The invention relates to a device for making an electrical contact between a first contact partner and at least one further contact partner by way of a contact element according to the features of the preamble of patent claim 1.
From DE 196 05 999 A1, the electrical contacting with a flat antenna conductor structure is known. In this case, below a part of the body of the vehicle, a signal processing unit, especially an antenna amplifier, is mounted by suitable fastening means. The housing of this unit has a carrier (outrigger arm) at whose end contacting means are provided. These contacting means are connected via connecting conductors or lines, which are arranged in or on the rigid carrier, with the signal processing unit. Through the contacting means an electrical contact is made to the contact surfaces of an antenna conductor structure which is disposed on the vehicle window. The carrier permits, on the one hand, to connect the antenna conductor structure with the signal processing unit over a certain distance. Because of the location at which the unit must be built into the vehicle and the location of the contact surfaces of the antenna conductor structure, high tolerances must be bridged by the contacting means for the contact surfaces of the antenna conductor structure are to be met by such contacting means. A further drawback of this construction is that the entire signal processing with the carrier and the contact means disposed on the carrier must be completely replaced when it for example is damaged in a crash of the vehicle. The case of a crash of the motor vehicle is associated with high cost since the signal processing unit as a rule is integrated between the body of the vehicle (vehicle roof) and the ceiling of the vehicle and thus is only accessible with difficulty.
Furthermore there is a drawback in that the rigid support always must be matched to the particular vehicle type with respect to its geometry since each vehicle type has its own location at which the unit can be built in as distinguished from the corresponding locations to all other vehicle types. This machining is associated with high cost since for each carrier for each vehicle type, different tools must be provided for making the carrier.
The invention thus has as its object to provide a device for making electrical contacts between a first contact partner and at least one further contact partner over a contact element which can be mounted simply, which is capable of compensating for tolerances and which in the case of damage is easily replaceable.
According to the invention, it is provided that the contact element is electrically conductive and elastically deformable and so shaped that because of its shape it can be fixed in the housing of the electronic device or a carrier. Because of the electrical conductivity of the contact element, the first contact partner which, for example, is a contact surface of a circuit board [printed circuit board] disposed in the housing, can be electrically connected with at least one further contact partner which is arranged outside the housing of the electronic device. The elastic deformability has the advantage that on the one hand tolerances in all directions and preferably in the mounting direction of the electronic device can be compensated at the point at which the electronic device is built into the vehicle. On the other hand the elastic deformability has the advantage that after mounting of the electronic device at the location at which it is to be built into the vehicle, because of the elastic deformation of the contact element a continuous pressure will be produced by the contact element against the at least two contact partners so that thereby a permanent and effective electrical contact connection is achieved. Furthermore, an important aspect of the contact element according to the invention is its aspect which mainly is so configured that because of its shape the contact element can be fixed in or on the housing of the electronic device. Thus for example in a first embodiment of the invention this shape can have a contraction or pinched portion by means of which the contact element can engage in a corresponding recess in the housing of the electronic device. When in the fabrication of the housing such a recess (or also a plurality of recesses) is provided, the contact element can then be formfittingly inserted in this recess with its contracted portion and fixed in its position. Thus the position of the recess and the corresponding contact surface of the circuit board within the housing can be so positioned mutually that the contact element with its electrically conductive region comes to bear upon the contact surface of the circuit board (first contact partner). Alternatively thereto it is conceivable that the contact element will have a shoulder extending at least partly therearound or shoulder-like segments projecting from the contact element (for example wings) whereby the contact element can be inserted in the recess and which enables connection via the shoulder or shoulder-like segment with the housing. The connection of the shoulder or the shoulder-like segment with the housing can be effected for example by adhesive bonding or by other suitable releasable or nonreleasable connection methods. In this connection it is also conceivable that the shoulder or shoulder segment is electrically conductive or is not electrically conductive. Advantageously the peripheral shoulder or the shoulder segment is electrically nonconductive to provide an insulation of the electrically conductive contact element.
It is also conceivable that the contact element not be inserted into the recess after fabrication of the housing but rather already mounted upon the making of the housing. Thus the prefabricated contact element can be inserted for example in a mold in which the housing is to be made and can be fixed to the housing during its manufacture, for example in an injection-molding process or a plastic. Here as well the contractions, the shoulder extending at least partially around the peripherally or the shoulder-like formation can be advantageous since these configurations enable the contact element to be fixed in the housing of the electronic device.
In a further aspect of the invention, the contact element has at least one recess or a hollow cross section or profile. This has the advantage that the contact element can be simply elastically deformable where it is built in without requiring large forces for the deformation. At the same time this ensures that after mounting of the electronic device at the place in the vehicle at which it is to be installed, the deformation of the contact element will provide a sufficiently high pressing force for the reliable and permanent electrical contacting thereby.
A preferred but not limiting application of the contact system according to the invention is the electrical connection of at least two contact partners by means of the contact element in a motor vehicle in which an electronic device, especially an antenna amplifier, which has a circuit board with corresponding electrical and electronic components, is brought into electrical contact with at least one contact surface on a surface of a vehicle, especially a planar surface (for example a window) with the contact surface forming the further contact partners, of an antenna structure. In this case it is important on the one hand that the electronic device be electrically connected by means of a corresponding number of contact elements with the contact surfaces of the antenna structure (or other contact partners in the vehicle). Using the contact element according to the invention it is possible to make these electrical connections simply, whereby even the fabrication cost for such contact elements can be exceptionally low, thereby having a positive effect on the mass production of such electronic devices. Because of the elastic deformability tolerance compensation is provided, which is in the case of mass production of motor vehicles of importance. A tolerance can thereby be simply bridged. Apart from this is also an advantage that the contact element can be fixed in the housing of the electronic device since such electronic devices as antenna amplifiers, video modules and the like can be fabricated by a supplier to the vehicle manufacturer and installed by the vehicle manufacturer rapidly and in an uncomplicated manner at the location at which it is to be built in. In addition, the contact element of the invention has the advantage that because of its elastic deformability following the mounting in the housing it will not be damaged during storage or transport.
Various configurations of a contact element according to the invention but as to which the invention is not limited, are described in the following and explained in connection with the Figures.
The Figures show:
FIGS. 1-3: Different geometric shapes of contact elements with recesses,
According to
The contraction 7 which is provided around at least part of the periphery, can be uniform therearound or of varied shape and can have identical or different segments.
Reference Character List
1. Contact element
2. Contact surface
3. Contact surface
4. Recess or cut out
5. Recess or cut out
6. Web
7. Contraction or constriction
8. Contact element
9. Contact element
10. Contact element
11. Contact body
12. Contact body
13. Web
14. Housing
15. Contact element
16. Contact element
17. Cut out or opening
18. Shoulder
19. Contact element
20. Arms
21. Extension
22. Contact partner
23. Contact partner
Number | Date | Country | Kind |
---|---|---|---|
10336846.9 | Aug 2003 | DE | national |
10358120.0 | Dec 2003 | DE | national |