The invention relates to a plug connection having a redundancy function and a vehicle having such a plug connection.
Plug connections, as illustrated in
In such plug connections, wear of the contact points can occur over the useful life. More precisely, the contact points can become worn as a result of micro movements. Depending on the material used, this can result in friction corrosion at the contact points, which can lead to the deterioration of the electrical contact and a greater contact resistance. This can result in the plug connection becoming heated, starting from the contact point. This could lead to the plug connection having to be replaced.
An object of the present invention is therefore to at least partially eliminate the above-mentioned disadvantages. This object is achieved by a plug connection, and by and a motor vehicle having such a plug connection, in accordance with the independent claims. Advantageous further developments of the invention are the subject-matter of the dependent claims.
According to an exemplary embodiment of the invention, a plug connection is provided, having a plug socket and a plug which is releasably inserted therein; one or more electrically conductive contact areas, and a plurality of electrically conductive spring contacts, wherein at least one spring contact is associated with each contact area and the spring contacts are divided into at least a first and second group, wherein, in a first state, the spring contacts of the first group are in contact with their associated contact areas and the spring contacts of the second groups abut against at least one stop and are not in contact with their associated contact areas; a trigger, which, when a certain temperature is exceeded, induce the spring contacts of the second group to overcome the at least one stop and, in a second state, to come into contact with their associated contact areas. In particular, the spring contacts of the first group are free of the trigger. This has the advantage that the plug connection, upon overheating for the first time, activates a redundancy function with the spring contacts of the second group, in which the spring contacts of the second group take over the function of the spring contacts of the first group so that the useful life of the plug connection is significantly increased, in particular doubled, and the functionality of the plug connection is ensured.
According to a further exemplary embodiment of the invention, the certain temperature is a temperature above a normal operating temperature. The normal operating temperature depends on the materials used, wherein the temperature to which a certain plug connection can be safely used with the materials used is clear to the person skilled in the art. For example, the certain temperature can be 130° C. in the case of tin-plated contact areas and 150° C. in the case of silver-plated contact areas. It could, however, also be 100° C., 110° C., 120° C. or another suitable temperature.
According to a further exemplary embodiment of the invention, the trigger comprises a bimetal.
According to a further exemplary embodiment of the invention, the trigger, when the certain temperature is exceeded, applies a force to the spring contacts of the second group, which urges these towards the respectively associated contact areas.
According to a further exemplary embodiment of the invention, the triggers are a plurality of bimetal strips, of which one in each case is associated with a spring contact of the second group and is arranged in each case on the side of the spring contact which is remote from the contact area.
According to a further exemplary embodiment of the invention, the trigger, when the certain temperature is exceeded, applies a force to the at least one stop, which urge this away from the spring contacts.
According to a further exemplary embodiment of the invention, the stops are formed in one piece, in particular monolithically, with the respective contact areas.
According to a further exemplary embodiment of the invention, the first state is a state between a new state of the plug connection and a state until the certain temperature is reached and the second state is a state once the certain temperature is exceeded.
According to a further exemplary embodiment of the invention, the plug connection furthermore has detection sensor with which it can be determined whether the plug connection is in the second state. It can therefore be established and relayed to a control device or vehicle control device that the redundancy function is already activated so that the affected plug connection can potentially be replaced during a future vehicle service.
The present invention moreover provides a motor vehicle having such a plug connection.
Preferred exemplary embodiments of the present invention are described below with reference to the accompanying drawings.
The plug connection 10 has a plug socket 11 and a plug 12 which can be inserted into this plug socket. The plug 12 and the plug socket 11 are matched to one another such that the plug 12 can be releasably inserted into the plug socket 11 and is held in position in the plug socket 11 in the inserted state. In this case,
The plug connection 10 furthermore comprises a plurality of electrically conductive contact areas (facings) 13a-13d, for example in the form of elongated flat strips. Moreover, the plug connection 10 has spring contacts 14a-14d, which are associated with the contact areas 13a-13d. The spring contacts 14a-14d are, for example, in the form of elongated flat strips with a portion which bulges towards the contact areas 14a-14d. In this case, it is possible that a separate contact area is associated with one spring contact in each case or a plurality of spring contacts are associated with a contact area, as will be explained more precisely below. The contact areas 13a-13d and the spring contacts 14a-14d are made from an electrically conductive material, preferably a metal, for example from copper with a silver coating, a tin coating or gold coating. They can be made entirely from such a material or only in certain sections. Moreover, the contact areas 13a-13d can be made from the same material as the spring contacts 14a-14d or a different material.
The spring contacts 14a-14d are divided into a plurality of groups—two groups in the exemplary embodiment described here. The spring contacts 14a and 14b of a first group are designed such that, in particular in a new state of the plug connection 10, they are in electrical contact with the respectively associated contact areas 13a and 13b in the inserted state of the plug 12. More precisely, the spring contact 14a is pre-tensioned such that, in this state, it is pressed onto the contact area 13a and an electrical connection is established between these components. Analogously, the spring contact 14b is pre-tensioned such that, in this state, it is likewise pressed onto the contact area 13b.
Should the electrical contact between a spring contact 14a, 14b of the first group and its associated contact area 13a, 13b deteriorate over the useful life of the electrical contact, for example due to oxidation of the contact point, such that overheating of the plug connection 10 occurs as a result of increased contact resistances, then spring contacts 14c and 14d of the second group are activated and therefore form a redundancy function. Overheating of the plug connection 10 is then associated with a certain temperature or first threshold temperature being exceeded. This depends on the materials used in the plug connection 10 and their temperature resistance. For example, the certain temperature can be 130° C. in the case of tin-plated contact areas and 150° C. in the case of silver-plated contact areas. However, 100° C., 110° C., 120° C. or another suitable temperature could also be selected as the first threshold temperature. Such activation of the spring contacts 14c and 14d of the second group or this redundancy function is described below.
In contrast to the spring contacts 14a, 14b of the first group, the spring contacts 14c, 14d of the second group are additionally provided with triggers 15c, 15d. In the illustrated exemplary embodiment, the triggers 15c, 15d are bimetal strips, of which one in each case is arranged on the side of the spring contacts 14c and 14d which is remote from the associated contact area 13c, 13d. The bimetal strips abut against the spring contacts 14c, 14d. Moreover, stops 16c, 16d are provided, against which the spring contacts 14c, 14d abut. The stops 16c, 16d are, for example, projections of pins or blocks 17c, 17d which are fixedly connected to the contact areas 13c, 13d (e.g. by welding, adhesion or screwing) or are formed in one piece therewith. The spring contacts 14c, 14d abut against the stops 16c, 16d such that the spring contacts 14c, 14d of the second group do not come into contact with their associated contact areas 13c, 13d. This state is illustrated in
For example, a wire 19a of a first cable 20 is electrically connected to the contact area 13a and this is electrically connected to the contact area 13c via a cable bridge, a conductor path or the like. Analogously, a wire 19b of the first cable 20 is electrically connected to the contact area 13b and this is electrically connected to the contact area 13d via a cable bridge, a conductor path or the like. A wire 21a of a second cable 22 is electrically connected to the spring contact 14a, for example, and this is electrically connected to the spring contact 14c via a cable bridge, a conductor path or the like. Analogously, a wire 21b of the second cable 22 is electrically connected to the spring contact 14b and this is electrically connected to the spring contact 14d via a cable bridge, a conductor path or the like.
The combination of the spring contact 14c of the second group and the contact area 13c is therefore arranged electrically parallel to the combination of the spring contact 14a of the first group and the contact area 13a and takes over the function thereof after the activation of the redundancy function. The useful life of the plug connection can therefore be significantly increased.
An exemplary embodiment in which a separate contact area 13a-13d is associated with each spring contact 14a-14d was described above. The mutually electrically parallel-switched contact areas 13a-13d are then electrically connected by means of cable bridges, conductor paths or the like. However, it is also possible that only one contact area is provided instead of the respective parallel-switched contact areas. For the example in
An exemplary embodiment in which the spring contacts were divided into two groups was furthermore described above. However, it is also possible that even more spring contacts are provided, which are divided into more than two groups. For example, spring contacts of a third group could be provided, with which stops and triggers are likewise associated, wherein the spring contacts of the third group are activated at a second threshold temperature which is somewhat higher (e.g. 5%) than the first threshold temperature. The result of this would be that, when the plug connection first overheats, the spring contacts of the first group are activated and the temperature of the plug connection drops again. Should the spring contacts of the second group also deteriorate over the useful life and overheating occur again, then the spring contacts of the third group would be activated upon a second overheating, etc.
Moreover, an exemplary embodiment in which the plug socket 11 is provided with the contact areas 13a-13d and the plug 12 is provided with the spring contacts 14a-14d was described above. However, it is, of course, also possible to switch the plug and the plug socket, i.e. to provide the plug socket with the spring contacts and the plug with the contact areas.
By way of example, bimetal strips as triggers were described above. However, the triggers can also be springs, for example, which are arranged on the sides of the spring contacts which are remote from the contact areas and are housed in a material which liquefies when the certain temperature is exceeded and frees the pre-tensioned springs so that these springs then urge the spring contacts towards the contact areas. Furthermore, the triggers can be rods, which are arranged on the sides of the spring contacts which are remote from the contact areas and expand when the temperature increases so that they urge the spring contacts towards the contact areas.
An exemplary embodiment in which the plug connection 10 connects two cables 20, 22 to one another was furthermore described above; however, the invention is not restricted to this. Therefore, the plug socket 11 and/or the plug 12 (and therefore analogously the contact areas 13a-13d and/or the spring contacts 14a-14d) can also be fixedly connected or fastened to a device (for example a battery, an accumulator, an electrical device, etc.), in particular fastened thereto without cables. Therefore, the contact areas 13a-13d and/or the spring contacts 14a-14d can also be connected to conductor paths, busbars, connection terminals, etc. instead of to cables or wires.
A further option in terms of how the triggers can be implemented is described in connection with
In the second exemplary embodiment, triggers 115c, 115d are provided, which, in contrast to the first exemplary embodiment, do not act apply a force 118 to the spring contacts but to the stops 16c, 16d or the blocks 17c, 17d. As in the first exemplary embodiment the triggers 115c, 115d are bimetal strips which draw the blocks 17c, 17d away from their associated spring contacts 14c, 14d when the temperature increases, so that the pre-tension of the spring contacts 14c, 14d when the certain temperature or the first threshold temperature is exceeded is sufficient to overcome the stops 16c, 16d. The triggers 115c, 115d must be somehow connected to the blocks 17c, 17d, for example encompass these, so that a force transfer is ensured.
Whilst the invention has been illustrated and described in detail in the drawings and the description above, this illustration and description should be understood to be illustrative or exemplary and not restrictive and it is not intended that the invention be restricted to the disclosed exemplary embodiment. The simple fact that certain features are mentioned in different dependent claims shall not imply that a combination of these features could not also be advantageously used.
Number | Date | Country | Kind |
---|---|---|---|
10 2018 215 879.7 | Sep 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2019/074575 | 9/13/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/058138 | 3/26/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4498726 | Mattis | Feb 1985 | A |
10348000 | Fischer | Jul 2019 | B2 |
20150064959 | Wang | Mar 2015 | A1 |
20150333457 | Liu | Nov 2015 | A1 |
Number | Date | Country |
---|---|---|
103855553 | Jun 2014 | CN |
63-211583 | Sep 1988 | JP |
2001-345152 | Dec 2001 | JP |
2014-154333 | Aug 2014 | JP |
Entry |
---|
International Search Report (PCT/ISA/210) issued in PCT Application No. PCT/EP2019/074575 dated Dec. 5, 2019 with English translation (four (4) pages). |
German-language Written Opinion (PCT/ISA/237) issued in PCT Application No. PCT/EP2019/074575 dated Dec. 5, 2019 (nine (9) pages). |
German-language Search Report issued in German Application No. 10 2018 215 879.7 dated Sep. 8, 2019 with partial English translation (11 pages). |
Number | Date | Country | |
---|---|---|---|
20210234318 A1 | Jul 2021 | US |