EP1289072A2 - Electrical pressure contact - Google Patents

Abstract

Electrical through-contact comprises a housing sleeve (1) having one end facing the contact and the other end facing away from the contact; a contact pin (2) which axially moves in the sleeve and protrudes from the sleeve on the side facing away from the contact; a connecting piece (3) for fixing an electrical feed line to the side of the sleeve on the end facing away from the contact; and a flexible electrical line (4,5) arranged in the sleeve between the connecting piece and the contact pin. The flexible electrical line is clamped with its end facing the contact in an axial bore (20) formed on the end of the contact pin facing away from the contact. Preferred Features: The flexible electrical line is a tube-like cord made from copper. The connecting piece has a first cylindrical section (13) facing the contact, is arranged coaxially with the housing sleeve and is fed into the helical spring. The housing sleeve, contact pin and connecting piece are made from brass, especially CuZn38Pb2.

Description

• eine Gehäusehülse mit einem kontaktzugewandten und einem kontaktabgewandten Ende,
• einen in der Gehäusehülse axial verschiebbar gelagerten Kontaktstift, der aus dem kontaktzugewandten Ende der Gehäusehülse vorsteht, gegen die Vorspannkraft eines in der Gehäusehülse angeordneten Vorspannelementes in die Gehäusehülse einschiebbar ist und über dessen leitfähigen Körper der elektrische Kontakt herstellbar ist,
• ein Anschlußstück zur Befestigung einer elektrischen Zuleitung am kontaktabgewandten Ende der Gehäusehülse und
• eine in der Gehäusehülse angeordnete axial flexible elektrische Leitung zwischen Anschlußstück und Kontaktstift.

The present invention relates to an electrical pressure contact comprising

• a housing sleeve with a contact-facing and a contact-facing end,
• an axially displaceably mounted contact pin, which protrudes from the contact-facing end of the housing sleeve, can be inserted into the housing sleeve against the biasing force of a biasing element arranged in the housing sleeve, and the electrical contact can be made via its conductive body,
• a connector for attaching an electrical lead to the contact remote end of the housing sleeve and
• an axially flexible electrical line arranged in the housing sleeve between the connector and contact pin.

Electrical pressure contacts of this type are used, for example, for power transmission between elements movable relative to each other. The contact pin has one dual function: on the one hand, it can have a resilient mechanical contact with produce a mating contact that is movable relative to the housing sleeve. On the other hand electrical contact can be established via its current-conducting body. Electrical pressure contacts of this type are widely used, for example in rail couplings.

Electrical pressure contacts of this type are widely used, for example in rail couplings.

With conventional electrical pressure contacts of the type mentioned at the beginning flexible electrical line formed by strands on the contact pin and on Connector are soldered. Several strands are usually folded and pre-twisted such that they insert the contact pin into the Housing sleeve can yield without the strands being bent to a Avoid damaging them. Still it happens with conventional ones electrical pressure contacts disadvantageous due to a large number of contact strokes often cause damage, especially breakage of the strands. Besides, that is Production of such an electrical pressure contact is relatively complex and expensive.

EP-0-435 408 B1 shows an electrical pressure contact that addresses these problems should deal with. No strands are used for this pressure contact. Instead of of which the contact pin is partially designed as a hollow cylinder, the wall of which is provided with several longitudinal slots, whereby wall sectors result, which are designed as resilient, current-conducting contact tongues. This Contact tongues lie on the inside of a current-transmitting housing sleeve grinding on, so that current through the contact tongues and the housing sleeve to Connector can flow. The manufacture of such a strandless However, pressure contact is comparatively complex.

DE-4-317 255 C2 shows an electrical pressure contact for full or semiautomatic rail vehicle couplings with a housing sleeve Plastic and an axially displaceably mounted sliding sleeve in one hollow contact pin passes. In this hollow contact pin is from the outside a metallic contact sleeve can be inserted on the side facing the contact carries a contact plate and on its side facing away from the contact with a Cable end is crimped. With such a pressure contact, the contact pin thus only a mechanical contact, while the electrical contact must be produced by a line laid inside the contact pin. Such a structure thus requires an increased number of components and more complex Assembly, which increases production costs.

The invention is based, an electrical pressure contact input Specify the type mentioned, which is simple, inexpensive to manufacture and has a long service life, d. H. especially a high number of contact strokes without Survives damage.

This object is achieved with an electrical pressure contact of the type mentioned solved in that the flexible electrical line with their contact facing End in an axial formed on the end facing away from the contact pin Bore is clamped and with its end facing away from the contact in a Contact-facing end of the connector formed axial bore is jammed.

For this purpose, the corresponding sections of the contact pin and the Connection piece with line ends threaded into the bores radially pressed inside, with a pressure that is such that the line on the one hand is clamped tight enough that it cannot come loose and for one good electrical contact, but not damaged by pressing becomes. This type of attachment is called crimping.

Due to the direct crimping of the line with contact pin and connector, the Structure of the electrical pressure contact according to the invention simple and its Manufacturing inexpensive. In particular, its production is significantly less complex than with a soldered connection.

In contrast to a pressure contact with a soldered connection, the Pressure contact according to the invention also a longer life. Because on the one hand there is a risk that the solder if there is overheating of a soldered pressure contact becomes plastic and the strand "unsoldered itself", i.e. the connection is released. On the other hand, the risk of breakage is higher with a soldered strand than with one crimped. This is partly due to the fact that when soldering solder over the solder joint can penetrate into the strand and stiffen it, which has the consequence that the The wire breaks more easily when the contact pin moves axially.

In a preferred embodiment, the pretensioning device is replaced by a Coil spring formed.

In a preferred embodiment, the flexible electrical line is by a tubular strand formed. A tubular strand can be axial Fan out the load and give in this way without the stranded fibers would kink and break as a result. Because a tubular strand in axial Compressible direction, it can simply along the axis of the housing sleeve be arranged. This represents a great simplification compared to that in Pressure contacts usually used strands, for example with a certain pre-rotation between the contact pin and connector attached so that they collapse in loops under axial load. To such to produce a pre-rotation, the contact pin must be opposite the Always be twisted in a certain way. This requires funds that hold the contact pin in this twisted position. In the invention However, such means are not required for pressure contact with the stranded wire, what a simple structure of the pressure contact benefits.

In an advantageous development, the flexible electrical line is a tubular braided copper wire. One can make a braided strand Give up axial compression particularly well without being damaged. at With sufficient flexibility, a braided strand can therefore be relatively large be executed, i.e. comprise a large number of stranded fibers, whereby the electrical resistance of the pressure contact is reduced.

In a further preferred embodiment, the flexible electrical line formed by the coil spring. This can be done in a similar way to that described wire are crimped with the contact pin and the connector. This leads to an even simpler construction of the pressure contact and yet lower manufacturing costs. Such a pressure contact is also from particularly long service life because of the risk of the flexible cable breaking is practically excluded by contact strokes.

If the coil spring is not used for power transmission, the connector in a preferred embodiment a contact-facing first cylindrical Section which is arranged co-axially with the housing sleeve and into which End of the coil spring facing away from the contact is inserted. This will make the Coil spring in position at its end facing away from the contact in a simple manner held.

The contact pin preferably has a peripheral one in its peripheral surface Groove arranged perpendicular to the pin axis, in which a locking ring is accommodated on its contact-facing side a stop for a contact-facing end of the sleeve radially inward shoulder and forms a stop for the spring on its side facing away from the contact. if the The spring is not crimped with the contact pin for power transmission, it sits on the side of the locking ring facing away from the contact and thus pushes the contact pin in Contact direction. The mobility of the contact pin in the contact direction is limited by the fact that the contact-facing side of the locking ring on the protruding shoulder of the housing sleeve. The construction with locking ring and groove is extremely simple and inexpensive to manufacture. In particular except for the groove, the contact pin can have a simple cylindrical circumference have what is cheap to manufacture.

The connector advantageously has a second cylindrical section, whose diameter corresponds to the inside diameter of the housing sleeve and the has a crimping surface over which the housing sleeve is crimped. Such Crimp connection between connector and housing sleeve is robust and inexpensive to manufacture.

In an advantageous development, said crimping surface has a circumferential notch. The housing sleeve is pressed into this notch and thus firmly with the Connection piece connected.

Preferably, the connector has on the side facing away from the second cylindrical section an axially arranged threaded bolt for Connect the electrical supply.

The contact pin preferably has a contact-facing rounded one Contact area. The rounding of the contact surface also causes the contact pin can then make contact with a mating contact surface if it is not accurate meets them vertically. In an advantageous development, the rounded one Gold-plated contact surface to avoid corrosion that could cause electrical contact would worsen.

In a further preferred embodiment is in the contact-facing end a contact rivet made of silver. About such Contact rivet creates a very good conductive, corrosion-resistant contact. In In an advantageous further development, the contact rivet has a gold-plated contact surface

In a preferred embodiment there are housing sleeve, contact pin and Connector made of brass with a small amount of lead, especially made of CuZn38Pb2. Such a material is sufficiently conductive, inexpensive, machinable and crimpable after suitable heat treatment. It therefore enables simple, quick and inexpensive production of the Pressure contact. A housing sleeve made of this material is the same Wall thickness much more stable than one made of plastic. Such an electrical Pressure contact is therefore inherent, i.e. without in a plastic plate or similar to be embedded, high stability and is therefore universal used.

Fig. 1

einen Längsschnitt durch einen erfindungsgemäßen elektrischen Druckkontakt mit geflochtener Schlauchlitze und vergoldeter Kontaktfläche,

Fig. 2

einen Längsschnitt durch einen erfindungsgemäßen elektrischen Druckkontakt mit geflochtener Schlauchlitze und Kontaktniet aus Silber und

Fig. 3

einen Längsschnitt durch einen erfindungsgemäßen elektrischen Druckkontakt, bei dem die flexible elektrische Leitung zwischen Kontaktstift und Anschlußstück durch die den Kontaktstift vorspannende Schraubenfeder gebildet wird.

Further advantages and features of the solution according to the invention result from the following description, which explain the invention with reference to three exemplary embodiments in conjunction with the accompanying drawings. It shows:

Fig. 1

2 shows a longitudinal section through an electrical pressure contact according to the invention with a braided hose strand and a gold-plated contact surface,

Fig. 2

a longitudinal section through an electrical pressure contact according to the invention with braided hose and contact rivet made of silver and

Fig. 3

a longitudinal section through an electrical pressure contact according to the invention, in which the flexible electrical line between the contact pin and connector is formed by the coil spring biasing the contact pin.

Figures 1 to 3 show different embodiments of the invention electrical pressure contact with a housing sleeve 1, which is a contact facing (above in Figures 1 to 3) and a contact-facing end (below in Figures 1 to 3) has. The housing sleeve axis is designated by reference number 10.

A contact pin 2 is mounted axially displaceably in the housing sleeve 1. Doing so he is biased by a coil spring 4 in the contact direction.

The contact pin has a circumferential groove 11 in its circumferential surface, which is perpendicular is arranged to axis 10. In this groove, a locking ring 6 sits with his contact-facing side (top in Figures 1 to 3) with a radially inward standing shoulder 12 of the housing sleeve can come into contact. By locking ring 6 and housing sleeve shoulder 12 is the mobility of the contact pin in Contact direction limited.

In FIGS. 1 and 2, on the side of the locking ring 6 facing away from the contact Coil spring 4 on. At the end facing away from the contact, the housing sleeve 1 is through a connector 3 closed. This connector 3 is shown in FIG. 1 and 2 the coil spring 4 with its end facing away from the contact. The Connector 3 has a contact-facing first cylindrical section 13, whose diameter is slightly smaller than the inside diameter of the spring 4. In Figures 1 and 2, this first cylindrical portion 13 is inserted into the spring 4 and hold it in place.

The connector 3 has a second cylindrical portion 14, the Diameter corresponds to the inner diameter of the housing sleeve 1. On his cylindrical peripheral surface is a circumferential notch 15. The Circumferential surface of the cylindrical section 14 with its circumferential notch 15 forms a crimping surface over which the housing sleeve 11 is crimped. At the Contact-away side of the cylindrical portion 14 includes an axial arranged threaded bolt 16 on which an electrical lead on itself known way can be attached.

The biased contact pin 2 in the manner described can thus be a resilient Establish mechanical pressure contact with a counter contact. In the shown Examples of the pressure contact according to the invention are the contact pin 2 and that Connector 3 made of CuZn38Pb2. This material is sufficient conductive to make electrical contact via contact pin 2 and connector 3 manufacture. Contact pin 2 and connector 3 are axially flexible electrical line connected.

In Figures 1 and 2, the flexible electrical wire is braided Stranded hose made of copper. This stranded hose is in one end Bore 20 in contact pin 2 and the other end in a bore 21 in Inserted connector 3 and clamped in each of these. To do this, the corresponding sections of the contact pin 2 and the connector 3 with threaded stranded hose 5 pressed radially inwards, with a Pressure that is dimensioned so that the strand is clamped tight enough on the one hand that it cannot come loose and ensures good electrical contact, on the other hand is not damaged by the pressure. This type of attachment is called crimping.

By directly crimping the wire with contact pin and connector the pressure contact according to the invention differs from conventional ones Pressure contacts in which a cable or a strand on contact pin and Connector is soldered. The crimping of the wire offers one Solder the advantage that it is less expensive to manufacture, and the Lifetime of the pressure contact increased. Because there is a soldered strand Danger that it will unsolder if the pressure contact overheats. Besides, can the braid is stiffened by the solder, making it easier to break.

When a pressure contact is in operation, the contact pin 2 is inserted into the housing sleeve 1 pushed, and the hose strand is axially compressed. Such an axial Compression can give the braided hose strand 5 optimally by itself fan out. This prevents the individual stranded fibers from being kinked and break, thereby increasing the life of the electric Pressure contact is increased.

With conventional pressure contacts, several strands are usually folded and housed with a certain pre-rotation in the housing sleeve 1, so they lie in loops with axial compression without kinking. To do this be ensured that the contact pin 2 relative to the housing 1 in one certain twist is held. A commonly used for this On the other hand, the braided tubular strand of the Pressure contact according to the invention is not required, which simplifies the construction makes and keeps the manufacturing costs lower. Because a braided one tubular strands can give way particularly well to axial compression, can be kept larger overall, i.e. a large number of stranded fibers included without being too stiff and therefore prone to breakage. Therefore, the Pressure contact according to the invention with a stranded hose, in particular for transmission high currents can be designed.

In a further embodiment of the pressure contact according to the invention, the flexible electrical line between contact pin 2 and connector 3 alone through the coil spring 4 is formed, which simultaneously biases the contact pin 2. On Such electrical pressure contact is shown in Fig. 3. Contact pin 2 is on an axial bore 22 and the connector 3 on its side facing away from the contact an axial bore 23 on its contact-facing side. In these bores the ends of the spring 4 are inserted and with the contact pin or connector crimped. Such a structure is simple and long-lasting because the Spring 4 is insensitive to compression.

In Fig. 1, the contact pin 2 has a rounded gold-plated contact surface 24. By the rounding can make good electrical contact with a via this contact surface Counter contact surface are formed, even if the contact pin 2 is not quite meets them vertically. Alternatively, the contact pin 2 with a silver rivet 7 be provided, which is shown in Figures 2 and 3. The silver rivet 7 has one Elongated section 25, with which it fits into an axial bore 26 in the contact pin 2 is used. It also has a head 27 with a contact facing bulging contact surface, which can also be gold-plated.

In all the described embodiments, the invention is distinguished electrical pressure contact through a simple construction from a few simple parts to be manufactured and assembled quickly and inexpensively. For example, the contact pin in Figures 1 and 2 essentially has one cylindrical shape, which is shown in the figure only as a result of the crimping with the strand something is constricted. In particular, this does not require a two-part construction Sections of different diameters to provide a stop for the shoulder 12 to build. The connector 3 also enables the attachment of strand 5 and / or spring 4, closure of the housing sleeve 1 via the notch 15 provided cylindrical crimping surface and the connection of a lead via a Threaded bolt 16. The crimp connection shown in the figures between the second cylindrical portion 14 of the connector 3 and the Housing sleeve 1 is quick and inexpensive to manufacture and very robust. In In the examples shown, the housing sleeve 1 is also made of CuZn38Pb2, the inexpensive, machinable, conductive and crimpable and therefore one Fast, simple and inexpensive manufacture of the electrical according to the invention Pressure contact allowed.

Claims (16)

Electrical pressure contact, comprising a housing sleeve (1) with a contact-facing and a contact-facing end, a contact pin (2) mounted axially displaceably in the housing sleeve (1), which protrudes from the housing sleeve (1) on the side facing the contact, can be inserted into the housing sleeve against the biasing force of a biasing element arranged in the housing sleeve (1) and via its conductive body the electrical contact can be established, a connecting piece (3) for fastening an electrical lead to the end of the housing sleeve (1) facing away from the contact and an axially flexible electrical line (4, 5) arranged in the housing sleeve (1) between the connecting piece (3) and the contact pin (2), characterized in that the flexible electrical line is clamped with its contact-facing end in an axial bore (20) formed on the contact-facing end of the contact pin and with its contact-facing end in an axial bore (21) formed on the contact-facing end of the connector. Electrical pressure contact according to claim 1, characterized in that the pretensioning device (4) is a helical spring. Electrical pressure contact according to claim 1 or 2, characterized in that the flexible electrical line is a tubular strand (5). Electrical pressure contact according to claim 3, characterized in that the tubular strand (5) is braided and consists of copper. Electrical pressure contact according to claim 2, characterized in that the flexible electrical line is formed by the helical spring (4). Electrical pressure contact according to one of Claims 2 to 4, characterized in that the connecting piece (3) has a first cylindrical section (13) which faces the contact and is arranged coaxially with the housing sleeve and is inserted into the helical spring (4). Electrical pressure contact according to one of Claims 2 to 4, 6, characterized in that the contact pin (2) has in its peripheral surface a circumferential groove (11) which is arranged perpendicular to the pin axis and in which a locking ring (6) is accommodated, which is located on its Contact-facing side forms a stop for a shoulder (12) standing radially inward at the contact-facing end of the sleeve and a stop for the spring (4) on its side facing away from the contact. Electrical pressure contact according to Claim 5, characterized in that the contact pin (2) has in its circumferential surface a circumferential groove (11) which is arranged perpendicular to the pin axis and in which a locking ring (6) is accommodated which has a stop for a contact on its side facing the contact at the contact-facing end of the sleeve (1) forms a radially inward shoulder (12). Electrical pressure contact according to one of the preceding claims, characterized in that the connecting piece (3) has a second cylindrical section (14), the diameter of which corresponds to the inside diameter of the housing sleeve (1) and which has a crimping surface via which the housing sleeve (1) crimped is. Electrical pressure contact according to claim 9, characterized in that the crimping surface has a notch (15) encircling the second cylindrical section (14). Electrical pressure contact according to Claim 9 or 10, characterized in that the connecting piece (3) on the side of the second cylindrical section (14) which is remote from the contact has an axially arranged threaded bolt (16) for connecting the electrical supply line. Electrical pressure contact according to one of the preceding claims, characterized in that the contact pin (2) has a rounded contact surface (24) facing the contact. Electrical pressure contact according to claim 12, characterized in that the contact surface (24) is gold-plated. Electrical pressure contact according to one of claims 1 to 12, characterized in that a contact rivet (7) made of silver is inserted into the contact-facing end of the contact pin (2). Electrical pressure contact according to claim 14, characterized in that the contact rivet (7) has a gold-plated contact surface. Electrical pressure contact according to one of the preceding claims, characterized in that the housing sleeve (1), contact pin (2) and connecting piece (3) consist of brass with a small proportion of lead, in particular of CuZn38Pb2.

Images