DE102004044977A1 - Trip relay for e.g. residual current circuit breaker, has magnetic device and coil spring arranged within housing, where spring is directly fastened to components, such that torque remains constant, during rotation of components - Google Patents

Abstract

The relay has a magnetic device for actuating a switching latch of a circuit breaker, and a housing (1) surrounding the magnetic device. Rotary components are supported in the housing. A coil spring (7) operating against the magnetic device is arranged within the housing. The spring is directly fastened to the rotary components, such that torque remains constant, during the rotation of the rotary components.

Description

The The present invention relates to a trigger relay device for a Residual current circuit breaker comprising a magnetic device for actuating a Switch lock of the circuit breaker, a housing containing the magnetic device encloses a rotary component received in the housing from a first rotational position rotatably mounted in a second rotational position and of the magnetic device actuated is, and one of the magnetic device counteracting triggering energy storage, which is arranged on a rotary component so that a through it generated torque during a rotation of the rotary component remains substantially constant.

tripping relay serve as components of residual current circuit breakers in addition an occurring fault current flow, a voltage signal in a mechanical To transform movement. The mechanical movement can be For example, to act on the rotation of a lever, which against presses a release lever and thus changes a switching position of a switching mechanism.

Around a big enough one Force on the release lever of the trip relay transferred to, this is arranged on a rotary component. Close to the rotary component Also arranged is a permanent magnet, which is based on parts of the rotary component exercises an attraction. The counteracts a spring, which in its spring constant so chosen is that the force that it directs on the rotational component is insufficient to make the rotational component against the force of the permanent magnet to turn out of their basic position. Only about a weakening of the Magnetic field can be the force transfer on the release lever of the trip relay kick off.

To This purpose is the fault current through a coil, which part the magnetic device of the trip relay is, directed. The generated magnetic field acts on the field of Opposed to permanent magnets. Will the field of the permanent magnet through the above attenuated the current flow through the coil induced field so far that it can no longer hold the rotational component in the basic position, Thus, the rotary component is rotated by the arranged on her spring. The rotary component performs while a rotary motion from its basic position out in a maximum deflection. The release lever arranged on this rotary component can thus have a function fulfill, For example, move a switch lock to the OFF position.

However, a magnet system with its pole faces used for a trip relay for the purpose already described is extremely susceptible to contamination in its operation. It is therefore important that contamination of the pole faces is prevented by a suitable housing. In the publication CH 538 189 Such a housing with the magnetic device arranged therein is described. The trigger relay described therein transmits the rotational movement of the armature holder by a shaft rotatably mounted in the housing to the outside on a driver. At this driver a coil spring is mounted as a release energy storage. The triggering force accumulator is also attached to the housing so that the distance of the line of action of the triggering force memory of the axis of rotation of the driver when rotating the driver in the triggering direction and triggering the switching mechanism is increased by increasing the torque transmitted to the driver. The release relay presented there requires a very labor-intensive installation due to the possibly subsequently to be clamped spring and the precautions against possible damage.

In addition, from the document EP 0 829 896 A2 a magnetic release for a residual current circuit breaker is known, which has a magnet fed by a permanent magnet, magnetic circuit having a U-shaped yoke and loaded with a prestressed spring element anchor. The movement of the armature is transferred by a plunger to a switch lock.

The Object of the present invention is therefore a Residual current circuit breaker to develop, its tripping relay a low magnetic release force has and its trigger member Nevertheless, it is capable of triggering the switch lock the on the Entklinkungsmechanismus acting force with sufficient To overcome security.

According to the invention this object is achieved by a trigger relay device for a circuit breaker, in particular a residual current circuit breaker comprising a magnetic device for actuating a switching mechanism of the circuit breaker, a housing which surrounds the magnetic device, a rotary component which rotates in the housing from a first rotational position to a second rotational position stored and actuated by the magnetic device, and a counteracting the magnetic device Auslösekraftspeicher, which is arranged on a rotary component so that a torque generated by it during a rotation of the rotary component substantially remains constant, wherein the rotary component is rotatably mounted on a rigid relative to the housing bolt, the triggering force memory is attached directly to the rotary component and a plunger is disposed in the housing and so cooperates with the rotary component, that it during a rotation of the rotary component of the Housing for direct action on the switch lock is partially pushed out.

Thus, according to the invention to dispense with a complex driver, with the unlatching lever the switching mechanism cooperates. Besides, with the rotary component no shaft be rotated, which saves power who can. Furthermore the torque and thus the force transmitted by the plunger is kept constant.

Preferably the rotary component is an anchor holder that holds the armature of the magnetic device. Consequently can the force of the release force memory or the magnet device transferred directly from the anchor holder via the plunger to a Entklinkungshebel become.

Of the Anchor holder may be integrally formed. In particular he can be manufactured as sheet metal stamping. Thus, it is easy to manufacture and on additional necessary components such as anchor compensation element and the like can be dispensed with.

Furthermore can the trigger force memory in the case be arranged. Thus can be the triggering force memory with the same protective housing like the magnetic device from dust and other damages protected become. There is thus no additional cost and the Construction becomes more compact. For this reason, also the Installation of the trip relay much less labor intensive, as an afterthought Install the release force accumulator or the spring device to the protective housing with the arranged therein Magnetic device no longer necessary is.

Of Furthermore, the triggering force memory a Include coil spring. Such springs are sturdy and inexpensive in the production. In a preferred embodiment, the triggering force memory also on the housing or the magnetic device attached.

Furthermore the magnetic device can at least one permanent magnet and comprise at least one coil with inducible magnetic field and the magnetic field of the permanent magnet through which a current flow through the coil induced magnetic field to be reducible. This ensures that that one over a long time constant magnetic field over a low current flow through the coil quickly and reliably can be varied.

In addition, can the rotation component in the absence of current flow through the coil over the Field of the permanent magnet against the force of at least one Spring of the spring device to be rotatable in the first position. Consequently will ensure that the armature securely held in the de-energized state of the magnet device becomes.

The The present invention will now be described in detail with reference to the accompanying drawings, in which: show:

1 an inventive trip relay in ON position;

2 an inventive trip relay in the OFF position; and

3 an inventive trip relay and a switch lock in the ON position.

The below described embodiment represents a preferred embodiment of present invention.

In 1 is an inventive release relay for a residual current circuit breaker to see in cross section. Inside the case 1 there is a magnetic device 2 including permanent magnet and exciting coil 3 , Also visible is a rotary component comprising an anchor holder 4 , one on the pole faces of the magnet device 2 resting anchor 5 and a substantially perpendicular to the anchor holder 4 arranged legs 9 with a spring suspension 10 , About a wave 6 are anchor holders 4 , Anchor 5 and thighs 9 connected to the housing so that together they rotate about the axis of rotation 15 can perform the anchor holder. At the spring suspension 10 of the thigh 9 is a trigger of the 7 hinged, which at the other end over a pin 11 with the housing 1 connected is. On the anchor holder 4 rests as a sliding element a plunger 8th which is displaceable in its position upwards, or in the direction out of the housing.

The from an anchor holder 4, the anchor 5 and the thigh 9 formed rotary component is in 1 in their ON position, or recognize their basic position. Through the exciter coil 3 no current flows and the only magnetic field inside the housing 1 is that of the permanent magnet, the part of the magnetic device 2 is. Because of this Field is constant over a long period of time, also becomes the rotary component of anchor holder 4 , Anchor 5 and thighs 9 kept constant in the basic position by the magnetic attraction. The magnetic force on the pole faces, which keeps the rotational component against the spring force in its basic position, can be greatly influenced by dirt on the pole faces. Therefore, it is important to protect this system and thus its anchor and pole faces in the open position against contamination.

For this purpose, a suitable housing is suitable 1 , As in 1 shown is the plunger 8th inserted into the housing so that dust ingress can be avoided. This housing meet 1 and pestles 8th this necessary condition to ensure proper operation of the trip relay.

It is also important that the spring suspension 10 of the thigh 9 arranged release spring 7 is chosen in its spring constant so that the force exerted by it on the rotational component is smaller than the attraction force of the permanent magnet. This prevents a misalignment of the rotary component and thus a malfunction of the tripping relay if no fault current signal is present.

According to the invention, the release spring is also disposed within the housing, as in 1 can be seen. This ensures that the release spring 7 does not lose its spring tension due to damage. Since it is not necessary with this arrangement, the release spring 7 can be installed later, can also damage the trip spring 7 be excluded during the installation process.

The operation of the release relay will be explained in more detail below. If there is a fault current, then the exciter coil 3 passed a tripping current. Due to this current flow through the exciter coil 3 a magnetic field is generated which is that of the permanent magnet 2 is opposite. The magnetic attraction on the anchor 5 is thus attenuated. The force of the spring tension of the release spring 7 on the rotary component continues to act. If the attraction of the magnetic device is reduced so that it is smaller than that of the release spring 7 applied force, so lead anchor holder 4 , Anchor 5 and thighs 9 together a rotational movement about the axis of rotation 15 the anchor holder 4 out. The rotational component then rotates from the home position to a maximum deflection as in 2 is shown, ie from the ON position to the OFF position. The one on the anchor holder 4 resting pestles 8th is thereby shifted out of the housing or upwards.

In 3 is a trip relay to see within a switch lock. At the pestle 8th arranged is a unlatching lever 12 that during a displacement of the plunger 8th is also moved in his position. The movement of the unlatching lever makes it possible to use a switching mechanism 14 to switch to the OFF position.

It follows that according to the state of the art also in the ON state on the anchor 5 the trigger relay acting magnetic holding force of the permanent magnet 2 must be high and therefore that of the exciter coil 3 feed power to release the armature 5 necessary, must also be big.

During the turning process depends on the ram 8th transmitted force from the torque, which by the release spring 7 is exerted on the rotational component. For this purpose it is advantageous to use the release spring 7 inside the case 1 to arrange that by the spring force on the thigh 9 applied torque during rotation of leg 9 , Anchor holder 4 and anchor 5 from the ground state remains substantially constant in a maximum deflection.

The energy storage of the trip relay is characterized in that the distance of the line of action 16 of the energy storage of the rotation axis 15 the anchor holder 4 when turning the anchor holder 4 increased from the ON position to the OFF position. Like from the pictures 1 and 2 As can be seen, the distance a2 is the line of action 16 the trigger spring 7 considerably larger than the distance a1. Of additional benefit is the release spring 7 to be dimensioned so that their length changes only slightly during the rotation of the rotary component and thus little spring force is lost.

Due to the almost constant torque, exerted by the release spring 7 on the rotational component, and the resulting force on the plunger 8th During the rotation of the rotary component from the ON position to the OFF position, the magnetic holding force of the permanent magnet in the magnetic device 2 be reduced in the ON state. This means, on the one hand, that in contrast to the linearly sloping torque curves and correspondingly decreasing ram forces according to the prior art, the material cross sections of the soft magnetic parts can be reduced. In addition, by reducing the magnetic holding force of the magnetic device 2 Also, a smaller triggering power is needed to power the system through the exciter coil 3 trigger. This also ensures new possibilities when choosing a pas send exciting coil 3 , Trigger relays with the same design as in the prior art but with better mechanical design are thus possible Action levels.

Claims (8)

Trigger relay device for a circuit breaker, in particular a residual current circuit breaker comprising - a magnetic device ( 2 . 3 ) for actuating a switching mechanism ( 14 ) of the circuit breaker, - a housing ( 1 ), which the magnetic device ( 2 . 3 ), - a rotary component ( 4 . 5 . 9 ) rotatably supported in the housing from a first rotational position to a second rotational position and actuable by the magnetic device, and - one of the magnetic devices ( 2 . 3 ) counteracting triggering force memory ( 7 ), characterized in that - the triggering force memory ( 7 ) on a rotary component ( 4 . 5 . 9 ) is arranged so that a torque generated by it during a rotation of the rotary component ( 4 . 5 . 9 ) remains substantially constant, - the rotational component ( 4 . 5 . 9 ) on one opposite the housing ( 1 ) rigid bolt is rotatably mounted, - the triggering force memory directly to the rotary component ( 4 . 5 . 9 ) and - a pestle ( 8th ) in the housing ( 1 ) is arranged and so with the rotary component ( 4 . 5 . 9 ) cooperates in one of the rotation of the rotary component ( 4 . 5 . 9 ) out of the housing ( 1 ) for direct action on the switching mechanism ( 14 ) is partially pushed out. A trigger relay device according to claim 1, wherein the rotary component ( 4 . 5 . 9 ) is an anchor holder. Trip relay device according to claim 2, wherein the anchor holder is integrally formed. Triggering relay device according to one of the preceding claims, wherein the triggering force accumulator ( 7 ) in the housing ( 1 ) is arranged. Triggering relay device according to one of the preceding claims, wherein the triggering force accumulator ( 7 ) comprises a coil spring. Triggering relay device according to one of the preceding claims, wherein the triggering force accumulator ( 7 ) continue to the housing ( 1 ) or the magnetic device is attached. Triggering relay device according to one of the preceding claims, wherein the magnetic device ( 2 . 3 ) at least one permanent magnet ( 2 ) and at least one coil ( 3 ) with inducible magnetic field and the magnetic field of the permanent magnet ( 2 ) by a current flow through the coil ( 3 ) induced magnetic field is reducible. A trigger relay device according to claim 7, wherein the rotary component ( 4 . 5 . 9 ) in the absence of current flow through the coil ( 3 ) over the field of the permanent magnet ( 2 ) against the force of the triggering force memory ( 7 ) is rotatable in the first position.