EP2647024A1 - Electrical contact arrangement - Google Patents

Abstract

An electrical contact arrangement has a first contact piece (1) with a contact socket (3). It also has a second contact piece (13) which can move relative to the first contact piece (1). The second contact piece (13) has a complementary shape to the first contact piece (1). An auxiliary contact piece (7) is guided such that it can move in the contact socket (3) of the first contact piece (1). The auxiliary contact piece (7) is guided in an electrically isolated manner.

Description

description

Electric contact arrangement

The invention relates to an electrical contact arrangement with a contact socket having a first contact piece, with a relative to the first contact piece movable counter-shaped second contact piece and with a slidably guided in the contact socket auxiliary contact piece.

Such an electric contact arrangement is known, for example, from Japanese Patent Laid-Open Publication JP-10-308143. The local electrical contact arrangement has a first and a second contact piece, wherein an auxiliary contact piece is displaceably guided in a contact socket of the first contact piece. The auxiliary contact piece slides in the contact ^¬ socket.

A guide is provided to a surrounding of the auxiliary contact ^¬ piece guide rod which passes through the first contact piece in slidably Bo ^¬ denbereich of the female contact. A bearing of the guide rod is provided in a relatively short section.

Tilting the guide rod can only be prevented in cooperation with the auxiliary contact piece. The auxiliary contact piece thus serves, on the one hand, a mechanical guide and, on the other hand, an electrical contact. The areas provided for electrical contacting surfaces are thus exposed to an electrical and other mechanical loads.

By mechanical wear, the electrical properties can be adversely affected. Conversely, through electrical effects, the function of the mechanism are adversely affected.

Thus, it is an object of the invention to provide an electrical contact arrangement which reduces the possibilities of mutual influencing of electrical and mechanical functions on the electrical contact arrangement.

According to the invention the object is achieved in a Elektrokontaktan- order of the type mentioned in that the auxiliary contact piece is guided electrically isolated.

Electric contact arrangements with a first and a second contact piece, which are movable relative to one another, are used on electrical switching devices in order to interrupt current paths or to produce current paths. In a relative movement of the two contact pieces to one another, a production of a current path by means of a direct or indirect contacting of the two contact pieces can be carried out. For interrupting a current path, a separation of the contacting contact pieces may be provided. In an embodiment of the first contact piece with a contact ^¬ socket can be advantageously provided that this contact ^¬ socket is equipped with a contact arrangement which is seated in the on state of the contact arrangement on an outer jacket ^¬ surface of the contact bushing gegengleich shaped two ^¬ th contact piece. Advantageously, the two contact pieces along a line should be movable relative to each other, so that a tilt-free insertion of the second contact piece can be made in the contact socket of the first contact piece. By means of a displaceably guided in the contact socket auxiliary contact piece is a possibility ge ^¬ give a contacting of the two contact pieces to each other first via an intermediate switching of the auxiliary contact piece to be carried out. A displacement axis of the auxiliary contact piece should preferably be parallel to the movement axis of the contact pieces that are movable relative to one another. In this way, the contact socket can be protected against the effects of arcing phenomena, such as occur during separation or contacting of the contact pieces. ^¬ advantageous way is to provide the auxiliary contact piece, for example, with an area of erosion-resistant material. An erosion-resistant material has a higher resistance to arc phenomena than other contact materials used to form the contact pieces.

If one looks at an electrically insulated guidance of the auxiliary contact piece, arcing phenomena can be concentrated in a targeted manner on the auxiliary contact piece. As a result, a protective effect of the auxiliary contact piece with respect to the first contact piece can be realized. Furthermore, the electrically insulated guide can prevent the formation of stray currents. Thus, discharge phenomena in a mechanism which serves to guide the auxiliary contact piece can be prevented. An electrically insulating guide prevents such Streustrompfade. A further advantageous embodiment may provide that the auxiliary contact piece is guided in an insulating arrangement received by the contact socket.

A female contact disposed in the insulation, for example, inside the casing side turned ^¬ sets in the female contact. This makes it possible to leave an auxiliary contact piece on the jacket side abut the insulating arrangement. As insulation, for example, insulating sleeves or sections liners (for example, skids or Points) serve a jacket region of the contact socket. The insulating arrangement may comprise, for example, plastic surfaces to which the auxiliary contact piece bears and which have an electrically insulating effect. As plastics, for example, polyethylenes or similarity ^¬ Liche plastics are suitable. Plastics allow a low-friction guidance of the auxiliary contact piece, so that a smooth movement of the auxiliary contact piece is made possible. Furthermore, a jacket-side guidance of the auxiliary contact piece is advantageous in order to prevent it from tilting or tilting in the insulating arrangement.

Furthermore, it can advantageously be provided that the auxiliary contact piece is contacted with the first contact piece in an electrically conductive manner via a contact arrangement, at least in a separate state of the contact pieces.

Depending on a relative movement of the two contact pieces to each other there is a movement of the auxiliary contact piece in his leadership in the contact socket of the first contact piece. In an electrically insulated guiding and contacting the auxiliary contact piece with the first contact piece, auxiliary contact piece and first contact piece lead the same potential. However, a potential transfer does not take place up due to the isolated leadership of the auxiliary contact piece on to guide the auxiliary contact piece vorgese ^¬ hene mechanics. Instead, a defined, located outside the insulating guide Kontaktierungspfad between auxiliary contact piece and first contact piece is formed so that a potential transition between the first contact piece and auxiliary contact piece is given, without allowing stray paths through the mechanism for guiding. The contact arrangement can cause an immediate contacting of auxiliary contact piece and the first contact piece, so that a contact given with low contact resistance. Due to the potential equality no electrical fields can be built up between the first contact piece and the auxiliary contact piece. Thus, a field-free space is formed between the auxiliary contact piece and the first contact piece. In particular, with appropriate configuration of the auxiliary contact piece, the contact socket itself can be kept free of fields.

A further advantageous embodiment may provide that the contact arrangement is contacted directly in response to a switching state of the electrical contact arrangement with the auxiliary contact piece or the second contact piece.

Direct contacting of the auxiliary contact piece or of the second contact piece with the contact arrangement makes it possible to use the contact arrangement both in the switched-on and in the switched-off state of the electrical contact arrangement for forming a contacting path. It is thus possible, for example, for a direct electrical contacting of the first and second contact pieces to one another in the switched-on state via the contact arrangement. In the off state, ie, between the two contact pieces is a galvanic isolation, the contact arrangement can be used to make a direct contact with the auxiliary contact piece. Thus, the contact arrangement can fulfill different tasks in different switching states. In the switched-on state of the electrical contact arrangement, the contact arrangement serves as part of the current path, which is formed between the first and second contact piece. When the electrical contact arrangement is switched off, the contact arrangement serves to transmit an electrical potential from the first contact piece to the auxiliary contact piece. This makes it possible, on the one hand, to provide electrically insulated guidance of the auxiliary To realize contact piece and ensure a potential transfer via the contact arrangement, wherein additional contact elements in addition to the contact arrangement are not necessary, since this serves both in the on and in the off state of a production of a Kontaktierungspfad.

An immediate contacting provides that the contact arrangement on the one hand, the first contact piece and on the other hand, the auxiliary contact piece or on the one hand, the first contact piece and on the other hand, the second contact piece for ^¬ formation of a Kontaktierungspfades directly verbin ^¬ det. Direct contact reduces the number of contact points connected in series, which limits the contact resistance. It can further be provided that during a transfer of the one switching state in the other switching state at the same time a direct Kontaktie ^¬ tion between the first contact piece and auxiliary contact piece and second contact piece is present. An immediate Kontaktie ^¬ tion of first and second contact piece and Hilfskontakt- piece can be used to uninterrupted disconnect ^¬ separation or enable the auxiliary contact piece in a formed between the first and the second contact piece current path. A further advantageous embodiment can provide that the auxiliary contact piece is penetrated by a guide element, which limits a displaceability of the auxiliary contact ^{piece ¬} . If one uses a guide element, then the possibility exists of defining the movement path of the auxiliary element. Thus, in ^¬ the possibility of play dropwise to allow through a voltage Isolieranord ^¬ an electrically insulated duct of the auxiliary contact ^¬ piece and on the guide element, the Bewegbar- Limit the speed of the auxiliary contact piece. The guide element thus serves as a limiting element for the auxiliary contact piece. The limiting element prevents a detachment of the auxiliary contact piece from the contact socket. Optionally, it may also be provided that the electrically insulating guide of the auxiliary contact piece alone ensures its leadership.

An unstructured detachment of the auxiliary contact piece is complicated by the guide element.

The guide element can serve as a stop, so that the Move ^¬ bility of the auxiliary contact piece is limited by the guide element itself. Upon movement of the auxiliary contact piece in the direction of a socket opening of the contact socket, a movement of the auxiliary contact piece out of the contact socket is prevented by the guide element. For this purpose, the guide element may have a stop against which abuts the auxiliary contact piece, whereby a movement of the auxiliary contact ^piece is be ^¬ limits. It can be provided that the auxiliary contact piece against the guide element is arranged electrically insulated and only upon contact of the stop of the guide element is formed a direct electrically conductive connection between Verbin ^¬ guide element and auxiliary contact piece. The auxiliary contact piece, for example, in the manner of a clearance fit surrounding the guide element, so that for the purpose of electrical insulation sufficient spacing between the guide element and enclosing auxiliary contact piece is given. A projecting body edge on the guide element can serve as a stop for the auxiliary contact piece, wherein at the moment of a stop of the auxiliary contact piece on the stop of the guide element already a contact between the guide element and auxiliary contact piece can be present via an electrically conductive path. A further advantageous embodiment can provide that the auxiliary contact piece is spring-loaded and has an annular groove for receiving a spring. A spring load supports a fixation of the auxiliary contact piece in an end position. This makes it impossible for the Hilfskon ^¬ tact piece to make a move spontaneously. A movement of the auxiliary contact piece can take place against the force generated by a spring. For example, a spring may be received in an annular groove on the auxiliary contact piece. This makes it possible to introduce spring forces distributed symmetrically into the auxiliary contact piece and to apply a preferably linear spring force acting in the direction of the axis of movement of the auxiliary contact piece to the auxiliary contact piece. An annular groove may for example comprise a very ^¬ polygonal cross-section, wherein the annular groove runs around in GE ^¬ closed. The spring may have the form of a helical spring, which is aligned coaxially with the annular groove and rests against a groove bottom of the annular groove.

It can further be provided that the annular groove surrounds the guide element.

When embracing the guide element through the annular groove, the possibility is given to let the spring also prevail from the Leitele ^¬ ment. Thus, a force can be introduced parallel to the direction of movement of the auxiliary contact piece in this. It can be provided that the auxiliary contact piece is moved at a distance from the guide element along a movement axis. A movement of the auxiliary contact piece can be triggered for example by retraction of the second contact piece in the contact socket. In this case, the second contact piece moves through the socket opening into the contact socket and shifts the auxiliary contact piece along the guide element in the direction of a side facing away from the Buchsenöff ^¬ voltage bottom of the contact socket. For this purpose, for example, be provided that the guide element

is arranged centrally in the contact socket.

Furthermore, it can be advantageously provided that the auxiliary contact piece has an annular contacting region, which is formed opposite to an annular pressing region of the second contact piece.

In the case of a switch-on operation, a leading contact of an annular contacting region of the auxiliary contact piece with the pressing region of the second contact piece can initially take place, with the result that a current path is initially formed between the first and the second contact piece with the interposition of the auxiliary contact piece. In arc ^¬ influences is thus ensured that Erosionserschei ^¬ first voltages at the auxiliary contact piece, in particular on its annular contacting and the pressing portion of the second contact piece, occur. In a gegenglei ^¬ Chen shaping of an annular contact pressure of the two ^¬ th contact piece, the annular contact area of the auxiliary contact piece can be used to perform a movement of the auxiliary contact piece due to a relative movement of the contact pieces to each other and the auxiliary contact ^¬ piece to move in the direction of the bottom of the contact socket. With a contacting of the contacting region of the auxiliary contact piece and the Anpressbereiches of the second contact ^¬ piece there is a direct electrical contact between the auxiliary contact piece and the first contact piece, whereas an electrical contact between the first and second contact piece is indirectly via the intermediate auxiliary contact piece. With a progress of the movement of the second contact piece, ie, at a start of a shift of

Auxiliary contact piece, the auxiliary contact piece is moved in the direction of the bottom of the contact socket, wherein in the following, a switching of the direct electrical contacting of the first contact piece with the auxiliary contact piece takes place on a direct contact between the first contact piece and the second contact piece. Thus, the intermediate switched auxiliary contact ^{piece is} cut out of the current path between the two contact pieces of the electrical contact arrangement and is no longer part of the current path between the first and second contact piece. Although a contacting of the auxiliary contact piece is still given directly to the two ^¬ th contact piece and indirectly with the first contact piece, however, this is done only by a potential transfer of the electrical potential on the auxiliary contact ^¬ piece. Through the electrically insulated duct of the auxiliary contact piece parallel flow paths are prevented via the auxiliary contact ^¬ piece and the mechanical guide. The auxiliary contact piece itself is no longer part of the current path formed by the electrical contact arrangement between the first and second contact piece after switching over. Switching can be done without interruption. Conversely, when switching off the electrical contact arrangement, the auxiliary contact piece between the existing direct Kontaktie ^¬ tion of the two contact pieces are interposed, so that there is an indirect contacting of the two contact pieces on the auxiliary contact piece. This switching can also be done without interruption. This ensures that, in the event of an interruption of the current path to be opened, arcing phenomena occur between the contacting region of the auxiliary contact piece and the contact pressure region of the second contact piece. In the switched-off state of the electrical contact arrangement, the auxiliary contact piece can pass through the socket opening of the first contact piece in the direction of the second contact piece, so that it is ensured that upon movement of the two ^¬ th contact piece in the direction of the contact socket of the first contact piece initially a bouncing of the second contact ^¬ piece on the auxiliary contact piece takes place. Conversely, in a turn-off, a separation of the current path between the auxiliary contact piece and the second contact piece. Arcing phenomena are concentrated at the contacting area and the pressing area.

Furthermore, it can be advantageously provided that the second contact piece has a guide bush which ascends to the guide element during a switch-on process.

A guide bush in the second contact piece permits the guide element in the female contact of the first contact piece ^¬ to use in order to stabili Sieren the electrical contact assembly. This makes it possible to guide the second contact piece on the guide element and make an electrical contact between see the contact socket and an outer jacket of the second contact piece. Between the outer and inner shell side surfaces of the second contact piece and the contact socket of the first contact piece, a corresponding spacing can be provided that a Kon arranged there clock arrangement can be elastically deformed and sufficient contact forces on an inner circumferential surface of the contact socket of the first contact piece or an outer circumferential surface the second contact piece are ensured. By a groove ^¬ tion of the guide element for guiding the second contact pieces are elastically deformable portions of the contact assembly from undue deformation due to a canted insertion of the second contact piece in the contact socket prevented. For example, it is possible to provide a tilt-free coaxial position between the two contact pieces.

The guide element has two tasks in the electrical contact arrangement, on the one hand it forms a stop for the auxiliary contact piece in order to limit the displaceability of the auxiliary contact piece. On the other hand, the guide element forms a receptacle, to prevent the introduced into the contact socket second clock Kon ^¬ piece on a tilting. In this case, the second contact piece ascend directly on the guide element, so that even during a relative movement between the two contact pieces whose coaxial position is fixed to each other.

A further advantageous embodiment may provide that the guide bushing has a radially projecting Führungsele ^¬ ment.

An arrangement of a radially projecting guide element in the interior of the guide bushing makes it possible to limit the bearing surface ^¬ the guide bushing on the guide element on the front ^¬ jumping guide element. This can be effected on the one hand, a mechanical stabilization of the guiding element on ^¬ moving second contact piece. On the other hand, the occurring sliding friction is reduced. As Führungsele ^¬ ments both electrically conductive and electrically insulating guide elements can be used, which are configured in ^¬ example in the form of a guide bush constricting ring. An annular guide element projects radially protruding into the cross section of the guide ^¬ bushing of the second contact piece. In particular, plastic rings have proven to be suitable, which are used as a guide ^¬ element. Furthermore, it can be advantageously provided that mutually contacting areas of the auxiliary contact piece and the second contact piece have an erosion-resistant coating.

An erosion-resistant coating has a higher resistance to arc phenomena, as more Kon ^¬ tact materials of the first and second contact piece. By using an erosion-resistant coating on the mutually contacting regions of the auxiliary contact piece and the second contact pieces, ie on the annular contact area and on the annular contact area of the second contact piece formed opposite to the annular contact area, a defined surface is provided on the one side Arc phenomena is resistant. Such erosion-resistant coating can also have a sufficient mechanical resistance, so that mechanical forces can be absorbed by this. In particular, the erosion-resistant covering can also serve to transmit force in order to displace the auxiliary contact piece against the spring force of the spring-loading spring which presses the auxiliary contact piece.

A further advantageous embodiment can provide that the auxiliary contact piece closes the contact socket.

Closing the contact socket by the auxiliary contact ^¬ piece allows to shield the socket opening dielectrically. Thus, arranged in the contact socket contact arrangement, which is optionally formed dielectrically unfavorable and despite the arrangement within the contact socket could support a distortion of an electric field, be shielded. In addition to shielding the contact socket by means of the auxiliary contact piece causes a closing the Socket opening of the contact socket also provides mechanical protection of the contact arrangement. A direct action of mechanical forces on the contact socket and a soiled is thus difficult.

Furthermore, it can be advantageously provided that the auxiliary contact piece together with the guide element closes the contact socket.

Close guide element and auxiliary contact piece, the contact socket together, it is possible that in the contact ^¬ sleeve annular space is arranged around the guide element, which serves to receive the auxiliary contact piece. The auxiliary contact piece should have a substantially annular or substantially hollow-cylindrical contour. A displacement of the auxiliary contact piece takes place in the direction of the longitudinal axis of the guide element or the longitudinal axis of the contact socket, wherein the guide element serves to guide the second contact piece.

Furthermore, it can be advantageously provided that the contact arrangement is a guided in a groove of the contact socket elastically deformable contact ring.

The use of an elastically deformable contact ring as a contact arrangement in a groove of the contact socket makes it possible to provide a plurality of contacting points between the first and second contact piece in a small space. Contact rings are variously ^¬ bar. Thus, it is for example possible to bend a coil spring annularly, so that due to the large number of turns of the coil spring a corresponding number of contact points between the first and second contact piece or between the first contact piece and auxiliary contact piece gege ben are. In addition, contact rings can also be used which have correspondingly projecting contact fingers or contact ^louvers which can come into direct electrical contact with the first contact piece and the auxiliary contact piece or with the first contact piece and the second contact piece. The groove in the female contact should concentrate ^¬ cally rotate about the longitudinal axis of the female contact, thereby encompassing also the guide element. The groove cross-section should be adapted to the shape of the contact ring used. For example, groove cross sections in dovetail shape, rectangular shape, channel shape, etc. can be used. The contact ring can be resiliently inserted into the groove, so that the spring elasticity of the contact ring on the one hand serves the electrical ^¬ contacting the two contact pieces. Secondly, the resilient force of the contact ring can be used to but also to position the contact ring positively in the bush and prevent a radial and axial extraction of the contact ring of the female contact to ver ^¬.

In the following, an embodiment of the invention is shown schematically in a drawing and described in more detail below ^¬ .

It shows the

1 shows a first and a second contact piece contact arrangement in a separate state, the

Figure 2 shows a time during a retraction of the two ^¬ th contact piece in a contact socket of the first contact piece and the Figure 3 shows an end position of the retracted into the contact socket of the first contact piece second contact ^¬ piece.

FIG. 1 shows a section through a first contact piece 1. The first contact piece 1 is aligned essentially coaxially to a longitudinal axis 2. The first contact piece 1 has a contact bush 3 with a substantially circular cross-section. The female contact 3 is substantially aligned axially to the longitudinal axis ko ^¬ 2 and has a Innenwan ^¬ dung, in which a groove is introduced. 4 The groove 4 serves to receive a contact arrangement 5 in the form of a contact ring. The contact arrangement 5 is ^embodied as a self-contained annular annular coil spring. The contact arrangement 5 is resiliently inserted into the groove 4. The contact socket 3 has a Kon ^¬ clock socket opening 14 on one end face.

The contact bush 3 is centrally penetrated by a rotationally symmetrical guide element 6. The guide element 6 is screwed in a bottom of the contact socket 3 via a thread, so that the guide element 6 extends coaxially to the longitudinal axis 2 he ^¬ . The limited space between the guide element 6 and the contact socket 3 space serves to receive an auxiliary contact piece 7. The auxiliary contact piece 7 is formed substantially hollow cylindrical. Wherein the auxiliary contact piece 7 is displaceably mounted along the longitudinal axis 2 in the contact socket 3. The auxiliary contact piece 7 is mounted electrically isolated in the contact socket 3. For this purpose, the contact socket 3 is equipped with an insulating arrangement 8, which serves a concern of an outer circumferential surface of the auxiliary contact piece 7. The insulating assembly 8 spaced an outer circumferential surface of the Hilfsskontaktstückes7 against an inner circumferential surface of the contact socket 3. In a so between inner surface and Outer lateral surface formed gap protrudes the contact assembly 5 via the groove 4 also into the gap. The gap is an annular gap, which is aligned coaxially with the longitudinal axis 2. In the present case the insulation 8 is designed in the form of an insulating sleeve, at the inner lateral surface of a Außenman ^¬ telfläche of the auxiliary contact piece 7 is applied. The outer jacket surface ^¬ the insulating assembly 8 in turn is fitted in an inner circumferential surface of the contact socket 3 and is applied to this. Alternatively, the insulating arrangement 8 may also have only selective contact points for the auxiliary contact piece. Thus, the insulating arrangement corresponding in the contact ^¬ socket 3 hineingegende ribs or any other shaped projections which prevent direct contact of auxiliary contact piece 7 with the first contact piece 1 in the region of the guide of the auxiliary contact piece 7 and allows axial movement of the auxiliary contact piece 7. Äquiva ^¬ lent may be mounted at a rigid angle, or both relative to the female contact 3 and to the auxiliary contact part 7, the insulation assembly and to the auxiliary contact 7 be movable.

On the bottom of the contact socket 3 facing side of the auxiliary contact piece 7 a self-contained circumferential annular groove 9 is introduced into the auxiliary contact piece 7. The annular groove 9 in the present case has a rectangular cross-section and runs closed in itself coaxially about the longitudinal axis 2. The annular groove 9 further surrounds the guide element 6. In the

Ring groove 9 is a spring 10 inserted in the form of a coil spring, which is supported on the one hand on the groove bottom of the annular groove 9 and on the other hand at the bottom of the contact socket 3. The spring 10 is biased so that the auxiliary contact piece 7 is pressed in the direction of the contact socket opening 14 of the contact socket 3 from the bottom of the contact socket 3. To ^detach the auxiliary contact piece 7 from the contact socket 3 prevent the guide element 6 serves as a limiting element to limit the mobility of the auxiliary contact piece 7. The guide element 6 has for this purpose a radially encircling vorsprin ^¬ ing shoulder 11. Against the projecting shoulder 11 of the guide element 6, a radially inwardly projecting shoulder 12 of the auxiliary contact piece 7 is pressed. About the ^{¬ at} the shoulders 11, 12 of the guide element 6 and auxiliary contact piece 7 electrical contacting of the two is provided. Furthermore, when abutting the two shoulders 11, 12 of auxiliary contact piece 7 and guide element 6, an electrical contacting of the auxiliary contact piece 7 with the first contact piece 1 is already given via the contact arrangement 5. The contact assembly 5, which lies in the groove 4, presses on an outer circumferential surface of the auxiliary contact piece 7 and contacted the outer circumferential surface of the auxiliary contact piece 7 directly with the first contact piece 1. Thus, an immediate contact between auxiliary contact piece 7 and first contact piece 1 is given. However, the auxiliary contact piece 7 is guided electrically insulated in the insulating arrangement. About the insulating assembly 8 forming a parallel current paths in the mechanical guidance of the auxiliary contact piece 7 is prevented to the formed via the contact assembly 5 current path.

The contact socket opening 14 is centrally penetrated by the guide element 6. In the remaining between the guide element 6 and the first contact piece 1 annular gap, the auxiliary contact piece 7 is arranged in the contact socket 3. The auxiliary contact piece 7 closes the contact bushing 3. At the end of the auxiliary contact piece facing away from the bottom of the contact bush 3, an annular contacting area 15 is provided. The annular contacting region 15 of the auxiliary Contact piece 7 projects beyond the socket opening 14 in the direction of a second contact piece 13, which is axially opposite the first contact piece 1. The annular contacting area 15 of the auxiliary contact piece 17 is coated with a erosion-resistant coating.

The second contact piece 13 is formed opposite to the female contact 3. The second contact piece 13 is formed bolt-shaped. The second contact piece 13 further has a guide bushing 16 to be ascended to the centrally located in the con ^¬ tact socket 3 of the first contact piece 1 Leitele ^¬ ment 6. At the end face on the end facing the first contact piece 1, the second contact piece 13 is equipped with an annular contact pressure area 17. The annular contact pressure region 17 has an erosion-resistant coating and is formed opposite to the annular contacting region 15 of the auxiliary contact piece 7. Furthermore, the guide bush 16 is equipped with a radially protruding guide element 18. The guide element 18 is present in a recess of the guide bush 16 inserted electrically insulating ring. The ring is elastically deformable and serves to be pushed onto a lateral surface of the guide element 6 of the first contact piece 1. In the switching state of the electro-contact arrangement shown in FIG. 1, the first contact piece 1 and the second contact piece 13 are remote from one another (switch-off state), ie first and second contact pieces 1, 13 are not in galvanic contact. To produce an electrically conductive current path between the first contact piece 1 and the second contact piece 13, a relative movement of the first contact piece 1 to the second contact piece 13 along the longitudinal axis 2 is necessary. By means of such a relative movement, the switching state "open" shown in FIG. "closed" state) in the switching state (Einschaltzu ^¬ was to be transferred). In order to produce a relative movement, for example, the second contact piece 13, is ^¬ exaggerated may drive apparatus by a not shown in the figure 1 arrival, in the direction of the first contact piece 1 along move the longitudinal axis 2.

During a movement of the second contact piece 13 towards the first contact piece 1, first of all the annular contacting area 15 and the annular contact area 17 of the second contact piece 13 come into contact with each other. As the movement progresses, the auxiliary contact piece 7 against the spring force of FIG Spring 10 along the longitudinal axis 2 in the direction of the bottom of the contact socket 3 is moved.

Electric discharge phenomena, such as a ^¬ switching arcs or Ausschaltlichtbögen, occur due to the Erstkontaktierung of each was equipped with a loading erosion-resistant annular contacting region 15 and the annular Anpressbereiches 17 between these two areas. By touching the Kontaktierungsbe ^¬ rich 15 and the Anpressbereiches 16 is an indirect electrical contacting of the first and second contact piece 1, 13 is given via the intermediate auxiliary contact piece 7.

FIG. 2 shows a progression of the relative movement between the first contact piece 1 and the second contact piece 13. FIG. 2 shows the instant in which the contact arrangement 5 contacts both the auxiliary contact piece 7 directly electrically and the second contact piece 13 makes direct electrical contact. At this moment, a Umschal ^¬ th of the current path between the first and the second con- carried contact piece 1, 13 with intermediate auxiliary contact piece 7 on a direct contacting of the first contact piece 1 and second contact piece 13 via the contact assembly 5 with herausgeschenntem auxiliary contact piece 7. Due to the electrically insulating guide of the auxiliary contact piece 7 by means of the insulating assembly 8, parallel current paths to the on the contact arrangement. 5 formed contacting of first and second contact piece 1, 13 prevented in the mechanical guide.

To recognize is still in the Figure 2, that the guide element 18 to the outer surface of the guide member 6 traveling on ^¬ and over the guide member 18 and the guide bush 16, the second contact element is supported off of the guide element 6 13 and is stabilized. This jamming or tilting of the two contact pieces 1, 13 to each other is difficult. As the relative movement between the first and second contact pieces 1, 13 progresses, the auxiliary contact piece 7 is moved further along the longitudinal axis 2 in the direction of the bottom of the contact bushing 3. As Figure 2 shows, after a displacement of the auxiliary contact piece 7 by the second contact piece 13, a separation of the shoulders 11, 12 of the guide element 6 and auxiliary contact piece 7 takes place. A separation of the shoulders 11, 12 takes place in time before a separation out of the auxiliary contact piece 7 from the current path between the first and second contact piece 1, 13. The auxiliary contact piece 7 and the guide element 6 are electrically isolated from each other and an annular gap located between the guide element 6 and auxiliary contact piece 7 from each other electrically isolated. A guide of the movement of the auxiliary contact piece 7 thus takes place exclusively on the insulating assembly 8. The guide element 6 provides for the auxiliary contact piece 7 only a stop to limit the movement of the auxiliary contact piece 7 in the female contact 3. With a further progression of Relative movement of the first and second contact piece 1, 13 is also a further compression of the spring 10th

Figure 3 now shows the first switching contact 1 so-like second switching contact piece 13 in the switch state "ge ^¬ closed" (ON), that is, by means of the second contact piece 13, the auxiliary contact piece 7 is moved into its end ^¬ position in the female contact. 3 The Auxiliary contact piece 7 is guided electrically insulated in the insulating arrangement 8. Between the first and the second contact piece 1, 13 there is a direct electrical contact via the contact arrangement 5 located in the groove 4 of the contact socket 3. The auxiliary contact piece 7 is not in the switched-on state of the electrical contact arrangement more part of the electrical current path between the first and second contact piece 1, 13th

Due to the galvanic contact between the annular con- taktierungsbereiches 15 of the auxiliary contact piece 7 and the annular Anpressbereiches 17 of the second contact piece 13, the auxiliary contact part 7, the same electric Po tential as the first contact piece 1 and the second Kon ^¬ clock-piece 13. Due to the electrically insulated guiding of the auxiliary contact piece 7, however, parallel current paths to the current path formed by the contact arrangement 5 between the first and second contact piece 1, 13 are prevented by the mechanical guidance.

To a separating a contact of the first contact piece 1 and the second contact piece 13 out starting ^¬ takes place from the state shown in Figure 3 a reversal of the exhaust follow the relative movements as described above and shown in Figures 3, 2,. 1 The second contact piece 13 moves away from the first contact piece 1. Due to the spring load, a displacement of the auxiliary contact piece 7. Wei ^¬ ter occurs there is a changeover of the electrically conductive connects tion of an immediate contacting of the first contact piece 1 and the second contact piece 13 on a ^¬ with direct contact of the two contact pieces 1, 13 with the interposition of the auxiliary contact piece 7 to an electrical separation of the first contact piece 1 of the second contact piece 13, wherein due to the front side From the socket opening 14 of the contact socket 3 protruding annular Kontaktierungsbereiches 15 of the auxiliary contact ^¬ piece 17 arc phenomena to the auxiliary contact piece 7 arise, whereby the first contact piece 1 is protected from such phenomena.

Claims

claims

1. electrical contact arrangement with a contact socket (3) having a first contact piece (1), with a relative to the first contact piece (1) movable gegengleich shaped second contact piece (13) and with a in the contact socket (3) displaceably guided auxiliary contact piece (7) , characterized in that

the auxiliary contact piece (7) is guided electrically isolated.

2. Electrical contact arrangement according to claim 1,

d a d u r c h e c e n c i n e s that

the auxiliary contact piece (7) is guided in an insulating arrangement (8) accommodated by the contact socket (3).

3. electrical contact arrangement according to claim 1 or 2,

d a d u r c h e c e n c i n e s that

the auxiliary contact piece (7) is contacted with the first contact piece (1) at least in a separate state of the contact pieces (1, 13) via a contact arrangement (5) in an electrically conductive manner.

4. electrical contact arrangement according to claim 3,

d a d u r c h e c e n c i n e s that

the contact arrangement (5) is in direct contact with the auxiliary contact piece (7) or the second contact piece (13) as a function of a switching state of the electrical contact arrangement.

5. The electrical contact arrangement according to one of claims 1 to 4, characterized in that a

the auxiliary contact piece (7) is penetrated by a guide element (6) which limits a displaceability of the auxiliary contact piece (7).

6. The electrical contact arrangement according to one of claims 1 to 5, characterized in that a

the auxiliary contact piece (7) is spring-loaded and has an annular groove (9) for receiving a spring (10).

7. electrical contact arrangement according to claim 6,

d a d u r c h e c e n c i n e s that

the annular groove (9) surrounds the guide element (6).

8. An electrical contact arrangement according to one of claims 1 to 7, characterized in that a

the auxiliary contact piece (7) has an annular contacting region (15), which is formed opposite to an annular contact pressure region (17) of the second contact piece (13).

9. The electrical contact arrangement according to claim 5, wherein:

the second contact piece (13) has a guide bush (16) on ^¬ which, when a switch-on the guide element

(6) ascends.

10. electrical contact arrangement according to claim 9,

d a d u r c h e c e n c i n e s that

the guide bush (16) comprises a radially projecting end Füh ^¬ approximately element (18).

11. Electrical contact arrangement according to claim 1 to 10,

d a d u r c h e c e n c i n e s that

mutually contacting portions (15, 17) of the auxiliary contact piece

(7) and the second contact piece (13) have a erosion-resistant coating.

12. Electrical contact arrangement according to claim 1 to 11,

d a d u r c h e c e n c i n e s that

the auxiliary contact piece (7) closes the contact socket (3)

13. Electrical contact arrangement according to claim 13,

d a d u r c h e c e n c i n e s that

the auxiliary contact piece (7) closes the contact bush (3) together with the guide element (6).

14. Electrical contact arrangement according to one of claims 3 to 13,

d a d u r c h e c e n c i n e s that

the contact arrangement (5) is a resiliently deformable contact ring guided in a groove (4) of the contact socket (3)