Contact element and contact arrangement with front protection and method of producing the latter

Abstract

The present invention relates to an electric contact element that has at least one crimping strap which is configured and arranged to reach around the outer circumference of an electric conductor, at least in sections, at least in a fully crimped state of the contact element. Furthermore, the invention relates to an electric contact arrangement that has at least one electric conductor and at least one contact element that has at least one crimping strap which is crimped, at least in sections, around an outer circumference of the conductor. Finally, the invention relates to a method of producing an electric contact arrangement, at least one crimping strap of a contact element being crimped, at least in sections, around an electric conductor. In order to seal an interior of the contact arrangement as simply and effectively as possible and with long-term stability against the penetration of corrosive media, provision is made according to the invention such that at least one front protection strap of the contact element is aligned running, at least in sections, transversely to the at least one crimping strap and rests against the latter, a front section of the electric conductor being covered, at least in sections, by the at least one front protection strap.

Claims

1. An electric contact element adapted for assembly with an electrical conductor, said electric contact element comprising: a first crimping strap and a second crimping strap each configured and arranged to reach around at least partially the outside of the electric conductor extending substantially transverse to the crimping straps when in a fully crimped state of the contact element; and a first protection strap and a second protection strap each extending substantially transverse to the crimping straps and configured and arranged to cover and rest against at least partially the crimping straps and cover an end of the conductor when the crimping straps are in a fully crimped state of the contact element, the first protection strap and the second protection strap overlapping in a longitudinal direction of the contact element in the fully crimped state.

2. The electric contact element according to claim 1, wherein the protection straps are configured and arranged to rest against the contact element in the fully crimped state.

3. The electric contact element according to claim 2, wherein the first protection strap is formed integrally with the first crimping strap and extends away from the first crimping strap.

4. The electrical contact element according to claim 1, wherein the two protection straps are disposed substantially opposite one another in related to a center axis of the contact element.

5. The electric contact element according to claim 1, wherein a free end of each of the protection straps has a chamfer.

6. An electric contact assembly comprising: an electric conductor; and an electrical contact element having: a first crimping strap and a second crimping strap each reaching around at least partially the outside of the electric conductor extending substantially transverse to the crimping straps when in a fully crimped state of the contact element; and a first protection strap and a second protection strap extending substantially transverse to the crimping straps and covering and resting against at least partially the crimping straps and covering an end of the electric conductor when the crimping straps are in a fully crimped state of the contact element, the first protection strap and the second protection strap overlapping in a longitudinal direction of the contact element in the fully crimped state.

7. The electric contact assembly according to claim 6, wherein the protection straps are individually formed integrally with the crimping straps and extend away from the respective crimping straps.

8. The electric contact assembly according to claim 6, wherein the two protection straps are disposed substantially opposite one another in relation to a center axis of the contact element.

9. The electric contact assembly according to claim 6, wherein a free end of each of the protection straps has a chamfer.

10. The electric contact element according to claim 1, wherein the protection strap is bent substantially at a right angle in the fully crimped state.

11. The electric contact assembly according to claim 6, wherein the protection strap is bent substantially at a right angle in the fully crimped state.

12. A method of producing an electric contact assembly, comprising: crimping a first crimping strap and a second crimping strap around at least partially the outside of an electric conductor extending substantially transverse to the crimping straps; and covering an end of the electric conductor when the crimping straps are in a fully crimped state with a first protection strap and a second protection strap, the first protection strap and the second protection strap extending substantially transverse to the crimping straps, covering and resting against at least a part of the crimping straps, and overlapping in a longitudinal direction of the electric conductor in the fully crimped state.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The figures show as follows:

(2) FIG. 1 a top view of a first embodiment of a contact element according to the invention in an uncrimped state;

(3) FIG. 2 a top view of the contact element shown in FIG. 1 in a pre-crimped state;

(4) FIG. 3 a perspective view of the contact element shown in FIGS. 1 and 2 in the pre-crimped state;

(5) FIG. 4 a detailed view of a contact arrangement according to the invention with the contact element shown in FIGS. 1 to 3 in a fully crimped state;

(6) FIG. 5 a perspective view of a detail of the contact arrangement shown in FIG. 4;

(7) FIG. 6 a cross-sectional view of a contact element according to the invention that is positioned together with an electric conductor in a crimping tool to produce a contact arrangement according to the invention;

(8) FIG. 7 a top view of an additional embodiment of a contact element according to the invention in the uncrimped state;

(9) FIG. 8 a perspective view of the contact element shown in FIG. 7 in the pre-crimped state.

DETAILED DESCRIPTION OF THE EMBODIMENT(S)

(10) A first embodiment of a contact element 1 according to the invention is described with reference to FIGS. 1, 2 and 3. This embodiment shows the contact element 1 in an uncrimped state A. In the uncrimped state A, the contact element 1 can be fully planar, as it is, for example, directly after being punched from a sheet material, and can extend substantially in a longitudinal direction X and a transverse direction Y without parts of the contact element protruding in a height direction Z. For example, a sheet thickness can be measured substantially parallel to the height direction Z. The longitudinal direction X, the transverse direction Y and the height direction Z together form a Cartesian coordinate system.

(11) The contact element 1 has a contact section 2, a conductor section 3, a transition section 4, an insulation section 5, a connection section 6 and a handling section 7 that are strung together between a front end 8 and a rear end 9 of the contact element 1 in the direction opposite to the longitudinal direction X. Formed on a face side 10 of the contact element 1, disposed between the contact section 2 and the conductor section 3 and facing in the longitudinal direction X, are a front protection strap 11a and an additional front protection strap 11b which are arranged opposite one another in relation to a longitudinal axis L of the contact element 1 running parallel to the longitudinal direction X and these form front protection 11 for the contact element 1 in a fully crimped state C of the contact element 1 (see FIG. 4).

(12) Each of the two front protection straps 11a, 11b is connected to the face side 10 by a stem 12. In the region of the stem 12, the two front protection straps 11a, 11b are slotted or a slot 13 is formed between the front protection strap 11a, 11b and the face side 10. Adjoining the stem 12 in the longitudinal direction X is a bending section 14 that connects the stem 12 to a covering section 15 of the front protection strap 11a, 11b following the bending section 14 in the longitudinal direction X. The covering section 15 forms a free end 16 of the front protection strap 11a, 11b. On the free end 16, the front protection straps 11a, 11b are provided with a chamfer 17. In the direction towards the longitudinal axis L, each front protection strap 11a, 11b has a rounding 18 between the free end 16 and the bending section 14. A side edge 19 of the front protection strap 11, extending between the free end 16 and the bending section, 14 runs substantially in a straight line.

(13) Furthermore, it can be seen in FIGS. 1 and 7 that a length I.sub.11b of the additional front protection strap 11b, measured substantially parallel to the longitudinal axis L, exceeds a length I.sub.11a of the front protection strap 11a likewise measured substantially parallel to the longitudinal axis L. In particular, the front protection strap 11b has a stem 12 that is longer than the front protection strap 11a measured substantially parallel to the longitudinal axis L. A width b.sub.11a of the front protection strap 11a measured substantially parallel to the transverse direction Y corresponds largely to a width b.sub.11b of the front protection strap 11b likewise measured substantially parallel to the transverse direction Y. As shown in FIGS. 1 and 2, the contact section 2 can have reinforcement elements 20 which can be, for example, in the form of beads or similar, in order to increase the flexural rigidity of the contact section 2. On the front end 8, the contact section 2 can be provided with a contact component (not shown) formed according to the respective requirements. The contact component can be, for example, a terminal box or a socket contact, a pin contact, a fastening eye or the like.

(14) The conductor section 3 comprises a base 30. On either side of the base 30, lying opposite with regard to the longitudinal axis L, a crimping strap 31a and an additional crimping strap 31b are formed on the contact element 1. As shown in FIG. 4, in the fully crimped state C, the crimping straps 31a, 31b form a cover 31 for the contact element 1. The crimping straps 31a, 31b are respectively connected to the base 30 by a bending region 34. Flanks 35 of the crimping straps 31a, 31b form outer edges 36 of the crimping straps 31a, 31b pointing away from the longitudinal axis L substantially in the transverse direction Y or in the opposite direction. The conductor section 3 is provided with groove-shaped indentations 38 extending substantially parallel to the transverse direction Y over the entire base 30 and into the beams 35 and which improve a connection between the contact element 1 and an electric conductor as seen in FIG. 6.

(15) Furthermore, the conductor section 3 passes via the transition section 4 into a sealing section 5a of the insulation section 5 adjoining which is a holding section 5b of the insulation section 5 in the direction opposite the longitudinal direction X. In the sealing section 5a, a sealing strap 51a and an additional sealing strap 51b extend away from the longitudinal axis L from a base 50 of the contact element 1 in the region of the insulation section 5 in the transverse direction Y and in the opposite direction. Similarly to the crimping straps 31a, 31b, the sealing straps 51a, 51b are respectively connected, via a bending region 54, to the base 50 of the insulation section 5 and have beams 55 which form outer edges 56. Similarly to the sealing straps 51a, 51b, holding straps 51c, 51d, formed in the holding section 5b, likewise extend away from the longitudinal axis L in the transverse direction Y and in the opposite direction and are connected to the base 50 via the bending region 54. The holding straps 51c, 51d are respectively displaced from the sealing straps 51a, 51b by a slot 52. The connection section 6 likewise has a base 60 and outer edges 66. Formed in a base 70 of the handling section 7 is a handling component 71 in the form of an eye or a through hole which facilitates handling and precise positioning of the contact element 1, in particular when processing the latter.

(16) FIG. 2 shows the contact element in a top view in a pre-crimped state B in comparison to the silhouette of the contact element 1 in the uncrimped state A. In the pre-crimped state B, the contact section 2 or the base 20 in the region of the contact section 2 is provided with the reinforcement element 21. The crimping straps 31a, 31b are bent round in the direction away from the base 30 in their respective bending region 34 and so point with their outer edges substantially in the height direction Z. The front protection straps 11a and 11b, disposed on the face sides 10 of the crimping straps 31a, 31b, are bent around substantially at right angles on their bending sections 14 so that the free ends 16 of the front protection straps 11a, 11b point in the direction towards the longitudinal axis L. The chamfer 17 on the front protection strap 11a points substantially in the opposite direction to the transverse direction Y and in the longitudinal direction X towards the chamfer 17 aligned in the opposite direction on the front protection strap 11b. The covering sections 15 of the front protection straps 11a, 11b are disposed at different heights in relation to one another along the longitudinal direction X so that the covering section 15 along the transverse direction Y is substantially aligned with an empty space between the covering section 15 of the crimping strap 11b and the face side 10 in the region of the base 30 and/or the crimping strap 31b.

(17) Furthermore, in the transition section 4, the insulation section 5 and the connection section 6, the respective beams and sealing straps 51a, 51b, holding straps 51c, 51d and at least outer edges 66 are also bent round at respective bending regions 44, 54, 64 and so point at least proportionately in the height direction Z. The chamfers 57 formed on the sealing straps 51a and which taper in the longitudinal direction X in the transition section 4 point at least proportionately towards one another in the transverse direction Y. The additional holding strap 51d is disposed lying opposite the slot 52 on the longitudinal axis L in the transverse direction Y.

(18) FIG. 3 shows the contact element 1 in the pre-crimped state B in a perspective view. It becomes clear here that the reinforcement structure 21 formed like a beam, the crimping straps 31a, 31b, the beams 45 in the transition section 4, the sealing straps 51a, 51b and the holding straps 51c, 51d are bent away in their respective bending regions 24, 34, 44 and 54 from the respective bases 20, 30, 40 and 50 in the height direction Z and at least in sections delimit an interior 80 of the contact element 1 in the transverse direction Y and in the opposite direction. Furthermore, the interior 80 is delimited by the bases 20, 30, 40, 50, in particular the bases 30, 40 and 50 in the conductor section 3, the transition section 4 and the insulation section 5 in the opposite direction to the height direction Z. In the longitudinal direction X, the interior 80 is delimited at least in sections by the front protection straps 11a, 11b, in particular by their covering sections 15. A center axis M of the contact element 1 runs substantially parallel to the longitudinal axis L above the bases 20, 30, 40, 50 centrally between the beams 35, 45, 55 though the interior 80.

(19) FIG. 4 shows a detail of the contact element 1, in particular its front protection 11 in the fully crimped state C in a perspective view. It becomes clear here that in the fully crimped state C the crimping straps 31a, 31b are bent round and/or rolled to such an extent that they form a seam 90 along the beams 35 that strike one another and/or the outer edges 36 which can run substantially along the center axis M. The crimping straps 31a, 31b thus form the closed cover 31 of the contact element 1 which, at least in sections, delimit the interior 80, shown in FIG. 3, in the opposite direction to the height direction Z. The roundings 18, respectively, nestle up against the crimping straps 31a, 31b on the inside around the circumference.

(20) In the longitudinal direction X, the interior 80 is delimited or closed, at least in sections, by the front protection 11 formed by the front protection straps 11a, 11b. In the region of their covering sections 15, the front protection straps 11a, 11b can overlap, at least in a projection along the center axis M. In other words, for example, the free end 16 of the front protection strap 11 can project over the center axis M. Thus, the additional front protection strap 11b can be disposed behind the front protection strap 11a in the longitudinal direction X, resting against the latter. The front protection strap 11a can project into the space formed between the covering section 15 of the front protection strap 11b and the face side 10 or be accommodated with form locking and/or force fit in said space, and this can help to improve the stability of the front protection 11.

(21) FIG. 5 shows another part of the contact element 1 and a contact arrangement 100 configured according to the invention and comprising the latter in the fully crimped state C, in particular in the transition section 4 and the insulation section 5. It becomes clear here that the outer edges 56 and, in particular, the chamfers 57 of the sealing straps 51a, 5ab can rest flush against one another in the fully crimped state C and so the seam 90 can extend without interruption over the transition section 4 into the sealing section 5. The holding straps 51c, 51d enclose an electric conductor 200, the electric cable 201 of which is crimped in the interior 80, shown in FIG. 3, and on the outer circumference on its insulation 202. The additional holding strap 51d is embedded at least in sections in the slot 52 and can be held within the latter with form locking and/or force fit.

(22) FIG. 6 shows the contact element 1 and the contact arrangement 100 in the pre-crimped state B in a cross-sectional view along the center axis M in a plane in a crimping tool 300 stretching substantially parallel to the longitudinal direction X and height direction Z. The crimping tool 300 can be, for example, a crimping die that can have a stamp 300a and an anvil 300b. The contact element 1 is placed, at least with the bases 30, 40, 50, onto the anvil 300b so that at least the conductor section 3, the transition section 4 and the insulation section 5 are disposed in a corresponding conductor mould 303, a transition mould 304 or an insulation mould 305 of the crimping tool 300. The electric conductor 200 is stripped in a region disposed at least in the conductor section 3. A front section 203 of the electric conductor 200 or its electric cable 201 is disposed a distance d.sub.11, 203 away from the front protection 11, measured substantially parallel to the longitudinal direction X, so that the crimp indentor 300a can move down towards the anvil 300b in order to transfer the contact arrangement 100 from the pre-crimped state B into the fully crimped state C and can thus crimp the insulation section 5, the connection section 6 and the handling section 7 without having any negative impact upon the front protection 11.

(23) FIG. 7 shows another embodiment of a contact element 1′ according to the invention in the uncrimped state A. Unlike the contact element 1, sealing straps 51a′, 51b′ are formed on the contact element 1′ such that they project over the outer edges 36 of the holding section 13 or in the opposite direction to transverse direction Y similarly to the holding straps 51c, 51d. In order to nevertheless be able to provide reliable crimping and thus sealing enclosure of the interior 80, an additional slot 43 is respectively provided between the beams 45 of the transition section 4 and the sealing straps 51, 51b.

(24) FIG. 8 shows the contact element 1′ in the pre-crimped state B. It becomes clear here that at least outer edges 56 of the sealing straps 51a′, 51b′ are displaced from the transition section 4 by the respective slot 43. This makes it possible to crimp transition sections 4 and insulation sections 5 without these having any negative impact upon one another.

(25) Within the framework of the thinking behind the invention, deviations from the embodiments described above are possible. Thus, a contact element 1, 1′ according to the invention can be provided, according to the respective requirements, with contact sections 2, conductor sections 3, transition sections 4, insulation sections 5, 5′, handling sections 7, front ends 8 and rear ends 9, which according to the respective requirements, can have any number and form of face sides 10, front slots 11, front straps 11a, 11b, stems 12, slots 13, bending sections 14, covering sections 15, free ends 16, chamfers 17, roundings 18, side edges 19, bases 20, reinforcement elements 21, bases 30, covers 31, crimping straps 31a, 31b, bending regions 34, beams 35, outer edges 36, chamfers 37, indentations 38, bases 40, slots 43, bends 44, beams 45, bases 50, sealing straps 51a, 51b, holding straps 51c, 51d, bending regions 54, beams 55, outer edges 56, chamfers 57, bases 60, outer edges 66, bases 70, handling components 71, so as to enclose an interior 80 such that it is sealed as well as possible and is as stable as possible with the formation, for example, of a seam 90, which interior can be configured according to the respective requirement in order to accommodate at least one electric conductor 200 within it and to form with the latter a contact arrangement 100 configured according to the respective requirements. Accordingly, a crimping tool 300 according to the invention can be configured, according to the respective requirements, to crimp the contact element 1, 1′ with the electric conductor or conductors 200.