DE658555C - Electromagnetic-thermal short-circuit and overcurrent release - Google Patents

Description

The invention relates to an electromagnetic-thermal Short-circuit and overcurrent release, in which a magnetic shunt is provided, which consists of a Alloy with temperature-dependent magnetic permeability exists and only serves to weaken the flow of force in the armature closing gap, as long as the alloy not heated to a certain degree under the effect of the excitation current is. With releases of this type the aim is that the release armature with a certain value of the overcurrent with a certain delay is attracted, while in the event of a short circuit an immediate effect entry. The invention consists in that the magnetic shunt spatially next to the closing gap of the armature is arranged outside the same such that the magnetic Power flow is deflected at normal current from the closing gap and made ineffective for tightening the armature.

Releases are known in which a shunt with reversible magnetism is provided is, which at the same time serves for arousal; here the shunt is parallel to the air gap arranged and exerts a counterforce on the movable armature. For other triggers of the genus in question is the magnetic shunt, within an air gap of the magnetic circuit housed.

The efficiency of such devices is very poor because it is necessary to have one to provide a large number of ampere-turns, either as a result of the required there Size of the air gap or to compensate for the opposing force that the shunt exerts on the movable armature. This is associated with the evils that attach to all releases with a large number of ampere-turns, namely one large power consumption, low resistance to short circuits and the danger the destruction of the insulation between the windings in the event of overvoltages affecting the Clamping of the excitation winding of the release occur in the event of a short circuit.

The arrangement according to the invention avoids these inconveniences.

In the drawing, the two figures show schematically two embodiments of the Invention applied to a primary trigger. In both figures are the corresponding Organs are provided with the same reference numerals.

The magnetic circuit 1 of the release has a movable armature 2 which is held in the open position by a spring 3 as long as the. 4 of the main winding from solver _r from the normal current is flowing through it. A magnetic rod 5 is connected in series with this winding. This consists of a metal whose magnetic. Permeability changes in inverse proportion to temperature. The rod 5 forms a shunt to the air gap 6.7, as long as the winding of the trigger of the

Claims (1)

normal current is flowing through it. In such circumstances it goes from this winding generated flux for the greater part through ;, 'the shunt 5 through. -Once || ä $ l Overcurrent in the one tested by the release | i)> ^, th circuit occurs, the. Neböri * circuit through which this overcurrent passes, its magnetism to the extent that how its temperature rises. Then ίο the magnetic flux forced to pass more and more through the air gap bj. After a certain time, when the shunt has reached the temperature of the Curie point, the tightening force acting on the armature 2 is greater than the resistance of the spring 3, so that the armature comes to rest and causes the switch to disengage by means of a linkage, not shown . In order for the release to act immediately in the event of a short circuit, a second armature 8 is provided, which is held in its normal position by a spring 9 will. As soon as a short-circuit current flows through the winding 4, the armature 8 is immediately attracted and through him the notch of the switch via a not shown ^ mechanical transmission device brought about. ΐ 'Claim: Electromagnetic - thermal short-circuit and overcurrent release, in which a magnetic shunt is provided, which is made of an alloy with from the temperature-dependent magnetic permeability exists and only serves to to weaken the flow of force in the armature closing gap, as long as the alloy does not heated to a certain degree under the action of the excitation current is, characterized in that the magnetic shunt (5) spatially next to the closing gap (6-7) of the armature (2) outside the same is arranged such that the magnetic flux at normal current deflected from the closing gap and rendered ineffective for tightening the armature will. For this purpose ι sheet of drawings