DE2718375C2 - Release mechanism - Google Patents

Description

55

The invention relates to a release device according to the preamble of claim 1.

Such a trigger device is z. B. became known from DE-PS 23 07 094. This known design has a stationary magnetic release with a strike armature that can be actuated when energized. The triggering by such a drop armature is dependent on a correspondingly high overcurrent and a current rise of a certain steepness. Sometimes, however, the elimination of Schaltgcrätes is required even under such conditions, which are not sufficient for the elimination of this release with impact armature f>^r> so that the shutter button does not respond and rla <Schaltgerat thus can not be turned off.

Through the magazine "ETZ-B", volume H. (1962), Issue 19, pp. 537-539, a switch has become known which, in addition to its electromagnetic armature release for short-circuit currents contains an electrodynamic release device as an additional module. This additional trigger works with an electrodynamic external trigger, in which the so-called Thomson effect is exploited. This trip unit contains a control part, a coil and one with a locking plunger provided ring. In the event of a pulsed current in the fixed coil, the tight magnetic Coupling between coil and ring generates a high force that repels the ring a desired short duration of the contact piece opening an arrangement can be selected that the contact without Intermediate contact hits directly. The well-known additional trigger can, for. B. by a capacitor battery be fed. The release can either work with an external release that can release but can also be made dependent on the increase in electricity.

Finally, from DE-AS 24 54 983 a circuit breaker has become known, its as a plunger trained impact armature, except on the latch of the switch lock, directly on a movable contact piece acts and arranged in the plunger coil a core piece for the magnetic return path This core piece is designed as a further plunger anchor towards the drop anchor is movable

The invention is based on the object of designing the release device mentioned at the beginning in such a way that that an air gap provided between the core and armature increases compared to known types small, a quick unlocking of the switching mechanism causing trigger values can be set and that an increase in the working stroke is also made possible. This task is characterized by the Features of claim i solved.

This ensures that the release device according to the invention can be adjusted to such values and triggers at values at which the usual flap armature magnets with fixed core and movable Impact anchor not yet able to address. At the same time is also in the design according to the invention the impact anchor effect is present. This is achieved by having the core with the coil after the armature after passing through the air gap has caused the key switch to be unlatched, in the direction of movement of the Armature can oscillate and thus the core, the coil and the knuckle in the same way as a known drop anchor support the opening process of the movable contact lever. It will so the kinetic energy of the armature is still partially transferred to the movable contact lever.

An advantageous embodiment is achieved in that · the core with the coil via a core lever which also engages the spring, and the armature via an armature lever at a common stationary pivot point are pivotably mounted that the pivotable electromagnet in addition to a stationary trigger is provided with a movable impact armature and that the armature lever directly on Verklinkungsniijchanismus attacks. This results in a design with a customary release with a strike anchor, in which, in addition, a rotatable release device for small release values is provided. The additional outlet device can be externally fed and one with i-lilfc additional sensor has been set so that the

The tripping magnet already responds under other conditions than the usually provided electromagnetic release with impact armature. The common one The pivot point between the armature lever and the core lever enables a simple structure. The rotation takes place clockwise in the present embodiment.

Further useful refinements of the invention can be found in the subclaims.

In the drawing, an embodiment of the object according to the invention is schematically shown

A designated 1, movable contact lever is pivotally mounted at a fixed point 2 and is in the closed state of the switching device with its contact piece 3 on a stationary mating contact piece 4. The required contact force is applied by a spring 5. The contact lever 1 supports also have an angle lever 6, which is in a Pivot point 7 is rotatably mounted at a latching point 8 from. This is formed by the angle lever 6 and a pivotable lever 9, which is in the Point 2 is mounted The lever 9 is supported by a spring

10 held in the position shown. On the e ^; ne end

11 of the lever 9, an impact anchor 12 acts when responding in the direction of an arrow 12.1. Of the The pivot point 7 of the angle lever 6 is attached to one arm of an angle lever 13, which is at a point 14 The other arm of the angle lever is fixed in place 13 is supported on a half-wave 15, which is triggered when triggered by hand or by an undervoltage release is rotated. On the movable contact lever 1, a stop 16 is provided through which the of the impact armature 12 on the lever 9 transmitted force to the movable contact piece 15. Before the lever 9 with its end 11 on the < Stop 16 strikes and causes a separation of the contact pieces, the latching point 8 has been released, and the Winkelhebei 6 can rotate around the pivot point 7 counterclockwise, so that the impact anchor

12 applied to the contact lever 1 force only for

Serves acceleration of the masses.

An additional electromagnet consists of a core 18, a coil 19 and an armature 20. The armature 20 is firmly connected to an armature lever 21 and is pivotably mounted at the fixed point 22. Of the Armature lever 21 comprises with its lever end 23 a pin 24 which is seated on the end 11 of the lever 9. Under The lever end 23 of the armature lever 21 rests on the impact armature 12 due to the action of a spring 25. At the

ίο stationary point 22 is also a core lever 26 pivotally mounted, which is connected to the core 18 of the electromagnet, which also the coil «; 19th This core lever 26 is under the action of a spring 27 on a fixed, but adjustable stop 28 at. The adjustability of the stop is indicated by a screw 29. When the magnetization responds of the additional magnet 18, 20, e.g. B. by a capacitor discharge, the armature 20 of the Core 18 is tightened and the armature lever 21 moves around the fixed point 22 clockwise. So that will through the Hibelende 23 over the pin 24 the end 11 in the sense of a switch latch 'pivoted. In order to utilize the kinetic energy of the armature 20, can when the armature 20 hits the core 18, the entire magnet around the fixed point 22 against the Turn the action of the spring 27, and after performing the Ent'.ünkung at the latching point 8, the Energy via the end 11 of the lever 9 to the movable contact lever 1 in the sense of an opening be passed on. The setting of the stop 28 is the response point of the electromagnet 18, 19, 20 largely adjustable. Through an external supply, for example through a capacitor discharge, the release device can respond at any time as soon as a sensor is set differently can be called the usual trigger that gives a corresponding signal. So is practically to anyone At this point, the switching device can be switched off extremely quickly.

1 sheet of drawings

Claims (6)

Patent claims: 1. Release device for a latched switchgear with an electromagnet, the armature of which when a specified excitation current is exceeded is attracted and using its kinetic energy as an actuating force on the one hand actuated the latching mechanism and on the other hand on a movable contact arm in the In the sense of a contact opening acts as a drop anchor, characterized in that the Core (18) with its coil (19) at rest against an adjustable stationary stop (28) is fixed in the direction of the armature (20) by a spring (27) so that the core (18) with the coil (19) in Movement direction of the armature (20) against the force of the spring (27) can evade. 2. Tripping device according to claim 1, characterized in that the core (18) with coil (19) via a core lever (26) on which the spring (27) also engages, and the armature (20) via a Ankerhebei (21) are pivotally mounted on a common, fixed pivot point (22) that the pivotable electromagnet (18, 19, 20) in addition to a stationary trigger with movable Impact anchor (12) is provided and that the anchor lever (21) directly on the latching mechanism (24,11) attacks 3. Tripping device according to one of claims 1 or 2, characterized in that the Armature lever (21) with its end (23) which engages around a pin (24) of a release lever (9) below the action of a spring (25) rests on the impact armature (12) without its triggering effect hinder. 4. Tripping device according to one of claims 1 to 3, characterized in that the core (18) and the armature (20) of the electromagnet are E-shaped. 5. Triggering device according to one of claims 1 to 4, characterized in that for the Magnetization of the electromagnet (18, 19, 20) a capacitor discharge device is provided is. 6. Release device according to one of claims 1 to 5, characterized by such a Coordination of anchor and core mass that the mass of the armature (20) is at least equal or is greater than the mass of the core (18). 50