WO2017036814A1 - Switching device, in particular a signaling switching device - Google Patents

Abstract

A switching device has at least a first switching point and a second switching point. Each of the switching points has at least a first contact piece (14, 14a, 15, 15a, 15b, 16, 17) and a second contact piece (14, 14a, 15, 15a, 15b, 16, 17). The first switching point and the second switching point are arranged at a distance from each other on a path running azimuthally around an axis (9).

Description

description

Switching device, in particular alarm switching device The invention relates to a switching device, in particular a signaling switching means comprising at least one first switching point and a second switching point with in each case at least ^¬ a first contact piece and a second contact piece.

Such a switching device is known for example from the published patent application DE 10 2006 031 220 AI. The dorti ^¬ ge switching device is controlled by a transmission to operate a variety of switching points. In this case, a rotatable shaft is provided, which actuates a plurality of axially one behind the other switching points. Although a switching device can be provided by such a construction, which is modularly expandable by an axial arrangement of other switching points, however, the space is used inefficiently in the known switching device. On the one hand, a modular expansion of the switching device can be made, on the other hand, thereby increasing the axial extent of the switching device in proportion to an increase in the number of switching points. With increasing Miniaturisierungsbestrebungen such axial dimensioning can not be tolerated.

In this respect, it is an object of the invention to provide a switching ^{¬ device} , which has a reduced axial extent with an increased number of switching points.

According to the invention the object is achieved in a switching device of the type mentioned above in that the first switching point and the second switching point are arranged spaced from each other on a circulating azimuthally about an axis. A switching device is a device which serves to switch an electrical current path. Between contact pieces a switching point is arranged, wherein the

Switching point may have one or more switching paths. Several switching paths can be arranged lying parallel or in series. This can be a conventional switching ^device , ie with contact pieces, which effect a mechanical production or a mechanical resolution of a current path. In this case, the contact pieces can be designed such that a contact gap of a switching point extends between contact pieces. The contact pieces themselves may be movable relative to each other or also by means of a so-called contact bridge (movable con tact ^¬ pieces) contacting the first or second contact piece or separating a contact gap between the first and the second contact piece may be provided. Furthermore, the switching device may be formed as well as non-conventional switching device, ie, the switching point may for example have a switching path using an impedance variable element, which is arranged between a first contact piece and a second contact piece. The impedance element can thus take over the function of the contact bridge. As impedance variable circuit element ^¬ example, power semiconductors such as performance may tung transistors, etc. For thyristors, varistors use. The contact pieces can serve for contacting the impedance element. The contact pieces can be arranged stationary. Several switching elements of a switching point can also be formed by a plurality of impedance elements. A disconnection device can have a conventional and a nichtkon ^¬ tional switching path in combination.

A switching device, in particular a signaling switching device, can be used to map a state of a technical device. For example, by means of the switching device, a switching state of a main switching device can be displayed. Thus, switching points of the Switching device, for example, be operated synchronously to a switching point of a main switching device. This has the advantage that the switching device or the signaling switching device can be constructed separately from the main switching device to be monitored. This makes it possible, for example, to set up the switching device, in particular the signaling switching device, outside of danger zones. Hazardous areas can be, for example, areas of high electrical voltages or even aggressive environments, for example in the chemical industry.

Under the use of a first switching point and a second switching point is possible to map various toward ^¬ states of the main switching means by the Meldeschaltein- or alternatively elicit a multiplication of information on a plurality of similar operating switch points. As a result, galvanic isolation of various signaling or monitoring circuits, control circuits, etc., can already be ensured at the switching device itself in a simple manner.

A switching point has at least a first and a second contact piece. The first and the second contact ^¬ piece of a switching point can limit, for example, the switching point and an electrical Kontaktie ^¬ ren / interrupting a switching path of the switch made ^¬ union. In this case, the contact pieces can be moved relative to each other. However, it can also be provided that the contact pieces are stationarily positioned, wherein, for example, a movable contact bridge (movable contact piece) or an impedance-variable semiconductor can be used before a circuit of the switching point.

By a distribution of different switching points azimuthally about an axis is possible (bezüg ^¬ Lich the axis) provide radial portions having a plurality of switching points so that on an axially shortened space a comparable Larger number of switching points and thus an increased number of reporting options or monitoring options can be created. The circulation can be self-contained. Furthermore, a circulation, for example, can essentially follow a circular path, wherein a first and a second switching point are arranged at a distance from one another along the circuit. In addition, the circulation can beispielswei ^¬ se run elliptically or otherwise drawn polygonal. In this case, the circulation can move substantially along a line, so that the switching points are positioned almost in alignment along the circulation. It may be vorgese ^¬ hen but also that the circulation defines a kind of band, which may be located within the switching points offset from one another. The circulation should represent a self-contained path, so that there is an endless succession of the first switching point and the second switching point in a multiple pass through the circulation.

Preferably, the switching points along the circulation should be oriented substantially identically oriented, ie it may indeed be a certain offset along the axis on the circulation. However, the switching Stel ^¬ len should be substantially aligned along the axis or azimuthally aligned with the axis so that in the circumferential direction or in the axial direction in each case, a similar position of the switch points is advantageously present. From a first contact piece to a second contact piece extends a main axis of a switching point. The main axes of a plurality of switching points may preferably be oriented substantially parallel or coaxially. The

Main axes may also be substantially aligned with each other.

A further advantageous embodiment can provide that a first contact piece and a second contact piece of one of the switching points are arranged spaced apart from each other on a circulation circulating around the axis. A first and a second contact piece of the same switching point can follow the circulating successively be arranged vonei ^¬ Nander spaced, wherein, along this Umlau ^¬ fes several switching points having a plurality of first and di- th contact pieces successively be positioned Kgs ^¬ NEN. Advantageously, the main axes may be aligned (in Wesent ^¬ union in a plane lying). Thus, there is the possibility of contacting the contact pieces of a switching point in a plane vorzunehmen, which extends essentially borrowed transverse to the axis. Accordingly, it is possible to have a relative movement of the contacts to ^¬ each other or a Kontaktierungsbrücke take place transversely to the axis. Such a switching movement may be, for example, a pivoting movement about the axis. Such a construction makes it possible, for example, ei ^¬ ne endless rotation of a movable contact piece vorzuse ^¬ hen to interrupt a switching path of a switching point or close. A further advantageous embodiment may provide that a first contact piece and a second contact piece of one of the switching points along the axis, in particular parallel to this axis are arranged spaced from each other. A substantially parallel alignment of a switching point between a first and a second contact piece on the switching device has the advantage that following a revolution about the axis following a plurality of first and second contact pieces of several switching points (in particular their main axes), each parallel to the axis are intended to provide. In this respect, a switching point on the one hand be aligned along the axis with respect to a first and a second contact piece. However, successively in a round can also be arranged a plurality of switching points spaced from each other. Furthermore, it can be advantageously provided that the first and the second contact piece of a switching point are stationary zuei ^¬ nander positioned. The first and the second contact piece can be part of

Switching point and limit this. By a stationary positioning of the first and the second contact piece, a switching path between the contact pieces may be limited. This establishes an electrically insulating distance that can be realized at the switching point. The stationary contact ^¬ pieces can be connected, for example by means of a contact bridge with ^¬ each other, so that the switching point tends to zero in their impedance behavior. When removing the contact bridge, the impedance of the switching point is controlled to infinity, so that the state of the Schaltstel ^¬ le changes. The contact bridge can act as a movable contact piece. However, the switch can also be

impedance variable element such as a semicon ^¬ conductor, which be the same by a driving

Impedance behavior changes have. In this case can be dispensed with relatively movable elements at the switching point. For example, a power thyristor, a power transistor, a varistor or the like may be contacted between the first and second contact pieces.

A further advantageous embodiment can provide that the first and the second contact piece are arranged to be movable relative to each other. A relative mobility of two contact pieces makes it possible to form a variable impedance switching point in a simple form, wherein the impedance behavior of the switching point can be changed by the relative position of the first and second contact piece to each other. For example, one of the con- may be formed stationary, whereas the other clock Kon ^¬ piece is designed to be movable or it may also be provided that both the first and second contact pieces clock piece are arranged movably. This has the advantage that it can be achieved faster closing or opening the Schaltstel ^¬ le, since a resulting movement can proceed faster by a movement of the two contact pieces. The two contact pieces can be made similar from ^¬ . It can be provided in particular that the contact pieces are formed opposite. For example, it may be formed as a contact socket and a contact piece as the other contact piece as a contact pin. Alternatively, it may also be provided to perform a contact piece in the manner of a knife and the other contact pieces as impact contact.

A further advantageous embodiment can provide that a switching movement is coupled to a movable contact piece at least one switching point in the axial direction in the switching device.

When using movable contact pieces is a movement to at least one movable contact piece

to couple. An introduction of a switching movement in the direction of the axis allows a central coupling of a movement, wherein a forwarding or a distribution of the movement to the switching points can take place in particular in the radial direction, so that a symmetrical distribution of forces can suc ^¬ conditions.

A further advantageous embodiment can provide that the switching movement is essentially a rotary movement.

A switching movement, which essentially corresponds to a rotational movement, can be delivered in a favorable manner running in the axial direction. Easily coupled with a particular position of a first and a second contact piece of the switching filters on a revolution about the axis, can be as a re ^¬ lativbewegung for switching a switching point between the contacts of the switching point or over- will wear. In particular, in an arrangement of several switching paths on a circuit so several switching points can be operated with one movement. In addition to a rotational movement, this can also be superimposed by a translational movement or pendulum movement, although a Drehbewe ^¬ tion should dominate.

A further advantageous embodiment can provide that the switching movement is a substantially translational movement.

A switching movement in the axial direction can, for example, also take place essentially in a translatory manner. In particular, in the case of an arrangement of a first and a second contact piece of a switching point along the axis, a movement can thus be coupled into a switching point who ^¬ . Can be carried out in particular in an arrangement of several such directed from ^¬ switching points around the axis on an axially shortened range, a driving or actuation of a comparatively large number of switching points. It can also be provided that the switching movement is superimposed, for example, by a rotational movement or tumbling movement. However, the switching movement should be carried out to essential components in translational form.

Regardless of the type of switching movement can be provided that also differently oriented switching points are arranged on a switching device. Thus, for example, at least one switching device can be used

Switching be aligned such that the first and second contact piece is arranged spaced apart on a circulating around the axis circulation. However, it can also be provided that in the same switching device, a first contact piece and a second contact piece of a

Switching point along the axis, in particular parallel to this axis, is arranged spaced from each other. As required an actuation of such differently oriented switching points via one and the same mechanism can be done. For example, to have different operating branches to ^¬ a drive mechanism. However, it is advantageous if, independently of an orientation of the switching point or derer contact pieces a switching movement is coupled substantially extending in the axial direction in the switching device. Furthermore, it can be advantageously provided that a movable contact piece of at least one switching point linear

is slidably mounted.

For example, a first and / or a second contact piece of a switching point can be mounted displaceably. However, it can also be provided that a further contact piece is movably positioned, wherein the first and the second contact piece of a switching point are arranged stationary. In this case, the movable contact piece may be formed, for example, as a so-called contact bridge.

It can be provided that the movable contact piece is parallel to the switching path or in a switching path, movable. However, it can also be provided that a displacement of the movable contact piece takes place transversely to the switching ^¬ distance.

Furthermore, it can be advantageously provided that at least one switching point is configured as a changeover switch.

A switch has more than a first and a second stable switching state. A change-over switch can, for example, have a neutral position, wherein, depending on the type of movement of a movable contact piece, switching on or bridging of a first contact gap or switching on or bridging of a second contact gap can be undertaken. For example, it is possible to without switching from a switching state of the switching point in egg ^¬ nen other switching state of the switching point.

Furthermore, it can be advantageously provided that connection points of the contact pieces are aligned substantially radially.

A contact piece is on the one hand the limitation of the switching point useful, on the other hand, the contact piece can also serve to incorporate the switching device in a current path. Corresponding to a contact piece is a connection point supplied ^¬ arranged, which serves an integration of the switching point in a current path. Such a connection point should extend substantially radially, ie radially, from the axis. In a plurality of connection points of contact pieces, which are aligned radially about an axis, so creates a circulation around the axis, so that due to a radiant ^¬ shaped position, the contact pieces of the switching device can be arranged close to each other, but a position of the connection points due the geometry is done in an enlarged zone.

A further advantageous embodiment may provide that connection points of the contact pieces are arranged on the shell side on a substantially cylindrical base body of the switching device.

A substantially cylindrical body, for. B. a hollow cylinder preferably having substantially circular end faces has in particular (outside) on the shell side a Flä ^¬ che, in which connection points can be distributed. The main body can receive the switching points in its interior and protect it mechanically. Contacting the contact pieces via the connection points, wherein the base body is a barrier around the switching points. For example, a switching movement can be coupled into the interior of the cylindrical base body on the front side. A further advantageous embodiment can provide that at least one of the switching points is a multi-position switching point.

A multi-position switching point has the advantage that the switching point has more than two stable switching positions. Thus, it is possible, for example, next to an on and off a switching ^¬ a neutral position and an intermediate position between a switching of the switching switch take. Advantageously, the switching point several

Have switching paths. A multi-position switch can, for example, map an advance of a movement in an improved form. So it is possible, for example, switching states such. B. switched on, off, over ^¬ transition state, represent.

In the following an embodiment of the invention is shown in a drawing and described in more detail below. It shows the

Fig. 1 shows a cross section through the main switching device in a neutral position, the

Fig. 2 shows a cross section through the main switching device in a first closed position, the

Fig. 3 shows a cross section through the main switching device in a second closed position, the

Fig. 4 is a side view of a switching device, the

Fig. 5 is an end view of a Schalteinrich ^¬ tion, the Fig. 6 shows a cross section through a switching device according to Figures 4 and 5, the

Fig. 7 shows a switching position of the switching device according to

 Fig. 6 corresponding to the neutral position of

Main switching device according to Fig. 1, the

Fig. 8 shows a switching position of the switching device according to

 Fig. 6 corresponding to the first switch-on position of the main switching device of FIG.

2, the

Fig. 9 shows a switching position of the switching device according to

 Fig. 6 corresponding to the second switch-on position of the main switching device of FIG.

3, the

Fig. 10 shows an alternative embodiment of the in

 Fig. 6 illustrated switching device, the

Fig. 11 shows a possible embodiment of a switching point, the

Fig. 12 is an end-side cross section through a

 Switching device with rotary motion and the

Fig. 13 shows a variant of a switching device with rotary motion. FIG. 1 shows a section through a main switching device which has an encapsulating housing 1. The Kapse ^¬ lung housing 1 is present an electrically conductive Cape ^¬ selungsgehäuse, wherein a first part portion 3 a and a second part portion 3b of the phase conductor run in the Kapselungsge ^¬ housing 1 are inserted fluid-tightly by electrically insulating washers ^¬ insulators. 2 On the first Teilab ^{¬ section} 3a of the phase conductor train is a movable switching arranged contact piece 4 of the phase conductor. The switching ^¬ contact piece 4 is formed substantially bolt-shaped and slide-movable and electrically contacted in the first section 3a of the phase conductor train stored. The switching contact piece 4, at a first end opposite the end face, a contact socket on the second section 3b of the phase conductor is arranged. A second end face of the switching contact piece 4 opposite a He ^¬ bushing 5 is electrically conductively connected to the encapsulating 1 and supported by this, so that the Kapselungsge ^¬ housing 1 via the earthed grounding socket 5 earth potential leads.

A relative movement of the switching contact piece 4 is transmitted to a switching device 7 via an operative connection 6. The switching device 7 is a signaling switching device which maps the switching state of the switching contact piece 4 or of the main switching device. The neutral position of the switching contact piece 4 shown in FIG. 1 is represented by the switching device 7 (see FIG. 7). In the neu- ralstellung the switching contact piece 4 is electrically contactless m ^¬ advantage neither the female contact nor with the grounding socket. 5

FIG. 2 shows a first closed position of the switching contact piece 4. The switching contact piece 4 represents ei ^¬ ne electrically conductive connection between the first portion 3a and the second portion 3b of the phase conductor ^¬ Zuges ago. Thus, the Phasenleiterzug is electrically Runaway ^¬ on. Accordingly, this switching state is imaged on the switching device 7 via the operative connection 6 (cf., FIG. 8). Starting from the first switch-on position according to FIG. 2, the neutral position shown in FIG. 1 can be converted into the second switch-on state shown in FIG. 3 when the direction of movement of the switch contact piece 4 is reversed. In this case, the first part ^¬ section 3a of the phase conductor train is electrically contacted with the grounding socket 5 and thus grounded. About the effect 6, this second switch-on state is also transmitted to the switching device 7 and imaged there (see FIG. 9). 4, the switching device 7 is shown in a side view corresponding to the figures in Figures 1, 2 and 3. 5 shows the switching device 7 in a frontal view. 6, the known from FIG. 4 position is shown in a section.

The structure of a switching device 7 will be explained in more detail below with reference to FIG. 6. The switching device 7 has a housing 8, which preferably acts electrically isolie ^¬ rend. The housing 8 may, for example, be a hollow-cylindrical housing, preferably with an annular cross section, which extends coaxially to an axis 9. Forehead ^¬ side, the housing 8 is closed with ceiling-shaped closure elements 10a, 10b. The cover-shaped closure elements 10a, 10b may, for example, be connected at an angle to the front side of the housing 8. Centrally, the cover-shaped closure elements 10a, 10b are each penetrated by a recess, wherein the recesses in turn are penetrated by a shift rod 11. The shift rod 11 is formed substantially bolt-shaped and mounted axially displaceable. A movement of the Schaltkontaktstü ^¬ ckes 4 of the main switching device is transmitted via the operative connection 6 on the shift rod 11. Within the Ge ^¬ häuses 8, a contact bridge carrier 12 is arranged on the switch rod. 11 The contact bridge carrier 12 is rigidly connected to the shift rod 11, so that an axial BEWE ^¬ tion of the shift rod can be transferred to the contact bridge carrier 12. The contact bridge carrier 12 is formed annularly, wherein the contact bridge carrier 12 is aligned coaxially with the shift rod 11. Over a

Disk 13 or struts, the shift rod 11 is connected to the con ^¬ tact bridge carrier 12 so that it is held concentrically. An axial displacement of the shift rod eleventh is limited by the contact bridge carrier 12, that is, a movement in the direction of the axis 9 is bounded by an abutment of the contact bridge carrier 12 inside wall of the deckeiförmi ^¬ gene closure elements 10a, 10b.

On the shell side contact bridges 14 (movable contact pieces) are placed on the contact bridge carrier 12. The Kontaktbrü ^¬ bridges 14 are formed strip-shaped or knife-shaped and parallel to the axis 9. A plurality of contact bridges 14 are aligned at the circulation of the contact bridge carrier 12 parallel to each other and spaced from each other and kept electrically isolated and distributed. Depending ^¬ de contact bridge 14 to another switchboard is to be ^¬ arranged so that corresponding to the arrangement of the contact bridges 14 on the rotation of the contact bridge carrier 12 and thus about the axis 9 to the number of the contact bridges 14 corresponding number of switch positions is arranged on the circulation, which are spaced apart from each other. Each switching point has, in addition to a contact bridge 14 (movable contact piece), a first contact piece 15, a second contact piece 16 and a third contact piece 17. Depending on the position of the contact bridge carrier 12, the contact pieces 15, 16, 17 are electrically connected to one another via an ^arrangement of a contact bridge 14 or are electrically insulated from one another. 6, a neutral position is shown. In this case, the contact ^¬ bridge 12 is contacted with the first contact piece 15, wherein the second and the third contact piece 16, 17 are electrically insulated both against ^¬ each other and with respect to the first contact piece 15 and the contact bridge 14. Each switch point thus has a first contact gap and a second one

Switching distance on. The two switching paths are konstrukti ^¬ onsbedingt locked each other, ie a simultaneous closing of both switching paths is excluded. With an axial displacement in the direction of the lid-comparison circuit elements 10a, 10b, the contact bridge 14 under When ^¬ preserving its electrical contact with the first contact piece 15 alternately with the second contact piece 16 or be contacted with the third contact piece 17. In this case, the contact pieces 15, 16, 17 Kontaktierungsberei- on che for acting as a movable contact piece Kontaktbrü ^¬ blocks fourteenth For a connection of the contact pieces 15, 16, 17, the contact pieces 15, 16, 17 connection points, wel ^¬ che extending in the radial direction through the wall of the housing 8, so that an electrical connection of the contact pieces 15, 16, 17 outside of Housing 8 can be done. The housing 8 remains at a switching operation at rest, so that a contacting of the contacting points of the contact pieces 15, 16, 17 in a simple manner is possible. About the housing 8 and the lid-shaped closure elements 10a, 10b, the contacting regions of the contact pieces 15, 16, 17 are protected mecha ^¬ nically against external influence. In FIG. 6, the position of a plurality of contact bridges or switching points in circulation about the axis 9 can be seen. In each case, the first contact pieces 15 of the various switching points and the second contact pieces 16 of the various switching points and the third contact pieces 17 of the various switching points and the contact bridges 14 of the various switching points follow each other around the axis 9. The first contact piece 15 and the second contact piece 16 and the third contact piece 17 (main axis) of a switching ^¬ site are arranged in a direction parallel to the axis 9 successive. On the basis of Fig. 5 is recognizable that fifteen switching Stel ^¬ len are successively arranged sequentially in the azimuthal rotation around the axis 9. ^¬ particularly at hand of the figures 4 and 5 the location of the connection points of the contact pieces 15, 16, 17 on the outer surface of the overall häuses 8 is recognizable. 7, the known from FIG. 6 neutral position of the movable contact bridges 14 is shown in perspective. The position of the contact bridge 14 together with the contact bridge ^carrier 12 and the switching rod 11 corresponds to the illustration of the neutral position of the main switching device according to FIG. 1. FIG. 8 shows the switching state of the switching device, which is assumed as soon as the first on state of the main switching device shown in FIG. 2 is to be displayed. The movable contact bridge 14 con- taktiert the first contact pieces 15 and the second contact piece 16 ^¬ each other. Between the second contact piece 16 and the third contact piece 17 is an electrical separation. This closes a first switching path between the first contact piece 15 and the second contact piece 16, so that the closed switching contact piece according to FIG. 2 can be depicted as closed via the contact bridge 14 and the first contact piece and the second contact piece 15, 16. FIG. 9 illustrates the switching state of the switching device, which is assumed as soon as the second on state of the main switching device shown in FIG. 3 is to be imaged. The movable contact bridge 14 is axially displaced, so that an electrical contacting of the first contact piece 15 and the third contact piece 17 takes place. A second switching path is closed. The two ^¬ te contact piece 16 is arranged electrically insulated. By contacting the first and the third contact piece 15, 17, a mapping of the switching state of the main switching device according to FIG. 3 is possible.

10 shows an alternative embodiment of a housing 8a as well as alternatively designed lid-shaped closure elements 10c, 10d. The lid-closing members 10c, lOd are frontally connected by means of screw connections with the Ge ^¬ housing 8a. By protruding in the direction of the Kontaktbrückenträ ^¬ gers 12 shoulders 18, 19 on the lid-shaped closure elements 10c, lOd on the one hand a guide the shift rod 11 can be supported, on the other hand, the free path of the contact bush holder 12 and thus the shift rod 11 are limited. The switching devices shown in the previous embodiments each have a first contact piece 15 and second contact pieces 16 and a third contact piece 17. This makes it possible to map two switching states, defined by two switching paths, namely an electrical contacting of the first and the second contact piece 15, 16 and an electrically conductive contacting of the first and the third contact piece 15, 17. In Fig. 11, the embodiment a switching point shown, which shows an interruption of the first contact piece 15 in a first part ^¬ contact piece 15a and a second part contact piece 15b. In the neutral state (corresponds to illustration of FIG. 6 and FIG. 7), the contact bridge 14 is positioned such that the partial contact pieces 15a, 15b of the first contact piece are electrically contacted with each other. A third shift ^¬ distance (between partial contact pieces 15a, 15b) is closed ^¬ sen. That is, with an axial displacement of the contact bridge 14 comes to a state in which an electrical contact of the partial contact pieces 15a, 15b is repealed, but still no contact of one of the partial contact pieces 15a, 15b with a second contact piece 16 or with a third contact piece 17 is reached has been. Such a construction makes it possible to reliably display three switching positions (over three switching paths). In addition to an illustration of the first switch-on position and the second switch-on position, the neutral position can now also be displayed via the two partial contact pieces 15a, 15b. Failure to display any of the three defined

 Switch positions allows the conclusion that there is a faulty position or an intermediate position. Thus, it is possible to have a first switch-on position (FIG. 2) and a second switch-on position (FIG. 3) of a main switch device via the contact bridge 14, making contact with a

Part contact piece 15a and a second contact piece 16 or a partial contact piece 15b and a third Kon- To produce tact piece 17. Furthermore, it is possible to image the neutral position (FIG. 1) of a main switching device by contacting the two partial contact pieces 15a, 15b via the contact bridge 14. When leaving the neutral position, the contacting of the two partial contact pieces 15a, 15b is interrupted by a displacement of the contact bridge 14.

According to the illustration of the contact pieces 15a, 15b, 16, 17 and the contact bridge 14 in FIG. 11, the switching devices known from FIGS. 6, 7, 8, 9 and 10 can also have a first and a second partial contact piece 15a, 15b of a first contact piece 15 are equipped. In the previously described embodiments of a

 Switching device is described a lateral displacement or an axial coupling a switching movement to a shift rod 11. In FIGS. 12 and 13, a switching device with rotary motion and a variant of a switching device with rotary motion are each in an end-face

Section shown. A shift rod 11 takes a central ^¬ generic coupling in a switching movement, whereby a rotary movement for imaging a switching state of a main switching ^¬ means of the switching rod 11 is effected. The Schalteinrich- tung with rotary motion according to Fig. 12 has a plurality of switching Stel ^¬ len each having a first contact piece 15, a second contact piece 16 and a third contact piece 17. A first switching point and a second switching point are arranged around the axis sequentially in 9 ei ^¬ nem circulation. In this case, the first contact piece 15 and the second contact ^¬ piece 16 and the third contact piece 17 of a switching point on the circulation around the axis 9 following successive arranged. In addition to the variant shown in FIG. 12, in which two switching points are arranged distributed on the circulation around the axis 9, further switching points can be arranged beyond this. For example, in the simple case be arranged by doubling the switching points in each quarter of a full circle of a switching point.

Knife-shaped contact bridges 14a, which can be moved on a circular path, are arranged on the rotatable shift rod 11 on radially-forgoing, electrically insulating arms 20. In the present case, the contact bridges 14a are circular-segment-curved knives so that they can slide through the contact pieces 15, 16, 17. Such an arrangement has the advantage that the contact bridges 14a, if necessary, one switching point or the other

Switch point can operate. Furthermore, by continuous rotation of the shift rod 11, a fixed sequence of Kontak ^¬ tierens the contact pieces 15, 16, 17 take place.

FIG. 13 shows a second variant of a switching device with a rotatable switching rod 11. Analogous to the off ^¬ design of the contact pieces 16, 17 as well as the Teilkontaktstü ^¬ blocks 15a, 15b in FIG. 11 is also provided here a division egg nes first contact piece in a first part 15a and second contact piece portion contact piece 15b. This makes it possible to reliably map a neutral position via a contact bridge 14a. Starting from FIG. 12, positioning of switching points in four sectors is now provided in one revolution around the axis 9, wherein, in addition to increasing the number of switching points in the radial direction, a plurality of switching points are successively arranged in a plurality of shells. As a result, it is possible to arrange a plurality of contact bridges 14a spaced apart from one another on the electrically insulating arms 20, so that a plurality of radially arranged paths are arranged

Switching points on a circuit around the axis 9 can be switched successively ^¬ ing.

Claims

claims

1. switching device, in particular signaling switching device, comprising at least a first switching point and a second switching point, each having at least a first contact piece and a second contact piece,

characterized ,

in that the first switching point and the second switching point are arranged at a distance from each other on a revolution circulating around an axis (9) in an azimuthal manner.

2. Switching device according to claim 1,

characterized ,

that a first contact piece (14, 14a, 15, 15a, 15b, 16, 17) and a second contact piece (14, 14a, 15, 15a, 15b, 16, 17) of one of the switching points on a about the axis (9) encircling Circulating spaced from each other are arranged.

3. Switching device according to one of claims 1 or 2, d a d e r c h e c e n e c e n e,

a first contact piece (14, 14a, 15, 15a, 15b, 16, 17) and a second contact piece (14, 14a, 15, 15a, 15b, 16, 17) of one of the switching points along the axis (9), in particular pa ^¬ rallel to this axis (9) are arranged spaced from each other.

4. Switching device according to one of claims 1 to 3, d a d e r c h e c e n e c e n e,

that the first and the second contact piece (14, 14a, 15, 15a, 15b, 16, 17) of a switching fixed to one another positio ned ^¬.

5. Switching device according to one of claims 1 to 4, d a d u c h e c e n e c e n e,

in that the first and the second contact piece (14, 14a, 15, 15a, 15b, 16, 17) are arranged to be movable relative to one another.

6. Switching device according to claim one of claims 1 to 5,

characterized ,

that a switching movement is coupled to a movable contact piece (14, 14a) of at least one switching point in the axial direction (9) in the switching device.

7. Switching device according to claim 6,

characterized ,

that the switching movement is essentially a rotary movement.

8. Switching device according to one of claims 6 or 7, d a d e r c h e c e n e c e n e,

that the switching movement is a substantially translational movement.

9. Switching device according to one of claims 1 to 8, d a d u c h e c e n e c e n e,

a movable contact piece (14, 14a) of at least one switching point is mounted linearly displaceable.

10. Switching device according to one of claims 1 to 9, d a d u r c h e c e n e c e n e,

that at least one switching point is configured as a changeover switch.

11. Switching device according to one of claims 1 to 10, d a d u c h e c e n e c e n e,

that connection points of the contact pieces (14, 14a 15, 15a, 15b, 16, 17) are aligned substantially radially.

12. Switching device according to one of claims 1 to 11, d a d e r c h e c e n e c e n e,

that connection points of the contact pieces (14, 14a, 15, 15a,

15b, 16, 17) are arranged on the shell side on a substantially cylindrical base body (8) of the switching device.

13. The switching device according to claim 1, wherein:

at least one of the switching points is a multistation switching point.