DE519464C - Thermally acting three-phase current release device for overcurrent switch - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
FEBRUARY 28, 1931

REICH PATENT OFFICE

PATENT LETTERING

JVl 519464 CLASS 21c GROUP

Patented in the German Empire on April 1, 1930

The invention relates to a thermally acting three-phase release device for overcurrent switches that trigger the switch when the load is uneven brings. Their essence consists in that of two components, which are opposed under the influence directed forces stand, with uniform expansion the trigger of one component according to the expansion distance the influence of the force acting on him released by the trigger and the other Component according to its expansion path by the trigger against the one acting on it Force is shifted so that the two components do not perform any relative movement, whereas in the case of uneven stretching of the trigger, one component is held in place by one of the triggers and itself only the other component can move, so that a relative movement between them takes place.

The drawings show exemplary embodiments of the invention schematically.

Fig. Ι is a circuit diagram of a and

Fig. 2 is a plan view of a second embodiment.

Compensation devices are shown diagrammatically in FIGS. 3 and 4, which are intended for the embodiment of FIG.

FIG. 5 diagrammatically illustrates a change made to that shown in FIG. 1 Embodiment can be made, and

6 shows a third exemplary embodiment graphically.

According to Fig. 1, the bar I is under the influence of the force of the spring 1, which tends to pull the bar to the right. The bar II is under the influence of the spring 2, which tries to pull this bar to the left zix. The bar I is provided with the incisions Ia, Ib, Ic and the bar II with the incisions Ha, Hb, Hc. As can be seen from the figure, the incisions Ia, Ib, Ic are offset from the incisions Ha, Hb, lic. The bimetallic spring IHa is located in the incisions Ia, Ha, the bimetallic spring HIb is located in the incisions Ib, Hb, and the bimetallic spring IIIc is located in the incisions Ic, lic. The contact piece 3, which touches the contact piece 4 which is attached to the bar I, is fastened to the bar II. The two contact pieces 3 and 4 close a closed circuit, such as the circuit of a zero voltage coil. The switch lock is opened by interrupting this circuit. As long as the load is symmetrical, the bimetal strips IHa, IHb, IIIc expand evenly. The component I

*) The patent seeker stated as the inventor:

Ernst Besag in Baden-Baden.

is consequently the influence of the spring force acting on it corresponding to the Extension distance of the trigger HIa, IHb, IHc released so that it is to the right shifts. The component II is triggered by the Hlaj IHb, IHc according to their Extension path longitudinally displaced against the force of spring 2 to the right. at With symmetrical loading, there is therefore no relative movement between the components I and II, and the contact of the contact pieces 3, 4 remains closed. With uneven Elongation of the release IHa, IHb, HIc, component I is caused by the release, who covers a shorter stretching distance than the others. Only component II shifts according to the bending of the most heated one Trigger to the right. As a result, there is one between components I and II Relative movement instead, the circuit of the contact pieces 3, 4 is opened, and the Switch responds.

In the exemplary embodiment according to FIG. 2 the two plates I and II can be rotated about axis 5. The plate I is under the Influence of a force that tries to turn it counterclockwise. On the other hand the plate II is under the influence of a force which tends to move it clockwise to turn. The plate I is provided with the incisions Ia, Ib, Ic, the plate II with the incisions Ha, Hb, lic. In the incisions Ia, Ua is the bimetallic strip HIa, in the incisions Ib, Hb the bimetal strip, HIb, in the incisions Ic, Hc of the bimetal strips IIIc. A radial extension Id is on plate I and a radial extension is on plate II Hd provided. Both processes cover each other. The contact pieces 3, 4, the close a closed circuit, through the interruption of which the opening of the switch lock is brought about, are on leaf springs attached, which press the contact pieces together. If all phases are equally loaded, the triggers IHa expand, IHb, IHc evenly and move the plate II against the force, under their Influence it stands, counter-clockwise. Plate I follows under the influence the force acting on them of the rotational movement of the plate II. Since the plates I, H do not perform a relative rotation, the radial extensions Id, Hd rotate together, and As a result, the circuit of the contact pieces 3, 4 remains closed. With uneven The plate I cannot follow the rotational movement of the plate II under load, so that the extension Hd interrupts the circuit of the contact pieces 3, 4.

Instead of using a closed circuit to open the switch lock, you could just as well use a working circuit for this purpose.

Of course, three-phase switches must not only be used for uneven loads, but also respond in the event of overload. To meet this requirement, is in the embodiments according to FIGS. ι and 2 in the path of component I an adjustable Stop 6 is provided, which limits the displacement of this component, so that when the component I hit on the A relative movement takes place between the components I and II. When occurring an overcurrent of impermissible strength and duration can occur after covering a by the position of the stop determined route only the component II, but not the Move component I further so that, even if the load is symmetrical, the Circuit of the contact pieces 3.4 interrupted and the switch is made to respond.

According to the invention, in order to trigger the change in room temperature in the event of too low or too high currents, either on the stop 6 or on the component I, the the displacement path is limited by the stop, an expansion body is attached, which expands under the influence of temperature to the same extent as the electrically heated Trigger IHa, IHb, IIIc.

According to FIG. 3, the bimetallic strip is on the stop screw 6 for component I. 7 attached, which lies to the right with increasing room temperature, so that the trigger distance is increased by the same amount too that it is due to the room temperature Deflection of the triggers IHa, HIb, HIc has decreased. . According to FIG. 4, the bimetal strip 7 is attached not to the stop 6, but to the component I, and it bends under the influence the room temperature not to the right, but to the left.

FIG. 5 shows a device which enables the switch lock held elec- H ₀ trischem to open in a purely mechanical way. The link S _1, a leaf spring, is supported on components I and II. The leaf spring 8 is fastened to the component II by screws and, as a result of the elastic force inherent in it, tends to snap downwards, but cannot do so as long as it is removed from the component! is supported. If a relative movement occurs between components I and II, which is caused either by an uneven load or by a uniform, but excessive load

is dingt, the leaf spring S slides from the bar I and pushes the pawl 9 downwards. By moving the pawl 9, the lock of the switch is opened and the endangered circuit is interrupted as a result.

According to Fig. 6, the bar I lies on the parallel expansion wires IHa, IHb, IHc. You will be on these wires under the

to the influence of gravity, to which spring forces can still come, depressed. the Bar II is located under the expansion wires and is held by the spring 2, which is attached to the bar I or can be attached to a fixed point, pressed against the wires. With an even load, the wires expand evenly, and the components I and II move downwards together until the bar I hits against the stop 6 and the circuit of the Contact pieces 3, 4 is opened. If the wires IHa, IHb, IHc the bar II is pressed downwards by it against the force of the spring 2, but the bar I cannot follow it, but remains in the position that goes through the least bent wire is determined. As a result, the circuit will the contact piece ^ 3, 4 open.

Claims (6)

Patent claims: ι. Thermally acting three-phase tripping device for overcurrent switches, which causes the switch to respond in the event of uneven load, characterized by two components (I, II) which are under the influence of opposing forces (i, 2) , of which the release (IHa, HIb, IIIc) the one component (I) according to the stretching distance to the influence of the force acting on it (1) released by the release and the other component (II) according to its stretching distance by the release against the force acting on it. (2) is shifted so that the two components do not move relative to each other. whereas in the case of uneven stretching, the trigger of one component (I) is held by one of the triggers and only the other component (H) moves can, so that a relative movement takes place between them. 2. Three-phase trip device according to claim i, characterized by an adjustable stop (6) which limits the path of one component (I) so that when this component hits the stop, a relative movement between the two components (I, II) takes place. 3. Three-phase trip device according to claim 1 and 2, characterized in that either on the stop (6) or on the component (I) whose path is limited by the stop, an expansion body (7) is attached, which is under the influence of Temperature expands to the same extent as the triggers CIIIa, IIIb, IIIc). 4. Three-phase release device according to claim 1, characterized in that the two components (I, II) by longitudinally displaceable Bars or rotatable plates are formed which are provided with incisions (Ia, Ib, Ic, Ha, lib, lic) in which are electrically heated bimetal springs (Ilia, IHb, IIIc). 5. rotary current release device according to claim 1, characterized in that the two components (I, II) are formed by strips, one of which has three parallel expansion wires (Ilia, HIb, IIIc) and pressed down on them whereas the other bar (II) is under the expansion wires and is pressed against them in the opposite direction. 6. Three-phase release device according to claim 1 and 2, characterized by a member (8) under the influence of a force, which is supported on the two components (I, H) and his Support when there is a relative movement between the two components is withdrawn so that it is released and the switch lock opens. 1 sheet of drawings