DE944504C - Overcurrent release - Google Patents

Description

Overcurrent release The invention relates to an overcurrent release with time-delayed overcurrent release and with quick release in the event of a short circuit with separate anchors for each of these two trips.

Such overcurrent release devices are known per se; in particular devices have been proposed which are intended for installation in pipes, which can lead to high short-circuit currents and with which there is a risk of that the relatively tightly dimensioned devices are destroyed in the event of a short circuit will. So is z. B. an overcurrent release is known in which one armature is a carrier The armature is that of the second armature in the event of a short circuit due to its premature tightening is locked so. because: ß he cannot put on himself.

The invention is based on the object of an overcurrent release to create the power menu solution and short-circuit release in one device compact design combined and preferably has a core that can be pushed through a single conductor (copper bar) is formed.

The invention is based on mercury releases with two separate armatures for overcurrent release and short-circuit release, one of which is an anchor, the so-called short-circuit armature, triggers instantaneously at a specified short-circuit current, the other anchor, the so-called @ anne trans.trom anchor, with one between. set Limits adjustable overcurrent triggers delayed in adjustable time, and exists essentially in the fact that the overcurrent armature via a mechanical.Hemmwerk so - Acts on the short-circuit armature that its release spring also adls energy storage drive for the over-office release.

The overcurrent release is activated after both a short-circuit and automatically locked after an overcurrent trip.

The drawing shows in Fig. I the basic structure of the new Übersitrom.auslösers again; FinG: Fig. 2 is a front view of an embodiment of the overcurrent release according to the invention; Fig. 3 shows a section along line AB, Fig. Q. a. Section along line CD in FIG. 2. In FIG. 1, a spatial separation of the magnet yokes and the armature has been made for reasons of clarity. In reality, the short-circuit armature and the overcurrent armature are located directly next to one another and are excited by a common magnet, which preferably has the shape of a U-shaped core. The springs are shown in Fig. I as tension springs. In the design of the device, there are tension, compression or torsion springs (winding bending fields), depending on their expediency. The short-circuit anchor is denoted by i and the overstretch anchor is denoted by 2. 3 - is the inhibitor, q. the release button and 5 the firing pin to operate an automatic switch or other power switch.

The mode of operation of the overcurrent release according to the invention is now. the following: i. Time-delayed overcurrent release In the event of an overcurrent that occurs in a Multiples of the rated current at the overcurrent: releases are rarely set, will the overcurrent armature is tightened and tensioned. Spring 6. The armature 2 moves - So in the schematic representation according to Fig. i downwards, the spring tensions 6 and leaves the lever 7 in accordance with the time delay set on the escapement 3 .to move on the ratchet lever 8. The ratchet lever in turn is thereby rotated around the axis of the half shaft 9 as a fulcrum, so that the release lever io is released and .nunmore the short-circuit armature i via the energy storage spring i i fit downwards. The short-term slimmer is now due to the chosen points of attack of energy storage spring and readout lever, moved downwards at the same time, so that the release via the Sch-hunting bolt drive 5 comes about. Of crucial The importance is here the fact that after releasing the pawl overlap, the release lever io as a result of the force storage Fedex ii via a pressure roller or pressure point 12 against pushes the short-circuit armature and moves it in the working direction of the firing pin.

As a result of the return spring of the short-circuit armature, which now works as a force storage spring, the release lever io receives a torque which is transmitted to the Kurz's.ch: short-circuit armature by means of a suitable translation. According to the invention, the spring is arranged in such a way that, on the one hand, it generates a clockwise torque (Rüddiolmoment) of a specific size on the short-circuit armature. If the spring zi loses its suspension as it were due to the rotation of the release lever, @so the same spring gives a torque (energy storage moment) at the released suspension point via the pressure point i2, corresponding to the length of the lever arm. The arrangement is such that this energy storage moment is transmitted to the armature, for example in the ratio i: i; d. ih., due to the inventive design of the kinematics of the lever drive: at this moment, in addition to the original, clockwise torque (return torque), a counterclockwise torque of a larger amount takes effect at,; so that, si.'eh. the. Anchor must move in accordance with the difference between these two moments. (Impact torque) Loosen the excitation of overcurrent magnet according to or hones on completely, then the practicing current armature moves under serving influence of the return spring 1 3 upwards again, taking with this movement the lever 7 and brings the: Hemmwerk again in Arbeitsbereitsichaft. The short-circuit ankar, on the other hand, remains in. the release position until it is brought back to its starting position by pressing down the release button. This makes the overcurrent release ready for operation again. -2. Short-circuit quick release In the event of a short-circuit, both armatures are momentarily attracted. The Kurzsch.lussänker actuates the triggering of the circuit breaker, circuit breaker, contactor via the firing pin. or the like. Here, the short-circuit anchor strikes at pressure point 1q. against the ratchet lever 8, which rotates around the axis of the half-shaft 9 as a fulcrum and lifts the release, as previously described under "Time-delayed override current release" releases. By pressing the unlocking button q. the short-circuit terminal returns to its starting position and the overcurrent release is ready for operation.

The new overcurrent release according to the invention combines two triggering devices, which were otherwise larger and generally arranged separately from one another, in one fifty devices more compact. Design that is cheaper, safer and easier works as the previous over-current release and has extremely small spreads at the delay tents to be set. having. The time setting and the Overcurrent control, telephoning, and control are clearly arranged at directly adjacent to each other Place. of the trigger.

In the housing 3 is the escapement for the to be set Delay Time. It is designed so that the changes in the running time of a pinion can be rolled up steplessly. It is essential that the end of the Duration of the escapement according to a further idea of the invention by interruption, the flow of force takes place on a pawl without: ß the teeth of the gear drive disengaging. The change in the running time of the pinion is preferably carried out by one to the Center of the escapement centric: arranged eccentric ring.

The controls for the overcurrent setting are through a continuous Milttelbohrung led in the escapement. The over, tromeinstel.lung takes place by rotating the housing 15, which changes the bias of the Release spring for the time release. To accumulate the delay time or the overcurrent, a knurled, bead-like edge is used on each of the two: Housing 3 or z5.

Claims (3)

PATENT CLAIMS: i. Overcurrent release with time-delayed overcurrent release and instantaneous short-circuit; tripping with separate armatures for each of these two Trips, characterized in that the overcurrent armature has a mechanical Inhibitor for setting the time delay acts on the short steel nut anchor, that its: return spring also acts as a force storage spring for the overflow valve solution works. 2. Overcurrent release according to claim i, characterized in that the two Anchors are right next to each other - and that a common one for their attraction Core . (M.agnet) serves. 3. Overcurrent release according to claim i and 2, characterized in that because the magnet consists of a laminated core that contains an electrical conductor (e. B. a copper bar) encloses. 4 .. overflow mousse according to claim. i to 3, characterized in that the common magnet is in the form of a U-shaped core Has. 5. Overcurrent release: solver according to claim i to q., Characterized by a lever mechanism for the interaction of the two anchors, which allows the direction of the Torque of the triggering effect. Anchor through one's own or someone else's. Influence to reverse at one or more specified points. 6. - Überstromau: slöser according to claim 5, characterized in that the lever mechanism consists of a ratchet lever and an Au: release lever, which work together so that the ratchet lever at rotation around the axis of a half-wave releases the release lever, which thereby . Moves the short-circuit armature downwards via its energy storage spring. 7. Overburdening malfunction according to claim i to 6, characterized by an unlocking button through the the release lever is returned to its original position and the short-circuit armature returns to the rest position. B. overcurrent release; it according to claim a to 7, characterized characterized in that an adjustable Haalbwele for locking the release lever serves. 9. Overcurrent release according to claims i to 8, characterized in that the delay time of the escapement by changing the running time of a pinion continuously adjusted, verden. zo. Overcurrent release according to claims i to 9, characterized in that the end of the running time of the inhibitor by interruption of the power flow on a pawl takes place without the teeth of the gear drive except Intervention come. i i. Overcurrent release according to claims i to io, characterized in that that the change in the running time of the pinion through one to the center of the escapement centrically arranged Angel. Eccentric ring takes place. 12. Overcurrent release nutritious i to i i, characterized in that the escapement has a continuous central bore has through which the controls for overcurrent setting are guided. 13. Overcurrent release according to claim i to 12, characterized in that the setting , the tripping current takes place via an eccentric disk, which the bias of the The return spring of the time-delayed overcurrent armature changes. 1q .. overcurrent release According to claims i to 13, .dadwrah characterized that the scales for the overcurrent release and the time delay on adjacent housings directly on the overcurrent release are attached.