DE102005046640A1 - Electrical installation device - Google Patents

Abstract

An electrical switching device is proposed with a contact lever (13) which is rotatably mounted approximately in the middle, a movable contact piece (12) being arranged at the free end of the first arm (15) and the free end of the second arm (16) with it a rotatable toggle switch (22) is coupled. A contact compression spring (18) engages the free end of the first arm (15) approximately in the direction of the longitudinal extension of the contact lever (13). An actuator (19) is provided which acts in the area between the axis of rotation (14) of the contact lever (13) and the movable contact piece (16) on the contact lever (13) in the direction of disconnection and, if necessary, with the movable contact lever (13) or mechanically coupled to the movable contact piece (16).

Description

The The invention relates to an electrical installation device according to the preamble of claim 1.

Circuit breakers Motor circuit breaker, circuit breaker and residual current circuit breaker own a contact point, which is also designed as a double contact point may be, which in the case of a fault current, overcurrent and / or short-circuit current permanently open must become. For this purpose, has a circuit breaker, circuit breaker or motor protection switch a thermal release, indicating an overcurrent responds and generally designed as a bimetallic strip is, and a solenoid system, which occurs when a short-circuit current the contact point opens. Both the thermal and magnetic triggers work on a Verklinkungsstelle within a switch lock, which with a movable contact carrier for a movable contact piece coupled so that due to the unlatching of the latching point the contact point remains open becomes. In a residual current device is an electromagnetic Shutter provided, the due to a fault current via a plunger a Latch unlatched, so here too the contact point remains open.

A Such Verklinkungsstelle usually has two elements, the interact with each other and under the pressure of a spring against each other depressed are. Once due to an overcurrent or short-circuit current or a fault current of one of the two parts from the position, in which both touch, is removed, for example by the bimetallic strip, for example via a slide or the like on which the thermostatic bimetal acts can be the other Element pivot and thereby releases the contact carrier, so that a cooperating with this spring spends the movable contact carrier in the off position.

For example in the circuit breaker S2 of the company ABB Stotz contact GmbH, Heidelberg is the case. The switch lock with a latch lever and a release lever is located between two boards and between the release lever and the latch lever, the Verklinkungsstelle is provided, the from a thermobimetal and the armature of an electromagnetic Trigger by means of a slider is unlatched.

There two elements are moved towards each other and thus during the Entklinkungsvorganges a frictional force is overcome, you need a relatively large one Force with which the electromagnetic release and thermal release and Furthermore also the trigger of residual current circuit breaker act on the Verklinkungsstelle.

task The invention is to provide an electrical switching device in which a Verklinkungsstelle is avoided.

These The object is achieved by the features of claim 1.

Further advantageous embodiments of the invention and further improvements are the dependent claims refer to.

In Particularly advantageous manner is as a moving part of the shutter Element of a shape memory alloy used under the influence of an electromagnetic field a change in length or at least undergoes a change in shape. Of the particular advantage of using the shape memory alloy is that with mechanical coupling of the actuator with the contact lever the contact lever easily spent again in closed position can be, namely on the one hand by a current pulse on the trigger, the one resetting Electromagnetic field generated by the coil, and on the other hand by hand, the shape memory alloy is deformed by mechanical force.

This trigger acts on the formed as a double arm lever contact carrier, wherein the trigger both as a thermal trigger as well as an electromagnetic trigger can serve.

at Such an embodiment of the switching mechanism for an electric switchgear there is still the possibility in that a conductor section is provided parallel to the contact lever is which is electrically connected to the contact lever, such that a current flows through the contact lever and the conductor section flows in a U-shape. This ensures that at very high currents to the contact lever a Additional power through the U-shaped loop or the two parallel conductor sections is generated, whereby the contact lever in the off position additionally accelerated becomes.

Based the drawing in which an embodiment the invention are shown, the invention and others advantageous embodiments and improvements of the invention explained in more detail and to be discribed.

It demonstrate

1 Parts of an electrical circuit breaker in on and off position,

2 a perspective view of a switch knob,

3 a view of the switch knob according to 2 , and

4 a schematic representation of a supplement.

An electrical circuit breaker, by which the invention is to be shown, is housed in a housing and has in addition to terminals and other components a contact point 10 with a fixed contact piece 11 and a so-called movable contact piece 12 , This movable contact piece is on a contact lever 13 attached to his depository 14 is rotatably mounted. As a result, a double-arm lever is formed, with a first arm 15 at which the movable contact piece 12 is arranged, and a second arm 16 , at the free end of an L-shaped bend 17 is provided. Against the contact lever 13 in the range of the movable contact piece 12 grips a compression spring 18 at the in 1 thick extended position serves as a contact pressure spring, wherein between the arm 15 and the contact pressure spring 18 an obtuse angle from the contact point 11 is open, is formed.

The circuit breaker has one as a spindle 19 made of a material that changes shape under the influence of an electromagnetic field, here its length changes, trained actuator 18 , The electromagnetic field is through a coil 20 generated within the spindle 19 is arranged and thus by the coil 20 is exposed to the generated magnetic field. The spindle 19 is with its longitudinal axis approximately perpendicular to the arm 15 aligned and on the arm 15 remote end stationary 21 fixed, so that the spindle 19 under the influence of an electromagnetic field only in one direction, namely in the direction of arrow P ₁ extended.

The circuit breaker also has a switch knob 22 with a handle 23 that is in a rotation axis 24 is rotatably supported and acted upon in a manner not shown by means of a spring in the direction of arrow P ₂ . Approximately in extension of the handle 23 is at the hub-shaped portion 25 a first actuating arm 26 and a second operating arm 27 formed parallel to each other and parallel to the handle 23 run.

The spindle 19 has at its free end a latching hook 19a that with the contact lever 13 is coupled. The latching hook 19a For example, by a recess 19c be formed, which is formed for example by a cutout or the like ge. The recess 19c is on the the latch hook 19a opposite side by an end face 19b limited and in this recess runs the double lever 15 of the contact lever 13 ,

How out 3 it can be seen, is the actuating arm 26 on the hub body 25 molded, whereas the actuating arm 27 about a movie hinge 28 with the hub body 25 is connected, which in extension of the longitudinal edge 29 of the second arm opens into the hub body, so that on the the actuating arm 26 opposite side between the actuating arm 27 and the peripheral surface of the hub body 25 A gap 30 located. This can be the actuating arm 27 opposite to the direction of arrow P ₂ , ie in the direction of arrow P ₃ to the film hinge 28 can be pivoted in the direction of arrow P ₂ but not because of the hub body 25 facing front edge of the actuating arm 27 against the peripheral surface of the hub body 25 invests.

Like from the 2 it can be seen, are the actuating arms 26 and 27 relative to the central axis 24 of the hub body 25 offset from each other, so that the actuating arm 27 can pivot in the direction of arrow P ₃ , without the actuating arm 26 to be disabled. The actuating arm 27 pans in the in 2 shown illustration, under the operating arm 26 in the direction of arrow P ₃ by. The free end of the actuating arm 27 is with a circular arc groove 31 whose task is explained below.

The 1 shows, as shown above, the significant components of the invention in closed position. If, for example, due to a short circuit, the spindle 19 of magnetic shape memory alloy in the direction of arrow P ₁ extended as dashed with 19 ' shown, beats the end face 19b the spindle 19 on the arm 15 and swings his arm 15 around the fulcrum 14 , causing the arm 15 together with the spring reaches and exceeds a dead center line T, causing the spring 18 the contact lever 13 suddenly and abruptly into the dashed off position 13 ' pivoted. The bend 17 moves on a circular arc B ₁ to the pivot bearing 14 , while the free end of the actuating arm 27 on a circular arc B ₂ around the axis of rotation 24 pivoted. It can be seen that the two circular arcs B ₁ and B ₂ overlap. If now the contact lever 13 beyond the dead center position of the spindle 19 is pivoted, the snaps contact lever 13 suddenly in the off position, with the actuating arm 27 in the subsequent movement of the handle 22 against the bend 17 applying, whereby in the area in which the two curves B ₁ and B ₂ overlap, the actuating arm 27 is rotated in the direction of arrow P ₃ , so that the bend 17 in the space between the actuating arm 26 and the actuating arm 27 arrives. To turn on then the switch knob is pivoted in the direction of arrow P ₃ . As the rotational movement of the actuating arm 27 can only extend in the direction of arrow P ₃ , but not in the opposite direction, transmits the longitudinal edge 29 of the actuating arm 27 at least in the area of the overlapping of the sheets B ₁ and B ₂ on the switching knob or handle 23 applied hand force on the bend 17 and moves the contact lever 13 back to the position in the 1 is pulled thick, ie in the closed position, but at least until the dead center line T, from where the contact lever 13 snaps into the on position. The arcuate groove 31 serves to bend the bend 17 on the actuating arm 27 to slip past. In the closed position, as shown, is the bend in the space between the two actuating arms 26 and 27 During the switch-off process, it is located outside the gap and outside the operating arm 27 and only by further rotation of the switch knob 22 in the direction of arrow P, the bend returns to the space between the two actuating arms 26 . 27 ,

The clear distance between the latching hook 19a and the face 19b is such that when the contact lever 13 the dead center T exceeds and is pivoted to the open position, this pivoting movement by the latch hook 19a respectively. 19a ' not hindered.

When the spindle is in position 19 ' then there are two options for the provision:
For one thing, on the coil 20 By remote control, a pulse can be given, which generates an electromagnetic field, which spins the spindle back to its original position. With this change in shape is over the molded on the spindle tes locking element 19a (or latching hook) and the contact lever spent again in the closed position. The other possibility is that the spindle is deformed by mechanical force via the contact lever during the switch-on, so that it is returned to its original, ready-to-trigger shape.

The 4 shows a further embodiment of the invention. On the free arm 16 of the contact lever 13 is at the connection point 44 , which also in the embodiment according to 1 the case is over a stranded wire 40 a connection terminal 41 connected. The fixed contact piece 11 that with the movable contact piece 12 together and so does the contact point 10 is at a ladder section 43 attached, which is parallel to the contact lever 13 (in closed position) to about the turning point 14 extends and its free end via a stranded conductor 15 with the coil 20 connected is. As a result, flows through the coil in the on state 20 , the stranded conductor 45 , the leader piece 43 , the contact point 10 , the first arm 15 and over the stranded wire 40 a current I, which forms a U-shape whose U-bottom through the contact point 10 is formed. Now, if a tube short circuit occurs, then the U-shape of the current I exerts a force on the contact arm 15 off, which moves this in Ausschabtrichtung.

It is self-evident, that all kinds of shape memory alloys can be used not just those whose length changes, but also those where a torsion change or another shape change he follows. It will also be a modification of the transmission of the movement of the spindle on the contact lever according to the type of deformation customized.

Claims (6)

Electrical switching device, with a contact lever ( 13 ), which is rotatably mounted approximately centrally, wherein at the free end of the first arm ( 15 ) a movable contact piece ( 12 ) and the free end of the second arm ( 16 ) with a rotatable switch knob ( 22 ), characterized in that at the free end of the first arm ( 15 ) a contact pressure spring ( 18 ) approximately in the direction of the longitudinal extent of the contact lever ( 13 ) and that an actuator ( 19 ) provided in the region between the axis of rotation ( 14 ) of the contact lever ( 13 ) and the movable contact piece ( 16 ) on the contact lever ( 13 ) acts in the direction of switching off and, if necessary, with the movable contact lever ( 13 ) or - the movable contact piece ( 16 ) is mechanically coupled. Electrical switching device, characterized in that the switching knob ( 22 ) a first actuating arm ( 26 ) is formed with a first length, against which the free end of the second arm ( 16 ) of the contact lever ( 13 ) is present in the switched-on state. Electrical switching device according to claim 1 or 2, characterized in that the switch knob ( 22 ) a second actuating arm ( 27 ) with a second, relative to the first actuating arm ( 26 ) shorter length, wherein the second actuating arm ( 27 ) in a direction about a parallel to the axis of rotation of the switch knob ( 22 ) extending axis movable on the switch knob ( 22 ) angeord net, which is opposite to the turn-off direction of the switch knob ( 22 ). Electrical switching device according to one of the preceding claims, characterized in that the trigger ( 18 ) as an actuator a triggering element ( 19 ) formed of a material which changes its shape under the influence of an electromagnetic, preferably its length. Electrical switching device according to one of the preceding claims, characterized in that parallel to the contact lever, a conductor section ( 43 ) is provided, which in closed position at one end with the contact lever ( 13 ) electrically and the other end with the coil ( 20 ), so that through the conductor ( 43 ) and the contact lever, a U-shaped current loop is generated, which upon the occurrence of a high short-circuit current, a force on the contact lever ( 13 ) generates, which acts on this in the Ausschalttrichtung. Electrical switching device according to claim 5, characterized in that the additional conductor section ( 43 ) with the fixed contact piece ( 11 ) the contact point ( 10 ) and parallel to the contact lever in ( 13 ) extends in the direction of the axis of rotation.