasingly distant from the embedding, and the situation then finally returns to the original elastic movability. Thus this conductor track carrier can be installed even in a loop having a change in direction of 180°, for example, while continuing to have the maximum possible radius of deflection. 
     In an advantageous refinement recited herein, the reinforcement of the conductor track carrier is multi-layered. Especially advantageously, the thickness of the multi-layered reinforcement decreases with increasing distance from the embedding in the electrical component. Moreover, a bending radius of the conductor track carrier can be limited, immediately adjacent where it is embedded in the electrical component, by the provision of a stop, preferably in the form of a part of the electrical component, that limits the bending distance of the elastic conductor track carrier. According to the invention, the embedding can take proper account of the fact of the actual later course of the conductor track carrier, by embedding the conductor track carrier in a preferential position. 
     The invention will be better understood and further objects and advantages thereof will become more apparent from the ensuing detailed description of a preferred embodiment taken in conjunction with the drawing. 
    
    
     BRIEF DESCRIPTION OF THE DRAWING 
     The sole FIGURE of the drawing is a sectional view through an angle encoder sensor. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The drawing shows a section through an angle encoder sensor  1 , of the kind used for instance in a distributor injection pump for supplying self-ignited internal combustion engines. This angle encoder sensor is moved constantly back and forth during operation in accordance with an injection onset adjustment. The signals it detects and carried onward via a conductor track carrier to a signal-processing device that is extended to the outside, from the interior of the fuel-filled housing of the distributor injection pump, in the manner described for instance in European Patent Disclosure EP-B1 0 513 263. The connection of the conductor track carrier with the electrical component, that is, the angle encoder sensor  1 , is shown in the drawing. The angle encoder sensor has a cup-shaped housing  3 , on whose bottom  4  the sensor element  5  is disposed. A conductor track carrier  6 , which has conductor tracks for carrying sensor signals onward, is bonded to the sensor element in the region of the bottom. This conductor track carrier is flexible and is embodied elastically enough that it can be deflected even with short radii, as represented in the drawing by the deflection point  7 . Captone, which has very good elastic properties, is used as the material for the conductor track carrier. From the bottom  4 , the conductor track carrier is deflected toward the opening  8  of the sensor housing, transversely to the normal of the sensor housing, and then is extended in an arc to the outside. Only a portion of the course of this conductor track carrier is shown here. The interior of the cup-shaped housing  3  is sealed with a potting compound  10 , which at the same time serves also to fix the conductor track carrier inside the housing  3 . The housing is filled approximately halfway with a potting compound. Inside the embedding in this potting compound  10 , the conductor track carrier  6  is reinforced. To that end, additional layers of the elastic carrier material are applied to the conductor track carrier, for instance by adhesive bonding. In the case contemplated, there are three layers  11 ,  12 , and  13 , which lying one on top of the other inside the embedding of the potting compound  10  reinforce the conductor track carrier. The layers are embodied such that the outermost layer  11  already ends just before or after where it emerges from the free, un-filled hollow space in the housing; the second layer ends after that along the onward course of the conductor track carrier  6 , and the layer  13  ends after that. The result is substantial stabilization of the conductor track carrier, beginning in the potting compound  10  and in the ensuing course of the conductor track carrier, especially in this region in which, after emerging from the potting compound, it is deflected as well. Thus initially, where it emerges from its fastening point in the potting compound, it is provided with high stability, with somewhat reduced flexibility. In its further course, where not as high bending moments now act on the conductor track carrier, the reinforcement is then reduced. Consequently the conductor track carrier can even be carried in a generous loop back again  180 ° to where it emerged from the housing of the fuel injection pump, so that upon a transverse motion of the angle encoder sensor  1 , the conductor track carrier at this deflection undergoes a rolling motion. The bending radius of the conductor track carrier where it emerges from the sensor housing  3  remains otherwise essentially constant. 
     As a result, a substantial stabilization is obtained, and the conductor track carrier is well secured against failing. In the remainder of its course, the conductor track carrier may even be embodied as quite thin, making it easier to lay and to lead through a housing seal. 
     For the sake of further stabilization, extreme bending of the conductor track carrier can be limited by the edge  14  of the sensor housing, or by some other stop. Thus a new bending point is created at this point and relieves the fastening point in the potting compound  10 . The conductor track carrier is preferably extended, in a direction extending obliquely to the axis of the sensor housing, out of the potting compound  10  in a preferential direction to the direction of the onward course of the conductor track carrier. It is also in the region that the stop  14  is located. 
     The foregoing relates to a preferred exemplary embodiment of the invention, it being understood that other variants and embodiments thereof are possible within the spirit and scope of the invention, the latter being defined by the appended claims.