DE10056816A1 - Contact set for current-limiting protection switch has rotatable switch shaft with rotary contact bridge acted on by adjustable contact force springs - Google Patents

Abstract

The contact set has a switch shaft (6) rotated about a transverse axis (4) perpendicular to the longitudinal direction (8) of each switch pole and provided with a rotary contact bridge (10) received in a seating (12) of the switch shaft extending along the longitudinal direction, cooperating with stationary contacts (16) via diametrically opposing contact pieces (14). The rotary contact bridge is acted on by contact force springs (20,21) within the switch shaft, with rotation of the contact bridge against the force of these springs by the electrodynamic force resulting from a short-circuit, one end of each spring received in an elongate slot (26) in the contact bridge and provided with a sliding element (28) cooperating with a control cam (32).

Description

The invention relates to a contact arrangement for current-limiting protection switches in the low-voltage range, especially for current-limiting ones Circuit breaker, according to the preamble of claim 1.

From document EP-0314540-B1 is a contact arrangement for a never dervoltage multi-pole circuit breaker with insulating housing known a by means of a slide bearing built into the housing around a fixed one Transverse axis rotatable control shaft, the axis perpendicular to Longitudinal direction of each pole stands. Each pole comprises two with connecting rails connected fixed contacts, a rotary contact bridge that extends along the longitudinal axis of the pole in a playful receptacle of the selector shaft extends and has opposite contact pieces, which in one Switch position interact with the fixed contacts, and two in Inside the selector shaft attached tension springs on the contact bridge act and so a fixed contact pressure of the contact pieces on the Ensure fixed contacts, one of the ends of each tension spring interacts with a driver element of the selector shaft. The two feet are mounted in the receptacle for the contact bridge, the other End of each spring attached to a fastener of the contact bridge is brought. The two fasteners or driver elements of the the springs stand in relation to an imaginary axis of rotation of the contact bridge or the fixed transverse axis of the selector shaft diametrically opposite. This arrangement of the springs ensures free movement of the ge thought axis of rotation of the contact bridge in relation to the fixed cross axis of the selector shaft and at the same time enables a moment of force at the same time moderate distribution of contact pressure and elastic positioning the contact bridge with two translational degrees of freedom, the Kon cycle bridge due to the self-centering effect of the springs on the longitudinal axis  is held in an equilibrium position. The connection rails with the fixed contacts are loop-shaped, so that they if a short-circuit current flows through them, the contact bridges counter to the force of the tension springs in the direction of a push-off position generate repulsive, electrodynamic forces. This contact arrangement allows neither an adaptation to a desired course of the on the restoring force still acting electrodynamically repelled contact bridge the possibility of tilting the electrodynamically repelled con to enable clock bridge.

From the publication EP-0560697-B1 is a low voltage power switch with a contact arrangement per pole known with two symmet pairs arranged on both sides of the contact bridge is equipped with tension springs. The springs are symmetrical on both sides th arranged the axis of rotation of the contact bridge and each have one the end of the contact bridge. For braking and if necessary Holding the electrodynamically repelled by the fixed contacts The outer contact bridge is an opposite end of the springs mentioned on the ends of each one slidably in a recess Switch shaft arranged, designed as a transverse axis and stored the contact bridge has a pair of control cams symmetrical to its axis of rotation ven, which are designed so that they in the end portion of the repulsion stroke the contact bridge interact with one of the pins to the Be brake the movement of the contact bridge. The pins are in the cutouts limited slidably mounted, the diametrically opposite Ver recesses approximately along the line of action of the associated springs to run. The springs ensure an elastic positioning of the contact bridge in the cutout of the selector shaft and define a fictitious one Axis of rotation of the contact bridge in relation to the selector shaft. The profile of the ge compared to the movable contact pieces arranged control curves a shift of the pins in the recess and one of the swivel movement of the contact bridge in the direction of the repulsion position corresponding continuous tension of the springs with a storage of energy in the  Feathers. The profile of the control curves can be designed so that the Contact bridge locked in push-off position; the rotatably mounted Switching shaft by an operating mechanism of the circuit breaker be is done and the opening stroke of the contact bridge is so limited that the Rotation of the control shaft during the switch-off movement a lifting of the Pins caused by the control cams. During the swiveling movement of the Contact bridge in the direction of the repulsion position, the line of action shifts the spring and shortens the lever arm, causing the springs to open the restoring force exerted is reduced.

The invention is based, a more favorable course of the task clocking force via the so-called opening of the contact bridge in the switch-on position, the wear of the contacts and Balances contact pieces to get.

Starting from a contact arrangement of the type mentioned, the Task according to the characteristic features of the independent dependent claim solved, while the dependent claims advantage adhesive developments of the invention can be found.

By fastening or guiding the contact force spring ends on the Contact bridge and the permanent installation of the sliding elements under the Kraftwir It is the kung of the contact force springs on the control cams of the selector shaft Specialist by appropriate design of the control curves at hand given a favorable contact force curve via the through stroke of the contact bridge and a desired course of the electrodynamic repulsion ß dimension the contact bridge to this acting counterforce.

An advantageous further development consists in the formation of a locking recess in the part of the control cams which can be assigned to the end of the push-off movement, which prevents undesired reclosing of the contact arrangement is changed.  

Further advantageous developments consist in that for setting the optimal contact force curve over the stroke in the on position Cutouts approximately in the direction of the line of action of the cutout rungs and / or the control curves roughly parallel to the connection line of fixed contacts.

An expedient embodiment of the invention consists in pairs arranged on opposite sides of the contact bridge, as tension springs trained contact force springs and with their second ends in as querlie the appropriate pins trained sliding elements. Here you can because two opposite contact force springs on the first or second Ends connected in one piece via a connecting web.

An alternative expedient embodiment of the invention is that Contact springs designed as compression springs by on the contact bridge to lead trained leadership means. Here, the pairs in ge contact force springs arranged opposite sides of the contact bridge fixed to the tappet-shaped or pin-shaped sliding elements his. On the other hand, it is also possible that only within the contact bridge two contact force springs with plunger-shaped ends provided at their second ends gene sliding elements are provided.

Due to the pole-wise composition of the switching shafts from pole-wise assigned switching shaft segments is the contact arrangement for modular Composable multi-pole contact systems suitable.

Further details and advantages of the invention result from the following the embodiment explained with reference to figures. Show it

FIG. 1 shows in longitudinal section a first embodiment of the contact assembly according to the invention in switched-on position;

Fig. 2 in longitudinal section a second embodiment of the contact arrangement according to the invention in the switched-on position.

The contact arrangement 2 according to FIG. 1 is provided for one pole of a multi-pole circuit breaker not shown. The circuit breaker normally comprises an insulating housing, a switch lock that can be actuated by a drive, supplying and outgoing connection elements as well as tripping devices for overload and short circuit. A switching shaft 6 made of insulating material is rotatably mounted in the housing about a fixed transverse axis 4 , the transverse axis 4 running perpendicular to the longitudinal direction 8 of the pole. The switching shaft 6 coupled to the key switch is composed of pole-associated switching shaft segments in the form of double disks, of which only the rear disk is shown. A rotary contact bridge 10 extends along the longitudinal direction 8 of the pole in a playful receptacle 12 of the switching shaft 6 and has opposite contact pieces 14 which cooperate with fixed contacts 16 in the switched-on position. The two disks of the control shaft 6 are connected via two drivers 18 .

On each side of the contact bridge 10, two tension springs ausgebil finished contact force springs 20 are arranged, which produce the required contact pressure between the contact pieces 14 and the connecting bars 22 which verbun with fixed contacts sixteenth The first ends 24 of the contact force springs 20 are fixed to the contact bridge 10 and are diametrically opposite with respect to the axis of rotation of the contact bridge 10 . In the contact bridge 10 diametrically opposite recesses 26 are also provided with respect to the axis of rotation. Transverse sliding elements 28 in the form of steel pins are slidably mounted in the recesses 26 which are open towards the periphery. In the sliding elements 28 , the two th ends 30 of the pair of contact force springs 20 opposite each other on both sides of the contact bridge 10 are suspended. Under the effect of the contact force springs 20 , each sliding element 28 is constantly pressed against an associated control cam 32 . The control cams 32 are formed on the switching shaft 6 with respect to the transverse axis 4 in a rotationally symmetrical manner. In this example, the cutouts 26 run along the line of action of the contact force springs 20 . The cams 32 are aligned in such a way with respect to the line of action of the contact force springs 20 that the contact bridge 10 a stable position about an imaginary axis of rotation with two trans latorischen degrees of freedom in certain areas occupies.

When opening the contact arrangement 2 , when the selector shaft 6 is rotated, the contact bridge 10 is acted upon by the catches 18 in a clockwise direction counter to the force action of the contact force springs 20 . The wear of the contacts 14 and 16 that occurs in the course of use, which usually takes place to different degrees in both pairs, is compensated for by the fictitious axis of rotation of the contact bridge 10, which is equipped with two degrees of freedom, in the form of the so-called stroke. Due to the geometric design of the control curves 32 and the alignment of the recesses 26 with respect to the lines of action of the contact force springs 20 and the longitudinal axis 8 , the most balanced and increasing contact force is produced over the life of the contacts 14 , 16 .

When a short-circuit current flows through the contact arrangement 2 , the contact bridge 10 is pushed back counter to the force action of the contact force springs 20 from the switch-on position shown clockwise in the direction of a repulsion position by electrodynamic forces. The sliding elements 28 slide counterclockwise on the control cams 32 ent long. Detent recesses can be provided on the control cams, into which the sliding elements 28 can snap, as a result of which the electrodynamically repelled contact arm 10 can assume a stable tilting position. Since a falling back of the contact arm 10 is prevented until the locking between the sliding elements 28 and the locking recesses is released when setting back the triggered switch lock by rotating the switching shaft 6 clockwise.

The contact arrangement 3 according to FIG. 2 acts in principle in the same way as that described above, which is why the following description is essentially limited to the differences. Sliding elements 29 are formed here as a tappet, the two being connected to the second ends 30 formed as compression springs contact force springs 21 are connected, are constantly whereby the sliding members 29 in contact with the control cams 32 of the switching shaft 10th With their first ends 24 , the contact force springs 21 are supported against a respective limit 34 of recesses 27 directed away from the transverse axis 4 in the form of partially cylindrical guide means, which are formed on the contact bridge 10 for guiding the contact force springs 21 and the sliding elements 29 .

The present invention is not based on the embodiment described above tion forms limited, but also includes all within the meaning of the invention equivalent embodiments. For example, the invention further develop in that the contact bridge is at least partially hollow is formed and only two as compression springs within the contact bridge trained contact force springs are arranged at their second ends are connected with slide elements designed as plungers. Another Continuing education consists of two pairs on either side of the Contact bridge arranged and designed as tension springs contact force at their first or their second ends in one piece across transverse Intermediate webs are connected. Yet another embodiment of the invention consists in that the sliding elements designed as transverse pins in Store slot-shaped recesses in the contact bridge.

Claims (11)

1. Contact arrangement for at least single-pole, current-limiting circuit breakers in the low-voltage range with an insulating housing, to include,
a shift shaft ( 6 ) rotatably mounted in the housing about a fixed transverse axis ( 4 ), the transverse axis ( 4 ) running perpendicular to the longitudinal direction ( 8 ) of each pole,
a rotary contact bridge ( 10 ), which stretches along the longitudinal direction ( 8 ) of the pole in a playful receptacle ( 12 ) of the control shaft ( 6 ) and diametrically opposite contact pieces ( 14 ) which cooperate in a switch position with fixed contacts ( 16 ) .
in the interior of the control shaft ( 6 ) arranged contact force springs ( 20 ; 21 ), the fixed to the contact bridge ( 10 ), first ends ( 24 ) with respect to the axis of rotation of the contact bridge ( 10 ) and the second ends ( 30 ) in the are essentially diametrically opposite with respect to the transverse axis ( 4 ),
two with one of the fixed contacts ( 16 ) connected to the connecting rails ( 22 ), the contact bridge ( 10 ) occurring against a force effect of the contact force springs ( 20 ; 21 ) repelling electrodynamic forces in the direction of a repulsion position when a short-circuit current flows.
characterized in that
the second ends ( 30 ) of the contact force springs ( 20 ; 21 ) are slidably mounted in elongated recesses ( 26 ; 27 ) of the contact bridge ( 10 ) and
are equipped with sliding elements ( 28 ; 29 ), which can be found in constant contact with control cams ( 32 ) in the selector shaft ( 6 ). 2. Contact arrangement according to the preceding claim, characterized in that at the end of the repelling movement of the contact bridge ( 10 ), the sliding elements ( 28 ; 29 ) with recesses formed on the control cams ( 32 ) cooperate wells. 3. Contact arrangement according to one of the preceding claims, characterized in that in the switched-on position of the contact bridge ( 10 ) the recesses ( 26 ; 27 ) extend approximately in the direction of the line of action of the associated contact force spring ( 20 ; 21 ). 4. Contact arrangement according to one of the preceding claims, characterized in that the control cams ( 32 ) run roughly approximately parallel to the connecting line of the fixed contacts ( 16 ). 5. Contact arrangement according to one of the preceding claims, characterized in that on both sides of the contact bridge ( 10 ) two contact springs designed as tension springs ( 20 ) are arranged, which with their second ends ( 30 ) in pairs on the sliding elements designed as transverse pins ( 28 ) are attached. 6. Contact arrangement according to the preceding claim, characterized in that the first or the second ends ( 24 ; 30 ) are integrally connected via transverse intermediate webs. 7. Contact arrangement according to one of claims 1 to 4, characterized in that the contact force springs ( 21 ) are designed as compression springs guided by the contact bridge ( 10 ). 8. Contact arrangement according to claim 7, characterized in that two contact force springs ( 21 ) are arranged on both sides of the contact bridge ( 10 ), the second ends ( 30 ) of which are connected to the slide elements ( 29 ) which are configured as plungers. 9. Contact arrangement according to claim 7, characterized in that in the at least partially hollow contact bridge ( 10 ) two contact force springs ( 21 ) are arranged and the sliding elements ( 29 ) are designed as plungers. 10. Contact arrangement according to claim 7, characterized in that two contact force springs ( 21 ) are arranged on both sides of the contact bridge ( 10 ), the second ends of which are fixed in pairs on the sliding elements designed as transverse pins. 11. Contact arrangement according to one of the preceding claims, characterized in that the selector shaft ( 6 ) consists of pole-assigned selector shaft segments.