EP2289127A1 - Motor vehicle conductor connection element - Google Patents

Abstract

The invention relates to a motor vehicle conductor connection element 2 comprising a first flat section 4 and an inlay 6 that is disposed in the flat section in such a manner so as to be substantially flush with a surface of the flat section. In order to guarantee contacting with different conductors, it is proposed that the flat section 4 be essentially entirely coated with a metal 12 and that the inlay 6 be partially coated with the metal 12.

Description

 Motor vehicle conductor connection element

The application relates to a motor vehicle terminal element and a method for producing such a Kraftfahrzeugleiteranschlusselernentes.

Motor vehicle ladders in cars and trucks are increasingly being made of aluminum today. It has been found that aluminum is suitable for current carrying capacity for high currents. Distant shows it with a large conductor cross-section brings less weight problems.

However, it is known that on the surface of

Aluminum forms an aluminum oxide layer through environmental influences. This aluminum oxide layer is poorly conductive and thus represents a high contact resistance for the connection technology. If the aluminum conductors are connected to other conductors, for example copper cable lugs, the aluminum oxide layer must first be broken in order to produce an electrical contact with low contact resistance. At the same time, when using different metals, for example, aluminum and copper or other

Non-ferrous metals, the interface is protected from environmental influences. Otherwise, corrosion occurs in the area of the seam and the contact can be damaged. In order to better produce electrical connections between an aluminum conductor and conductors of other metals, such as copper, terminal lugs are made of different metals are known.

For example, from the German patent application DE 10 2006 031 839.0 an electrical contact element is known, which serves for contacting Aluflachleitern with round conductors. Here is. a first part of the contact element made of aluminum and a second part made of copper. The

Interface between the aluminum and the copper is protected by encapsulation against corrosion. However, the production of such a contact element is expensive.

For this reason, the application was the object of providing a contact element available, which has good electrical property and at the same time is inexpensive and easy to produce.

This object is achieved according to an article by a motor vehicle conductor connection element with a first flat part, and with a surface of Flachteiis arranged substantially flush in the flat part insert, wherein the flat part is substantially completely coated with a metal and the insert partially coated with the metal is.

It has been recognized that in the flat part directly an insert, which is substantially flush with a surface of the flat part, can be introduced. If you now coat the entire motor vehicle ladder and leave out part of the insert, it is possible to have one Produce motor vehicle conductor connection element, in which the interface between the insert and the flat part is substantially coated with metal. This metallic coating protects the interface between the insert and the flat part from corrosion. Moreover, it is possible to manufacture the badge part and the insert of different metals in order to be able to produce good contract conditions with conductors made of different metals. By only partially coating the insert, at least part of the insert is free of metallic coating and it is possible to contact a conductor or a terminal bolt directly on the uncoated part of the insert.

The conductor may for example be an energy conductor, which must have a high current carrying capacity and a

Cross section of more than 10mm ² , preferably more than 100mm ² have. The conductor can also be used as a power conductor in electrical systems and serve as a signal conductor.

The coating can be carried out by means of galvanic processes. Also, more than one layer can be applied.

According to an advantageous embodiment, it is proposed that the insert is coated in the region of an interface with the flat part with the metal. If the insert is arranged flush in the flat cube, an interface is formed between the material of the insert and the material of the flat part. This interface is susceptible to penetrating ambient moisture and thus to corrosion. To prevent ingress of ambient moisture, the

Interface coated with the metal. The metal surrounds Thus, the flat part together with the seam and it remains part of the insert free of metallic coating.

For this reason, it is proposed according to an advantageous embodiment that the insert in a central region away from the seam with the flat part is free of the metallic coating.

On the one hand, it is possible to connect an aluminum stranded conductor to the flat part when the insert is made of aluminum. Then, for example, be the flat part of copper. On the copper of the flat part can be easily connected to a copper line.

On the other hand, it is proposed for the connection with aluminum flat conductors that the flat part is essentially formed from aluminum. In this case, the insert may be made of copper. A copper wire can then be attached to the insert.

In order to be able to make a contact with, for example, a copper wire, it is proposed that the insert be formed from a nonferrous metal or alloys thereof, in particular copper, zinc, tin, bronze or brass. The part of the insert that is free of the metallic coating, for example, can be used to make a contact with a copper conductor. In particular, it is advantageous if the insert is made of copper, if a contact with a conductor made of copper is to be produced. The metallic coating may be formed of tin, nickel or similar metals. The Applying the metallic coating can be done by means of galvanic processes.

On the other hand, for example, a contacting of a Kupferflachteii be made with a Aluminiumieitung. In this case, it is proposed that the insert is made of aluminum or alloy thereof. The part of the insert which is free of the metallic Beschichrung, for example, can be used to make a contact with the aluminum conductor, such as a round conductor. The flat part can be formed of copper and serve as a terminal lug for connection to another conductor, for example also made of copper. The metallic coating may be formed of tin, nickel or similar metals. The application of metallic

Coating can be carried out by galvanic methods.

In order to arrange the insert flush with a surface of the flat coil, it is proposed that a groove is arranged in the flat part. In this groove, the insert can be arranged cohesively and / or non-positively. It is possible to arrange the insert by means of a press fit in the groove of the flat part or to weld in the groove.

According to an advantageous embodiment, it is proposed that the insert is pressed or rolled in the flat part. When rolling it is possible, for example, that the insert is laid as a band on a slightly wider band from which the flat part is made, and is then pressed mechanically into the flat part. According to an advantageous embodiment, it is proposed that the flat part is produced together with the insert from a longitudinally extending band with liner arranged in the longitudinal direction. The flat part may consist of a band, for example a

Aluminum band or a copper band, are produced. For example, the tape can be 1 cm to 20 cm wide and unwound from a coil. Subsequently, in the longitudinal direction in a region of the flat part, the insert, for example, also as a band, placed and mechanically, physically or chemically connected in a final step with the flat part, that the surfaces of the insert and Flachteiis are flush. From the resulting band, which is provided in the longitudinal direction with a band, which represents the insert, the flat part can be at least partially cut out in a further step by means of stamping, which then serves as a motor vehicle conductor connection element. When punching, the band can serve as a carrying strap for the stamped parts. Thus, the partially stamped parts can be supplied as strapped goods for further processing.

It is also proposed that the flat part is punched out of the band together with the insert. By punching the Flachieiter can be produced together with the insert as bulk material.

The Kraftfahrzeugieiteranschlusselement may be formed according to an advantageous embodiment of the flat part and the insert and serve as a connection lug. The

Connection lug can for example be shaped such that in the area of the insert by means of ultrasonic welding, soldering or other joining techniques for cohesively connecting a conductor, such as aluminum, ir.it is connected to the motor vehicle terminal element. On the other hand, the terminal lug can serve to be connected to an electrical conductor also cohesively. Here, the flat part, which is formed for example of copper, serve to ultrasonic welding, rotational friction welding,

Multiorbitalreibschweißen or other welding process to be connected to a Kupferieiter. Also is one

Screwing on a bolt, for example in a housing of a fuse box or distribution box possible.

Also, it is possible for the insert to be made of copper and the flat part of aluminum. In this case, a copper conductor may be connected to the insert, and the flat part formed of aluminum may be connected to an aluminum nitride by welding.

According to an advantageous embodiment, it is proposed that the connection lug has an attachment for a bolt. This can for example be a hole into which a bolt can be inserted or screwed. The bolt can serve, for example, as a connection pin for a solder connection, or for a screw connection with a connection terminal.

Another object of the application is a method for producing a motor vehicle conductor connection element, which is characterized in that a band is fitted with a flush, along the longitudinal axis of the band extending insert that from the band together with the insert, a flat part is cut out, and that the flat part is substantially completely coated with a metal, wherein the insert is partially coated with the metal. First, a band is fitted with an insert extending in the longitudinal direction of the band. The insert is connected to the band so that the surface of the insert is flush with a surface of the Fiachteils. Subsequently, the flat part can be metallically coated together with the insert, wherein a part of the insert is excluded from the coating process.

When separating the flat part from the tape, a partial separation can take place. The band can then serve as a belt between individual flat parts. The flat part can be detached from the band at least along three sides, and a predetermined breaking point can be pre-punched on a fourth side. At this predetermined breaking point, the flat part can then be released from the band in a further processing step. For further processing, however, the flat part is initially further attached to the band and can be further processed as a strapped product.

In order to protect the interface between Flachteii and insert from corrosion, it is proposed that the insert is coated in the region of a seam with the flat part with the metal.

Om to achieve that a good contact with electrical conductors, such as copper or aluminum, on the insert is possible, it is proposed that the insert in a central region, away from the interface with the flat part, not with the metal is coated. Depending on whether a copper line or an aluminum cable is attached to the insert, the insert may be formed of either copper or aluminum. Also, other non-ferrous metals besides copper, as well as aluminum alloys may be used.

For the production of the motor vehicle terminal connecting element is proposed according to an advantageous embodiment that the band, which is equipped with the insert is initially partially covered with a protective element and then the flat part is coated with the metal. The protective element can be, for example, an adhesive film or another film-like coating which covers the insert in a central region. Also, during coating, the insert may be provided with a cover, a plug, e.g. made of rubber, or a coating coated / covered. The protective element can likewise extend along the longitudinal axis of the strip during the production process and thus partially cover the insert in a continuous process.

According to an advantageous exemplary embodiment, it is proposed that, following the step of covering the band with the protective element, the flat part is separated from the band. This can be done for example by punching. In this case, the flat part is separated out of the band together with the insert and the protective element. A partial separation, as already explained above, is also possible. Subsequently, by means of a galvanic coating process or other coating processes such as dip coating, powder coating and the like, the stamped flat part be coated with the metal. The protection element prevents a part of the insert from being provided with the metallic coating. In a final manufacturing process, the protective element can be removed from the insert, whereupon in the region of

Protective element, the insert is freely accessible and in all other areas, the flat part or the insert is coated with the metal. As a result, all seams between the flat part and the insert are coated by metal and protected from corrosion.

The article will be explained in more detail with reference to drawings showing an exemplary embodiments.

In the drawing show:

Fig. 1 is a plan view of a

Motor vehicle conductor connection element;

Fig. 2 is a sectional view of a

Motor vehicle conductor connection element;

Fig. 3 is a further sectional view of a

Motor vehicle conductor connection element;

Fig. 4 is a schematic construction of a manufacturing method;

Fig. 5 is a view of a manufacturing method.

Fig. 1 shows a motor vehicle connector element 2, which consists of a flat !! 4 and an insert 6 formed is. The Kraftfahrzeugleiteranschiusselement 2 is substantially coated with a metallic coating. In particular, at the seam 8 between the flat part 4 and the insert 6, the Kraftfahrzeugleiteranschiusselement 2 is coated with a metallic coating.

It can also be seen that the

Kraftfahrzeugleiteranschiusselement 2 in the region of the flat part 4 has a bore 10 for receiving, for example, a screw or a bolt.

Fig. 2 shows; A sectional view A-A through the Kraftfahrzeuganschiusseiement 2, It can be seen that the insert 6 is arranged in the region of the upper surface of the flat part 4 flush with the flat part 4. The insert 6 can be materially and / or positively and / or positively connected to the flat part 4. The insert can have a thickness of a few microns to a few mm. In the region of the seam 8, the flat part 4 is coated with a metallic coating 12 as well as in all other areas. The insert 6 is only partially coated with the metallic coating 12, specifically in the region of the seam 8. In a central region, the insert 6 is uncoated. The thickness of the coating 12 is merely schematically understood. A coating 12 is preferably by means of a galvanic

Coating process applied and is for example a few microns thick. Also, multiple layers of different materials can be applied.

By the coating 12, the interface 8 between insert 6 and Fiachteil 4 is protected from environmental influences. Kasser can not penetrate into seam 8, making the seam less susceptible to weathering.

In order to prevent the seam 8 from being exposed to environmental influences in the lateral area, the flat part 4, as can be seen in FIG. 3, which represents the section B-B, is also laterally coated with the metallic coating 12 in the region of the seam 8.

The motor vehicle connection element 2 is suitable for connecting a cable, for example made of aluminum, to a cable, for example of copper. For example, it is possible for the aluminum cable to be connected to the insert 6 by means of suitable integral fastening methods such as ultrasonic welding, friction welding, rotational friction welding, multi-arm friction welding, soldering or the like in the area 6 of the insert 6, which is free of metallic coating. A copper cable can with the flat part 4, which may also be formed of aluminum, also by means of cohesive

Connection methods are connected. Also, a screwing or soldering of the copper cable, which may be a flat cable, possible. It should be noted that it is also possible that the insert is made of copper and the flat part of aluminum. In this case, the insert is used for contacting a copper cable, for example by means of cohesive bonding methods such as welding or soldering. The flat aluminum part can be used for contacting with an aluminum flat conductor. A simple production of a

Motor vehicle conductor connection element 2, as shown in FIGS. 1-3, is shown schematically in FIG. From a coil 20, a belt 22 made of, for example, copper, brass, bronze or other non-ferrous metals or alloys thereof is rolled. In addition, a slightly thinner material of insert material is unrolled from a coil 24 along the longitudinal axis of the belt 22 and positioned on the belt 22. By means of a roller 28, the belt 26 is connected to the belt 22 such that in the region of the surface, the two belts are flush. Instead of the roller 28, other connection methods may be used. It is also possible that an already placed tape is unrolled. The clad strip may be, for example, a copper strip with an aluminum cladding insert.

The resulting band 30, which is formed from the band 22 and the band 26, and substantially comprises an insert made of the material of the band 26, becomes in another

Processing step connected to a developed protection element 32 in a connecting step 34. The protective element may, for example, be a foil-like element which is glued onto the band 30. The protective element 32 does not necessarily have to be a film-like element, but may also be a plug, for example made of rubber, a paint finish or another cover. It is also possible that the cover is pressed onto the belt only during the subsequent coating process.

The resulting band 36 is partially covered with the protective element 32 in the region of the insert. Subsequently In a punching process 38, the band 36 is separated into individual motor vehicle conductor connection elements 2. When punching, for example, the outer shape and a bore 10 can be provided. When punching 38 does not necessarily have the Kraftfahrzeugieiteranschlusselement 2 completely separated from the belt 36. It is also possible - that the Kraftfahrzeugleiteranschiusselement 2 is separated along three sides of the belt 36 and is separated only partially along a fourth side, but a connecting web remains with the band. This connecting web, for example, have a predetermined breaking point. The band 36 carries somir. the substantially punched motor vehicle conductor connection elements 2 as a belt.

When punching 38, moreover, an area of the

Flat part are formed as insulation crimp. For example, it is possible to provide on two opposite sides of the flat part outwardly facing flags which are formed during punching from the band 36. In a same machining step, these flags can be bent out of the plane of the flat part. These flags can then serve as crimping elements, which can serve to crimp the insulation of the conductor connected to the insert.

The joining step 34 may also be done after punching 38 and molding the insulation crimps.

The bulk material or the belt, which has been produced subsequent to the punching process 28, can in a galvanic coating process 40 by means of suitable methods with a metal, for example zinc, tin or Alloys thereof, to be coated. The protective element 32 is still at this time on Kraftfahrzeugleiteranschlussei tees 2. This prevents metallic coating of the covered area of the insert is coated metallically.

The resulting motor vehicle terminal connection elements 3 are thus completely coated with metal, wherein only a part of the insert is protected by the protective element 32 and is not metallically coated.

Subsequently (not shown), the protective element can be removed, whereupon a

Kraftfahrzeugleiteranschuusselement 2, as shown in the figure 1.

Also, it is possible to perform the stamping processing step 28 at the beginning of the processing. In particular, if, as described above, when the belt is connected as a belt with the Kraftfahrzeugleiteranschiusselement 2 at least partially after punching. On this belt of band and partly punched out

Motor vehicle conductor connection elements 2 can then be applied in a step 34, a protective element. The tape 36 may then be coated together with the protective element 32 in a coating process 40. Subsequently, the band 36 can be separated from the protective element 32 in an endless process. Finally, the Kraftfahrzeugleiteranschuusselement 2 can be completely separated from the belt 36.

The step of rolling 28 as well as the application of the protective element 32 is shown schematically in FIG shown. The belt 22 is fed to a roller 28 together with the belt 26. The result of the annealing process is a tape 30 in which the insert 6 is substantially flush with the surface of the tape 30 and extends longitudinally of the tape 30. In conclusion, a region of the insert 6 can be covered by means of a protective element 32. The protective element 32 prevents the metallic coating from coating the entire insert 6 in a subsequent electroplating process. After the separation of the protective element 2 in the Anschiuss to the

Coating step is a portion of the insert 6 free of metallic coating and is suitable for electrical contacting, for example by means of cohesive connection technology.

With the aid of the motor vehicle conductor connection element and the method shown, a contacting between electrical energy conductors of different metals can be implemented cost-effectively.

Claims

claims

1. Motor vehicle conductor connection element having a first Fiachteil, one with a surface of the flat part substantially flush in the flat part arranged insert, wherein the flat part is substantially completely coated with a metal and the insert is partially coated with the metal.

2. Kraftfahrzeugleiteranschlusselerαent according to claim 1, characterized in that the insert is coated in the region of an interface with the flat part with the metal.

3. Motor vehicle conductor connection element according to claim 2, characterized in that the insert in a central region away from the seam with the flat part is free of the metallic coating.

4. motor vehicle terminal connection element according to claim one of the preceding claims, characterized in that the flat part is formed substantially of aluminum or alloys thereof, and the insert of a non-ferrous metal or alloys thereof, in particular copper, zinc, tin, bronze or brass, is formed.

5. Motor vehicle conductor connection element according to one of claims 1 to 3, characterized in that the flat part consists essentially of a non-ferrous metal or Alloys thereof, in particular copper, zinc, tin, bronze or brass, is formed, and that the insert of aluminum or alloys thereof is formed.

6. Motor vehicle conductor connection element according to one of the preceding claims, characterized in that the insert is arranged in a groove of the flat part.

7. Motor vehicle conductor connection element according to one of the preceding claims, characterized in that the insert is pressed or rolled in the flat part.

8. Motor vehicle conductor connection element according to one of the preceding claims, characterized in that the flat part is made together with the insert from a longitudinally extending band with longitudinally arranged insert.

9. Kraftfahrzeugleiteranschiusselement according to any one of the preceding claims, characterized in that the flat part is at least partially punched together with the insert from the tape.

10. Kraftfahrzeugleiteranschiusselement according to any one of the preceding claims, characterized in that the flat part produced from the strip together with the insert forms a connecting lug.

11. Motor vehicle conductor connection element according to one of the preceding claims, characterized in that the connection lug has a connection for a bolt.

12. Process for the preparation of exnes

Motor vehicle conductor connection element, in particular according to one of the preceding claims, characterized in that - a band with a flush, along the

That the flat insert is fitted along the longitudinal axis of the band, that a flat part is cut out of the band together with the insert, and that the flat layer is essentially completely coated with a metal, the insert being partially coated with the metal.

13. The method according to claim 12, characterized in that the insert is coated in the region of a seam with the flat part with the metal.

14. Motor vehicle conductor connection element according to claim 13, characterized in that the insert is not coated in a central region away from the seam with the flat part of the metal.

15. The method according to any one of the preceding claims, characterized in that the insert is first at least partially covered miö a protective element, and then the flat part is coated with the metal.

16. The method according to any one of the preceding claims, characterized in that the insert on the belt with the

Protective element is covered, and then that the flat part is at least partially separated from the tape.