DE10143057A1 - Electrical connection element - Google Patents

Abstract

The invention relates to an electrical connection element with at least one connection section, at least one socket section, which has at least two contact arms for contacting a plug-in contact that can be inserted into the socket section, and at least one sheath part that at least partially surrounds the socket section, the sheath part at least in regions acting as a spring-over cooperating with the contact arms is formed, against the restoring force of which the contact arms can be moved apart by inserting the plug contact.

Description

The invention relates to an electrical connection element with at least a connection section and at least one socket section, the for contacting an insertable into the socket section Plug contact has at least two contact arms.

Such connection elements are used, for example, in motor vehicles to a plug connection between two electrical lines create.

The invention has for its object an electrical To create a connecting element that even after multiple insertion processes ensures reliable contacting of the plug contact and at the same time the contacting of plug contacts of different sizes allows.

To solve the problem is an electrical connector with Features of claim 1 provided.

An electrical connection element according to the invention has at least a connection section, at least one socket section which for Contacting an insertable into the socket section Plug contact has at least two contact arms, and at least one Socket section at least partially surrounding the jacket part, the Jacket part at least in some areas as with the contact arms cooperating spring is formed against the restoring force Contact arms can be moved apart by inserting the plug contact are.

Because of the design according to the invention with internal contact arms and an external spring is the mechanical behavior of the electrical contacting separated. The respective properties are independently adjustable. This enables a targeted selection of Materials for the contact arms and for the spring, which are independent from each other in terms of their electrical conductivity and Elastic properties can be optimized.

For example, the contact arms of the socket section can each made of a particularly electrically conductive material and the spring be made of a material with low electrical conductivity. A targeted adjustment of the conductivity and elasticity properties the connection element is made possible in this way.

The for forming contact between the plug contact and the connecting element required contact forces arise at least predominantly through Deflect the spring over the contact arms. Because of the separation of the electrical and mechanical contact properties Spring without regard to electrical properties alone with regard to their mechanical and especially their elastic characteristics optimize and manufacture from a material that is elastic Preserves behavior even after many insertion processes.

In addition, the interaction of contact arms and Over-insertion of plug contacts of different strengths in the socket section without the effective contact forces differ significantly from each other. Because the contact arms when plugged in of the plug contact against the restoring force of the spring can be moved apart, the spring is independent of their electrical properties can be set so that their Elastic properties at essentially the same contact forces for Lead plug contacts of different strength.

In particular, the spring can be dimensioned appropriately the material, d. H. by a small strength and a small width, than particularly soft spring can be designed. The contact arms, however need a certain minimum cross-section to carry the current Restricted dimensioning.

Advantageous embodiments of the invention are in the Subclaims, the description and the drawing.

So according to an advantageous embodiment, the jacket part be sleeve-shaped and attachable to the socket section. In this way, the jacket part not only serves as a spring, but fulfills a protective function at the same time by Socket section forms the surrounding housing.

According to a further embodiment of the invention, at least one and preferably two opposite sides of the jacket part each than one with a contact arm of the socket section cooperating spring arm formed. Through this training a Symmetry of the socket section and the jacket part reached, resulting in a symmetrical distribution of the restoring and contact forces leads and in a further improved contact quality results.

The spring arms preferably each act in the insertion direction area of the contact arms located behind a contact area this together. The deflection of the spring when inserting one Plug contact is reduced in this way, which the Spring behavior of the overall system becomes softer.

In a further variant of the invention, the spring arms are each held in the region of an insertion opening of the socket section and especially from the front or the side.

The spring is preferably made of a material with long-term stability Elastic properties and in particular formed from a spring steel. Because of this training, the spring is preserved even after many Inserting their elasticity, so that even after frequent use of the connecting element or after permanent use of the Connection element a consistently good, especially at elevated temperatures Contact formation is guaranteed.

According to a further particularly preferred embodiment of the invention are the contact arms made of a material with high electrical Conductivity and in particular made of copper or a copper alloy. On in this way the electrical properties of the contact arms are optimal achievable without the mechanical and in particular elastic Properties need to be taken into account.

The spring is advantageously in the direction of the contact arms biased, preferably the contact arms even when not plugged in Plug contact are acted upon by the spring. This is ensured that for everyone for the respective connection element in question coming plug contacts always a deflection of the spring takes place, whereby at least essentially constant contact forces for everyone Plug contacts are guaranteed.

In a particularly advantageous embodiment of the invention Spacer means are provided for the contact arms, through which a Minimum size of an insertion opening of the socket section is defined. This training minimizes the forces involved in a Introducing a plug contact for so-called beaking Contact arms must be applied. This makes insertion easier of the plug contact. In addition, a bias of the Contact arms are reduced, so that the risk of exceeding the Yield strength of that formed, for example, from a copper alloy Contact arms is reduced by an incorrectly inserted plug contact.

Advantageously, are preferably in one behind in the direction of insertion a contact area with the contact arms Spacer tabs, which the contact arms at least not Keep the inserted plug contact at a distance. The spacer tabs provide one particularly easy to implement form of spacers.

Furthermore, are preferably in an insertion opening of the Bushing section upstream area guide tabs of the jacket part arranged, which form a guide channel for the plug contact. Thereby the insertion of a plug contact is made easier. To the others the contact arms are wrong from being damaged by one inserted plug contact protected.

In a further variant of the connection element according to the invention are for locking it in an outer housing on the jacket part Locking means formed. This locking means prevents that Connection element when inserting or removing a plug contact is moved out of the outer housing. The outer housing can it is a standard housing, which is used to integrate the Connection element in an electrical component containing Device, for example a motor vehicle, is used.

The locking means preferably comprise at least two locking spring arms. By this locking spring arms can be the connection element in a simple manner lock an outer housing.

The connecting section and the socket section are advantageous on the one hand and / or the jacket part on the other hand as one piece Stamped / bent part designed. This enables a particularly simple and economical production of the connecting element.

The invention is explained below purely by way of example using a advantageous embodiment with reference to the accompanying drawings described. Show it:

Figure 1 is a perspective view of an electrical connection element according to the invention without a jacket part.

FIG. 2 shows a perspective illustration of the connection element from FIG. 1 with the jacket part; and

Fig. 3 is a partial section of the jacket part of Fig. 2 with the socket section.

Fig. 1 shows the connecting portion 10 and the socket portion 12 of an electrical connection element of the invention. The connection section 10 and the socket section 12 are integrally connected to one another via a transition section 14 and are formed as a stamped / bent part. Copper or a copper alloy. The connection section 10 is designed as a crimp region.

The socket section 12 has an axially extending receiving space with an almost rectangular cross section, which is delimited by four side surfaces. A first and second side surface 18 , 20 each have a locking opening 22 , the function of which is explained in more detail below. The second side surface 20 is formed by four side tabs 24 , two of which protrude at right angles from a third side surface 26 and a fourth side surface 28 .

The third side surface 26 merges into a first contact arm 30 and the fourth side surface into a second contact arm 32 . The first and second contact arms 30 , 32 extend in the axial direction and run towards one another in the direction of their free ends 34 , 36 . The contact arms 30 , 32 are designed as spring arms that can be moved apart under elastic deformation.

In the area of their free ends 34 , 36 , the contact arms 30 , 32 each have a contact section 38 , 40 which define a contact area 42 in which the contact arms 30 , 32 come into contact with a plug contact (not shown) which can be inserted into the socket section 12 ,

In a location in the insertion direction behind the contact region 42 area of the contact arms 30, 32 spaced tabs 44 are provided in such a manner perpendicularly from the contact arms 30, 32 from both sides, that the spacer lugs 44 of a contact arm 30 respectively abut on the spacer tabs 44 of the other contact arm 32 and the contact arms 30 , 32 in the contact area 42 are consequently kept at a minimum distance even when the plug contact is not inserted. This minimum distance between the contact arms 30 , 32 in the contact area 42 defines a minimum size of the insertion opening 46 , as a result of which the forces which are necessary when the plug-in contact is inserted to open the contact arms 30 , 32 are reduced. The contact arms 30 , 32 can be biased towards one another such that when the plug contact is not inserted, the insertion opening 46 always has the minimum size specified by the spacer tabs 44 .

According to Fig. 2, connector element according to the invention a one-piece casing part 48. The attachable onto the socket section 12 of shell portion 48 is formed sleeve-shaped corresponding to the cross-section of the sleeve portion 12 and surrounds the sleeve portion 12th In order to achieve fixing of the casing part 48 on the socket portion 12 are at the 48 locking tabs 54 are provided to the first and second side surfaces 18, 20 of the sleeve portion 12 parallel extending side surfaces 50 of the shell portion, which are bent inwards and so engage into the locking openings 22 that movement of the jacket part 48 relative to the bushing section 12 is prevented.

The side surfaces 56 of the jacket part 48 , which run parallel to the third and fourth side surfaces 26 , 28 of the socket section 12 , have recesses in the area of the contact arms 30 , 32 , in the area of which spring arms 60 of the jacket part 48 are located. The jacket part 48 and thus the spring arms 60 consist of a spring steel material with such a small thickness that the spring arms 60 are designed as comparatively soft springs.

A multi-part design of the jacket part 48 is also possible, in which the spring arms 60 are produced from separate pieces of material and are connected, for example by pressing, to a base jacket part.

As shown in FIG. 3, the spring arms 60 are held in the output areas 61 on the jacket part 48 and are folded in from the front, ie bent inwards by 180 °. The spring arms 60 extend in the axial direction along the cutouts and lie in contact areas 62 from the inside against the side surfaces 56 of the jacket part 48 . In the intermediate regions 64 located behind the contact region 42 in the insertion direction, the spring arms 60 are curved toward one another and interact approximately with the contact arms 30 , 32 where the spacer tabs 44 are arranged. The spring arms 60 are biased towards one another, so that a force is exerted on the contact arms 30 , 32 by the spring arms 60 in the region of the spacer tabs 44 .

The spring arms 60 of the jacket part 48 merge with the output areas 61 into detent spring arms 68 which extend in the insertion direction and diverge in the direction of their free ends. In addition, latching hooks 72 are arranged in the contact areas 62 of the spring arms 60 and protrude vertically outwards from the side surfaces 56 of the jacket part 48 . Both the locking spring arms 68 and the locking hook 72 serve to lock the connection element in an outer housing (not shown). The outer housing can be a standard housing which is used to integrate the connection element in a motor vehicle.

In the region of the insertion opening 46 , guide tabs 76 are formed on the jacket part 48 , which are bent in the direction of the insertion opening 46 such that on the one hand they form a guide channel for plug contacts with maximum dimensions of, for example, 1.6 mm × 0.8 mm and on the other hand the contact arms 30 , 32 Protect against damage due to a plug contact that is too large or incorrectly inserted.

By inserting a plug contact, the contact arms 30 , 32 are moved apart against the restoring force of the spring arms 60 . The electrical quality of the contact is ensured by the good electrical conductivity of the contact arms 30 , 32 and the mechanical quality of the contact by the spring force of the spring arms 60 .

Due to the minimum distance between the insertion opening 46 , the insertion forces required to open the contact arms 30 , 32 are small.

Since the contact forces required for mechanical contacting of the plug-in contact are predominantly formed by the spring arms 60 which are biased towards one another and each formed as comparatively soft springs, the contact forces with a plug-in contact of thickness 0.6 mm hardly differ from those with a plug-in contact with thickness 0, 8 mm, this generally applies to plug contacts with at least different thicknesses within certain limits. Because of the long-term elastic properties of the spring arms 60 , constant contact forces are guaranteed even after numerous insertion processes. Reference numeral list 10 connecting section
12 socket section
14 transition section
18 first side surface
20 second side surface
22 locking opening
24 side straps
26 third side surface
28 fourth side surface
30 first contact arm
32 second contact arm
34 free end
36 free end
38 contact section
40 contact section
42 contact area
44 spacer tab
46 insertion opening
48 jacket part
50 side surface
54 locking tabs
56 side surface
60 spring arm
61 Exit area
62 Investment area
64 intermediate area
68 detent spring arm
72 locking hooks
76 guide straps

Claims (15)

1. Electrical connection element with at least one connection section ( 10 ), at least one socket section ( 12 ), which has at least two contact arms ( 30 , 32 ) for contacting a plug-in contact insertable into the socket section ( 12 ), and at least one socket section ( 12 ) at least partially surrounding jacket part ( 48 ), the jacket part ( 48 ) being formed at least in regions as an over-spring cooperating with the contact arms ( 30 , 32 ), against whose restoring force the contact arms ( 30 , 32 ) can be moved apart by inserting the plug contact. 2. Connection element according to claim 1, characterized in that the jacket part ( 48 ) is sleeve-shaped and can be plugged onto the socket section ( 12 ). 3. Connection element according to claim 1 or 2, characterized in that at least one and preferably two opposite sides of the jacket part ( 48 ) are each designed as a with a contact arm ( 30 , 32 ) of the socket section ( 12 ) cooperating over-spring arm ( 60 ). 4. Connection element according to one of the preceding claims, characterized in that the spring arms ( 60 ) cooperate with each other in a region in the insertion direction behind a contact area ( 42 ) of the contact arms ( 30 , 32 ). 5. Connection element according to one of the preceding claims, characterized in that the spring arms ( 60 ) are each held in the region of an insertion opening ( 46 ) of the bushing section ( 12 ) on the jacket part ( 48 ) and in particular are turned in from the front or the side. 6. Connection element according to one of the preceding claims, characterized in that the contact arms ( 30 , 32 ) are each designed as spring arms. 7. Connection element according to one of the preceding claims, characterized, that the spring is made of a material with long-term stability Elastic properties and in particular formed from a spring steel is. 8. Connection element according to one of the preceding claims, characterized in that the contact arms ( 30 , 32 ) are formed from a material with high electrical conductivity and in particular from copper or a copper alloy. 9. Connecting element according to one of the preceding claims, characterized in that the over-spring in the direction of the contact arms (30, 32) is biased, wherein preferably the contact arms (30, 32) are also useful not inserted plug contact biased by the over-spring. 10. Connection element according to one of the preceding claims, characterized in that spacing means ( 44 ) for the contact arms ( 30 , 32 ) are provided, through which a minimum size of an insertion opening ( 46 ) of the socket section ( 12 ) is fixed. 11. Connection element according to one of the preceding claims, characterized in that the contact arms ( 30 , 32 ) are preferably provided in a plug-in direction behind a contact area ( 42 ) with spacer tabs ( 44 ) which the contact arms ( 30 , 32 ) at least keep distance when plug connector is not plugged in. 12. Connection element according to one of the preceding claims, characterized in that in an insertion opening ( 46 ) of the socket section ( 12 ) upstream region guide tabs ( 76 ) of the jacket part ( 48 ) are arranged, which form a guide channel for the plug contact. 13. Connection element according to one of the preceding claims, characterized in that locking means ( 68 , 72 ) are formed for locking it in an outer housing on the casing part ( 48 ). 14. Connection element according to claim 13, characterized in that the latching means comprise at least two latch spring arms ( 68 ). 15. Connection element according to one of the preceding claims, characterized in that the connection section ( 10 ) and the socket section ( 12 ) on the one hand and / or the jacket part ( 48 ) on the other hand are each formed as a one-piece stamped / bent part.