DE19618713A1 - Contact element - Google Patents

Description

The invention relates to a contact element according to the preamble of claim 1.

To build electrical connectors, in particular used in automotive engineering, contact elements that with Kon Tactical pencils work together in various forms.

The contact pins can z. B. as flat plug contact pins, Round plug contact pins or plug contact pins with square Cross-section be formed, the contact elements for example as flat plug contact sleeves or the like. This connector for example, connections connect individual conductor strands. Will several contact elements in one connector housing summarized, but also complete wiring harnesses are ver bound. In addition, in the central electrical system of power vehicles usually use relay modules or fuses such plug connections with the plug base of the central electrical connected. The current runs in this plug-in base plate circles together and are switched there with the relay modules or centrally secured with the fuses. Because of square green which not every consumer can be secured individually, several consumers are often secured together.

The fuses usually consist of plug-in fuses with melt insert, as z. B. from DE-G 81 11 548.2 be are known.

The disadvantage here is that when the fuse is triggered only the circuit is broken in which an overcurrent occurs stepped, but also all other circuits using this Fuse are secured, which often means for the operation of the Essential areas of the vehicle are shut down. Will one  triggered such a fuse, it must disadvantageously be replaced. In addition, such backups can be made everything in the contact area age or corrode so that the Contacting gets worse, what with the known disadvantages, such as B. increase in resistance and with an impairment security.

Another disadvantage is that devices for which the backup should trigger relatively low fault currents, not in can be combined in a common circuit or in the event of a summary, total damage to the device is likely.

In addition, the merging of the circuits into one Security center complex and expensive, being such central Fuse boxes require a lot of space because the one individual fuses are accessible for the purpose of exchange have to.

The object of the invention is to make pipe systems simple and inexpensive cheap to protect.

The task is performed by a contact element with the characteristics of Claim 1 solved. Advantageous training courses are in Unteran sayings marked.

Here is in a contact element between a Kontaktbe rich, for example a flat plug contact sleeve, and one your assigned connection area or between a contact pin and the associated connection area a fuse module integrated, which connection area and contact area or contact pin electrically conductively interconnected.

In a preferred embodiment of the invention Contact element releases the fuse module when Bela occurs reversible equipment, d. that is, after the overload is removed the circuit is unlocked again.  

Such security modules consist, for example, of so-called PTCR elements (Positive Temperature Coefficient Resistance) or bimetal locking elements.

PTCR elements can consist of metals, for example electrical resistance increases with temperature, being here mostly linear behavior, so that the resistance increases in proportion to the temperature. The resistance can do so become high so that the element blocks the flow of current. Sine others The type of PTCR element consists of a predominantly crystalline one Plastic matrix in which conductive particles are finely distributed, these conductive particles being in the amorphous areas the matrix. Is a sufficient number of such parties contained in the matrix, they form an electrically conductive three-dimensional network.

Such an element will affect the melting temperature of the crystal linen phase warmed up, either from the outside or by one through it current flowing through, melts the crystalline phase of the Plastic matrix, which increases the volume of the amorphous phase. This will also change the distances between the conductive parts keln larger, creating electrically conductive connections in the Network are interrupted. Because a crystalline phase has a defined melting point, this interruption takes place the leading phase in the three-dimensional network in a rela tiv narrow temperature interval instead. The underside goes Chung the electrical line so far that the polymeric PTCR-Ele ment blocks the flow of electricity from a certain temperature. The tripping characteristic is not linear, i. H. in The resistance changes over a narrow temperature interval rupt.

If the PTCR element cools below a certain temperature, lie sufficient crystalline areas in the plastic matrix before, so that the element is again electrically conductive.  

Security elements can therefore be produced with PTCR elements len that trigger reversibly, d. that is, the current flow only when open interrupt the overload, but again at normal load are leading.

Such elements are massively priced here represents and can have a miniaturized design.

In the following, the invention will be illustrated using a drawing explained in detail. Show it:

Fig. 1 shows schematically an embodiment of a Kontaktelemen tes in a plan view,

Fig. 2 shows schematically a further embodiment of a con tact element in a lateral view,

Fig. 3 shows schematically a further embodiment of a con tact element in a side view with cut security module,

Fig. 4 schematically shows a further embodiment of a con tact element in a plan view with cut security module,

Fig. 5 shows an embodiment of a contact element in a lateral view with cut security module,

Fig. 6 shows another embodiment of a contact element in a plan view with cut security module,

Fig. 7 shows an embodiment of a contact element in a lateral view with cut security module,

Fig. 8 shows a further embodiment of a contact element in a plan view with a cut fuse module.

An embodiment of a contact element 1 according to the invention consists of a contact area 2 , a fuse module 3 and a connection area 4 , which are connected one behind the other in an electrically conductive manner. The contact sleeve can be, for example, a flat plug contact sleeve, round plug contact sleeve, plug pin contact sleeve, a flat spring arm contact element or a similar element for receiving plug contacts, this sleeve having a connection device 5 for a fuse module 3 . The fuse module 3 can be, for example, a PTCR element, preferably a polymeric PTCR element but also a bimetallic fuse module, the fuse module 3 having at least one connection device 5 for a contact area 2 and at least one connection device 5 for a connection area 4 . The connection area 4 may, for example, crimp pins 6 for clamping holding a conductor wire, screw terminals, receiving elements for soldering a Lei terdrahtes or the like, wherein it has at least one connection device 5 for a fuse module 3 .

The contact element 1 can also be formed from two identical contact areas 2 and a fuse module 3 arranged between them. Such a contact area can also in particular be a connection area 9 in order to attach a conductor wire directly by soldering, crimping or a cutting / clamping connection.

The connection devices 5 can be formed, for example, that the fuse module 3 by means of welding, riveting or soldering to the contact area 2 and the connection area 4 can be connected ( Fig. 1, Fig. 2).

Another one. Embodiment of the contact element 1 , the connection devices 5 can be designed, for example, as a plug connection, so that plug elements 8 of a securing module 3 are inserted in a form-fitting manner or as a press fit into sockets 9 b of the contact area 2 and the connection area 4 (not shown), or plug elements 8 of the contact area 2 and the connection area 4 in plug-in channels 9 a of the fuse module 3 are inserted ( Fig. 3 to 8). The plug-in elements 8 can be designed as tongues or pins with a round or rectangular cross-section.

The plug-in elements 8 can also be designed as plastic self-tapping screws or be provided with a toothing. It is advantageous here that such an embodiment allows a special short design. Furthermore, the plug connection is preferably not detachable before. In addition, there is the possibility of heating the plastic casing of the fuse element, as a result of which it flows onto the connection devices 5 of the contact area 2 and the connection area 4 and, when it cools down, binds them firmly to the fuse module 3 .

The most varied arrangements of the contact areas 2 and connection areas 4 to the fuse module 3 are possible ( FIGS. 3 to 8). The securing module can, for example, be approximately plate-shaped, the plates having two flat outer sides 10 and four end faces 11 . The hollow cylindrical sockets 9 provided for receiving, for example, cylindrical contact pins 8 can be connected to one another ne in an end face 10 or in each case with opposite end faces 10 .

Since the contact elements from plug-in fuse modules 3 , Kon contact areas 2 and connection areas 4 are formed, the user can combine individual contact elements with fuse modules 3 for securing different currents or special contact areas 2 or connection areas 4 .

Another embodiment of the contact element 1 provides for the contact area 2 and the connection area 4 to be provided with crimping arms for clamping mounting of essentially cylindrical connecting pieces of the fuse module 3 (not shown), the arrangement mutually corresponding to the first embodiment.

The contact element can, after being attached to a conductor wire was bound, then for example with insulating film or Shrink film are covered so that it is up to the plug Insulated for a plug or the plug to the outside becomes. This is especially true when using this contact element two conductor strings should be connected to each other. The contact element can also be inserted in the connector housing and so for example for connecting cable harnesses, but also serve as a connection to a consumer.

It is advantageous that the integration of this security module le in the contact elements to protect the individual current circles in a cost-saving manner.

In addition, it is advantageous that these fuse modules Trigger reversibly, i.e. does not trigger after each trigger be exchanged, but if the overload in the load is removed drive state are reset. This is particularly the case with Use in the automotive field is advantageous since the invention Contact elements with fuse modules maintenance-free on any Places in the vehicle can be distributed. This will individual circuits are specifically protected and the provision of a central fuse box can be omitted.

A particular advantage of using polymeric PTCR-Siche Rungsmodulen in the contact element is due to the fact that the error rate is particularly low for these electronic components rig is. Furthermore, the contact elements according to the invention can be mass-produced by machine and is inexpensive to process further.

With such security elements, it is possible to use devices or Elements automatically with very low fault currents switch off. With this protection technology it is still possible to lay out wiring harnesses more specifically and thus crossways cut and reduce weight. In the field of Automotive application can reduce such material to a Sen  fuel consumption.

Claims (22)

1. Contact element from a stamped sheet metal part to form an electrically conductive connection, with two contact areas ( 2 , 4 ) which are arranged electrically connected in series, characterized in that in the contact element ( 1 ) between the contact areas ( 2 , 4 ), a fuse module ( 3rd ) is integrated, which limits or interrupts the current flow at a predetermined electrical current flow. 2. Contact element according to claim 1, characterized in that the connections between the contact areas ( 2 , 4 ) and the fuse module ( 3 ) are pluggable, solderable, crimpable, screwable, riveted or weldable. 3. Contact element according to claim 1 and / or claim 2, characterized in that the contact areas ( 2 , 4 ) are identical. 4. Contact element according to claim 1 and / or claim 2, characterized in that the contact areas ( 2 , 4 ) are designed differently, at least one of the two contact areas ( 4 ) preferably as a connection area ( 4 ), in particular as a crimping, cutting / Clamping or soldering connection area is formed. 5. Contact element according to one or more of claims 1 to 4, characterized in that at least one of the contact areas ( 2 ) is designed as a socket for a flat plug element, a circular plug pin or a plug pin with a square cross section, and a connecting device ( 5 ) for the fuse module ( 3 ). 6. Contact element according to one or more of claims 1 to 5, characterized in that at least one of the contact areas ( 2 ) is formed from a flat plug element, circular plug pin or a plug pin with a square cross section, and a connec tion device ( 5 ) for the fuse module ( 3 ) having. 7. Contact element according to one or more of the preceding claims 1 to 6, characterized in that the security module ( 3 ) is a PCTR element. 8. Contact element according to one of the preceding claims 1 to 4, characterized, that the PCTR element is made of a metal with a positive Resistance temperature coefficient is formed. 9. Contact element according to one or more of the preceding claims 1 to 8, characterized in that the securing module ( 3 ) is a polymeric PCTR element. 10. Contact element according to one or more of the preceding claims 1 to 9, characterized in that the securing module ( 3 ) has a bimetallic locking mechanism. 11. Contact element according to one or more of the preceding claims 1 to 10, characterized in that the securing module ( 3 ) each has a connecting device ( 5 ) for the contact areas ( 2 , 4 ). 12. Contact element according to one or more of the preceding claims 1 to 11, characterized in that the connecting devices ( 5 ) of the fuse module ( 3 ) plug-in channels ( 9 a) for receiving plug-in elements ( 8 ), in particular plug pins or tongues. 13. Contact element according to one or more of the preceding claims 1 to 12, characterized in that the connecting devices ( 5 ) of the fuse module ( 3 ) from plug elements ( 8 ), in particular plug pins or tongues for plugging into sockets ( 9 b) are formed. 14. Contact element according to one or more of the preceding claims 1 to 13, characterized in that the connecting device ( 5 ) of the securing module ( 3 ) is formed from solder contact wires or solder contact tabs. 15. Contact element according to one or more of the preceding claims 1 to 14, characterized in that the connecting device ( 5 ) of the securing module ( 3 ) is formed from crimping arms. 16. Contact element according to claim 12, characterized in that the connecting device ( 5 ) of the contact areas ( 2 , 4 ) plug elements ( 8 ), in particular plug pins or tongues for essentially positive insertion into plug channels ( 9 a) of a fuse module ( 3 ) . 17. Contact element according to claim 13, characterized in that the connecting device ( 5 ) of the contact areas ( 2 , 4 ) from sockets ( 9 b) for substantially form-fitting conditions for receiving plug elements ( 8 ), in particular pins or tongues of the fuse module ( 3rd ) is trained. 18. Contact element according to claim 14, characterized in that the connecting device ( 5 ) of the contact areas ( 2 , 4 ) from devices for receiving solder contact wires or solder contact tabs of the securing module ( 3 ) is formed. 19. Contact element according to claim 15, characterized in that the connecting device ( 5 ) of the contact areas ( 2 , 4 ) is formed from conductor wires which are intended for holding in a crimp connection with crimped arms of a fuse module ( 3 ). 20. Contact element according to claim 15 and 19, characterized in that the fuse module ( 3 ) is crimped directly onto the conductor, so that the contact area ( 4 ) is represented by the crimp connection. 21. Use of a contact element according to one or more of claims 1 to 20 to form a conductive plug connection with contact areas ( 2 , 4 ) which are arranged one behind the other, characterized in that in the contact element ( 1 ) between the contact areas ( 2 , 4 ) a fuse module ( 3 ) is used, which limits or prevents the current flow when the electrical current flow is too high. 22. Use according to claim 21, characterized in that a plurality of contact elements ( 1 ) are used for securing electrical connections in a vehicle, the contact elements ( 1 ) with their securing modules ( 3 ) being arranged delocalized in the vehicle.