DE102011122899B4 - Two-part crimp contact element - Google Patents

Abstract

Crimp contact element (1) comprising a wire crimping part (34) for fastening a wire or a cable and a contact body (3) for connecting to a mating connector, wherein the crimp contact element (1) is made of at least two parts, and wherein the at least two parts are made by means of at least a pressure-formed connecting element (17), one part (3) having at least one pressure-formed extension (11) which protrudes through an opening (10) of the other part (2), characterized in that the at least one pressure-formed extension ( 11) is a tab (13).

Description

The invention relates to a two-part crimp contact element. The invention further relates to a method for producing a crimp contact element from at least two parts. The invention further relates to a device for producing a two-part crimp contact element.

Crimp contact elements include a wire crimping part to which a wire or cable can be attached and a contact body which is used to connect to a mating connector. In order to combine these two functional parts, which have different requirements, in the largest possible number of combinations in one crimp contact element, there are already modular crimp contact elements made of two parts that can be connected to one another. This is what this shows US 7,338,334 B2 such a modular system. However, the crimp contact element shown therein does not have sufficient contact resistance between the two parts. Furthermore, the connection has little mechanical strength. Furthermore, such crimp contact elements are difficult to produce and therefore expensive.

Also from the printed matter US 5,399,110 A , US 5,573,434 A , DE 100 41 516 A1 , US 2002/0187686 A1 , GB 2 383 201 A , JP 2003-323921 A , DE 199 56 750 A1 and EP 0 106 992 A1 Two-part or multi-part contact elements are known.

In order to create an easy-to-manufacture crimp contact element with a opposite, for example US 7,338,334 B2 To provide reduced contact resistance and improved mechanical resilience, the at least two parts can be joined together by means of at least one pressure-formed connecting element, one part having at least one pressure-formed extension which protrudes through an opening in the other part.

The object of the invention is to provide a solution that allows simple production.

According to the invention, this is achieved in that the pressure-formed extension is a tab.

In contrast to that in the US 7,338,334 B2 As shown in the connection shown by bending, this type of connection provides a sufficiently large contact surface with an intimate connection between the two parts. Consequently, the electrical resistance is small and the mechanical stability is high. Furthermore, such pressure forming can be carried out easily in a single process step, which reduces costs. For example, when producing the crimp contact element, an extension of a first part can be guided through an opening in the other part and the extension can be shaped by compression, similar to a rivet, so that the two parts are pressed firmly together. This type of connection is positive and non-positive.

The solution according to the invention can be combined and further improved in any way with the following further, each advantageous embodiments.

It can be particularly advantageous if the at least two parts are joined together exclusively by means of at least one pressure-formed connecting element. This further simplifies the production process. In many cases, the conductivity and mechanical stability achieved in this way is sufficient to meet the relevant standards.

In a further advantageous embodiment, the wire crimping part has an insulation crimping part and a core crimping part. The insulation crimping part is used for crimping with the insulation of a cable and provides mechanical strain relief for the cable. The core crimping part is used for crimping with a metal core of a cable, for example with a wire or with strands. This core crimping part ensures the electrical connection between the cable or wire and the crimp contact element.

It can be particularly advantageous if the crimp contact element consists of more than two, for example three, parts. In this case, two parts can be joined together using at least one pressure-formed connecting element or a total of only two parts can be joined together using such a pressure-formed connecting element and the further connections can be made using other joining techniques.

In particular, the pressure-formed extension can completely fill the cross-section of the opening.

In order to establish a secure connection between the two parts, there can also be several pressure-formed extensions which protrude through one or more openings in another part. For example, one part can have two extensions and the other part can have two openings. Another possibility is that one part has an opening and an extension, which are connected to an extension or an opening of the other part.

In a further advantageous embodiment, at least one further pressure-formed connecting element can be created by means of clinching. Also known as pressure joining or clinching, this technique creates a connection between two sheets of metal without requiring an opening on either part. Like the connection using a pressure-formed extension, the connection using clinching is also positive and non-positive.

In addition to the connection by at least one pressure-formed connecting element, at least two parts can be welded together. This further improves the electrical resistance and mechanical stability and creates a material connection between the two parts. For example, there may be weld seams. A connection using spot welding or large-area welding is also possible. Additional materials can be applied or the welding can be carried out, for example, by current flow.

In order to further strengthen one of the parts, additional elements or configurations, such as beads or thickenings, may be present.

Due to the two-part structure, it is possible that at least two parts are made of different materials. In particular, the material can be adapted to the respective function, i.e. for example to the crimping function or the plugging function. For example, the wire crimping part can be made of low-alloy copper materials, since this area is primarily intended for contacting the wire and can be softer. The contact body can, for example, be made of a higher alloy material because it should be stiffer.

It is usually an advantage if the individual parts are made of a uniform material. However, it is also possible for a part to be made from several layers of different materials. For example, an inside can be made of a different material than an outside. In particular, the individual parts can also be coated, for example to prevent corrosion.

Although the conductive parts are made of metal, other functional parts, such as an insulation crimping part, can be made of non-metals. This means that costs can be further reduced and the material properties can be better adapted to the function.

The invention is explained in more detail below using advantageous embodiments with reference to the drawings. The embodiments described merely represent possible configurations, in which, however, the individual features, as described above, can be combined or omitted independently of one another. The same reference numbers stand for the same objects in the different drawings.

• 1a eine schematische Perspektivansicht eines erfindungsgemäßen Crimpkontaktelementes vor dem druckumformenden Schritt;
• 1b eine schematische Perspektivansicht eines erfindungsgemäßen Crimpkontaktelementes nach dem druckumformenden Schritt;
• 2a eine schematische Schnittansicht eines ersten Ausführungsbeispiels eines erfindungsgemäßen druckumgeformten Verbindungselementes;
• 2b eine schematische Schnittzeichnung eines zweiten Ausführungsbeispiels eines erfindungsgemäßen druckumgeformten Verbindungselementes;
• 3 eine schematische Perspektivansicht eines ersten Teils eines erfindungsgemäßen Crimpkontaktelementes;
• 4 eine schematische Perspektivansicht eines zweiten Teils eines erfindungsgemäßen Crimpkontaktelementes.

Show it:

• 1a a schematic perspective view of a crimp contact element according to the invention before the pressure forming step;
• 1b a schematic perspective view of a crimp contact element according to the invention after the pressure forming step;
• 2a a schematic sectional view of a first exemplary embodiment of a pressure-formed connecting element according to the invention;
• 2 B a schematic sectional drawing of a second embodiment of a pressure-formed connecting element according to the invention;
• 3 a schematic perspective view of a first part of a crimp contact element according to the invention;
• 4 a schematic perspective view of a second part of a crimp contact element according to the invention.

In the 1a and 1b a crimp contact element 1 according to the invention is shown during its manufacture. A first part 2 of the crimp contact element 1 is connected to a second part 3 of the crimp contact element 1. The first part 2 serves as a contact body 4 for contacting a mating connector. The second part 3 is a wire crimping part 5, which in this example has an insulation crimping part 6 for crimping with the insulation of a cable and a core crimping part 7 for crimping with the core of a cable. Furthermore, the crimp contact element 1 has a holding section 8, which, however, can be separated from the crimp contact element 1 in a further step.

In production step A shown on the left ( 1a) the first part 2 and the second part 3 are still in loose contact with one another. Two extensions 9 of the first part 2 were inserted through openings 10 of the second part 3 and now protrude from the second part 3.

On the right side B ( 1b) is the crimp contact element 1 after the production of two pressure-formed connecting elements 17 shown. The extensions 9 of the first part 2 were plastically formed by mechanical pressure and now securely connect the first part 2 with the second part 3. Due to the permanent, plastic deformation of the extensions 9, these become pressure-formed extensions 11. The first part 2 can therefore only be detached from the second part 3 using great force. In particular, at least one part is usually damaged or destroyed during such a loosening process.

In state A, the second part 3 can be held by holding elements 12 of the first part 2. For example, the second part 3 can snap into these holding elements 12.

The extensions 9 of the first part 2 can, for example, be formed by tabs 13 that have been bent over.

In this example, the first part 2, which forms the contact body 4 for connecting to a mating connector, consists of a lower part 14, on which an additional spring 15 is attached for mechanical stabilization. Furthermore, this spring 15 has a pawl 16 which can snap into a mating contact.

In 2a is a schematic cross-sectional view of a pressure-formed connection, as used for example in 1 shown.

A tab 13 of the first part 2 was bent upwards and passed through an opening 10 of the second part 3. It forms an extension 9a that has not yet been pressure-formed. In a further step, the extension 9 was deformed into a pressure-formed extension 11 by means of pressure forming and now forms the pressure-formed connecting element 17. This pressure-formed extension 11 has a mushroom-shaped cross section in this view. The originally flat sheet of the not yet formed extension 9a has permanently changed its shape and is now significantly thicker.

The extent in the direction of the plane of the two parts and transverse to the direction of the extension can only be small. This pressure-formed connecting element 17 can be more point-shaped or button-shaped. The connecting element, and thus the connection, can also have a larger extent, for example it can be linear or circular or polygonal.

The pressure-formed connecting element 17 created in the form of a pressure-formed extension 11 represents a secure connection between the first part 2 and the second part 3. Due to the intimate connection of the first part 2 to the second part 3, the electrical resistance between the two is low and the mechanical Stability high.

The material of the first part 2 can be chosen so that it deforms easily. Also other aspects, such as B. Strength, toughness, conductivity or chemical stability can be important when choosing the material.

The mushroom-shaped cross section of the pressure-formed extension 11 shown represents a simple possibility for evenly distributing the pressure that occurs between the second part 3 and the pressure-formed extension 11. Nevertheless, other shapes of the cross section, for example a hammerhead-like or T-shaped configuration, can be selected, since These can, for example, enable a better contact surface or a lower overall height.

In 2 B a second possibility for designing at least one pressure-formed connecting element 17 for connecting a first part 2 and a second part 3 is shown in a schematic cross-sectional drawing.

The pressure-formed connecting element 17 was created here by means of clinching, also known as pressure joining or clinching. The second part 3 is connected to the first part 2 like a push button. Due to the special design of the connection cross section, it is therefore more difficult for the second part 3 to slip out of the first part 2.

The pressure-formed connecting element 17 can either be created by pressure-forming the first part 2 and lead to a first pressure-formed connecting element 17a. Accordingly, the second part 3 can also be pressure-formed, which leads to a second pressure-formed connecting element 17b. In particular, both parts can also be pressure formed at the same time and/or together.

The deformation can take place, for example, using a stamp and a die. Due to the stretching of the two parts, the parts at the connection point can be thinner than at other places.

The spatial shape of the resulting connection can be circular or rectangular in a plan view, for example, or can have any other shape.

In 3 is a schematic perspective view of the in the 1a and 1b shown second part 3, which represents the wire crimp part 5 with insulation crimp 6 and core crimp 7. In particular, the openings 10 of the second part 3 are German here clearly visible through which the extensions 9 of the first part are guided. Furthermore, an advantageous embodiment of the end 19, which faces the first part 2 and is connected to it in the finished component, is shown. The design of the end 19 shown here is adapted to the inner contour of the first part 2.

For further mechanical stabilization, additional elements, such as beads, can be present on one of the parts.

4 shows schematically a perspective view of the lower part 14 of the in 1 shown first part 2. The first part 2 shown here is punched and bent from sheet metal. In particular, the tabs 13, which serve as extensions 9, are made by bending.

Claims (10)

Crimp contact element (1) comprising a wire crimping part (34) for fastening a wire or a cable and a contact body (3) for connecting to a mating connector, wherein the crimp contact element (1) is made of at least two parts, and wherein the at least two parts are made by means of at least a pressure-formed connecting element (17), one part (3) having at least one pressure-formed extension (11) which protrudes through an opening (10) of the other part (2), characterized in that the at least one pressure-formed extension ( 11) is a tab (13). Crimp contact element (1). Claim 1 , characterized in that the wire crimping part (3) comprises an insulation crimping part (6) for crimping with an insulation of a cable and a core crimping part (7) for crimping with a metal core of the cable. Crimp contact element (1) according to one of the Claims 1 until 2 , characterized in that the pressure-formed connecting element (17) is linear. Crimp contact element (1) according to one of the Claims 1 until 3 , characterized in that several pressure-formed extensions (11) are present. Crimp contact element (1) according to one of the Claims 1 until 4 , characterized in that the at least two parts are stamped sheet metal parts. Crimp contact element (1) according to one of the Claims 1 until 5 , characterized in that the pressure-formed connecting element (17) runs perpendicular to the insertion direction. Crimp contact element (1) according to one of the Claims 1 until 6 , characterized in that at least one part has a bead or a thickening for reinforcement. Crimp contact element (1) according to one of the Claims 1 until 7 , characterized in that a functional part, in particular an insulation crimping part (6), consists of a non-metal. Method for producing a crimp contact element (1) from at least two parts, wherein at least one extension (9) of one part (2) is inserted through an opening (10) of the other part (3) and the first part (2) is pressure-formed to join it to the second part (3), characterized in that a tab (13) is pressure-formed. Device for producing a crimp contact element (1) from at least two parts, the device being a pressure-forming connecting unit for connecting a first part (2) to a second part (3) by pressure-forming an extension (9) of the first part (2). which protrudes through an opening (10) of the second part (3), characterized in that the pressure-forming connecting unit is designed to pressure-form a tab (13).

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