SU1065925A1 - Overcurrent release device - Google Patents

Abstract

1. MAXIMUM RELEASE OF THE CURRENT OF THE CIRCUIT BREAKER, containing a low-melting substance, an element that engages with the lever of the free-release mechanism when the low-melting substance is melted, and at least one elastic element connected by means of the low-melting substance to the element that is movable relatively elastic element, characterized in that, in order to increase reliability and increase "service life, it is provided with an axis located perpendicular to the plane eremescheni free mechanism disengaging lever and the element, incoming into engagement with, disposed on said axis mechanism free disengagement. 2. The current release according to claim 1, characterized in that the element which is engaged with the lever of the free-release mechanism is in the form of a disk.

Description

e

Oi

sd

with y

The invention relates to electrical engineering, to low-voltage instrumentation, in particular to automatic switches. Protective devices are known that contain a low-melting substance located in a closed volume and melted under the action of an emergency current. When a substance is melted, the mechanism that breaks the electrical circuit 1 is triggered. The disadvantage of this device is the lack of self-return after the operation. The closest in technical essence to the present invention is a maximum current release of an automatic circuit breaker containing a low-melting substance. an element which engages with the lever of the free-release mechanism when the fusible substance is melted, and at least one elastic element connected by means of the fusible substance to the said element is installed with the possibility of movement relative to the elastic element 2. The disadvantage of this device is that the movement of the element along the axis is accompanied by the removal of a part of the low-melting property located on the element surface from the body, which contributes to its oxidation and, accordingly, however, it reduces reliability and shortens the service life of the release. The purpose of the invention is to increase reliability and increase service life. The goal is achieved by the fact that the maximum current release of a circuit breaker containing a low-melting substance, an element that engages with the lever of the free tripping mechanism when the low-melting point melts, and Yu. Less one elastic element connected by means of a low-melting substance to the said element installed with the possibility of movement relative to the yiipyroro element, provided with an axis located perpendicular to the plane of movement of the lever of the free unlocked mechanism And the element, conductive engages the free disengaging The mechanism is disposed on said axis. In addition, in the specified maximally current release, the element which engages with the lever of the free-release mechanism can be filled in the form of a disk. FIG. 1 and FIG. 2 shows the maximum current release in two projections; FIG. 3 shows section A-A in FIG. 2. The maximum current release contains a lever 1 of the mechanism for free release of Lenin, which abuts against the release 2 disk, the axis of which is located in sleeves 3 and 4. The sleeves are fixed on elastic holders 5 1 25 and 6. In the gap between the axis 7 of the disk 2 and the inner surface sleeves 3 and 4 placed low-melting substance 8. The trip works as follows. The current of the protected circuit, supplied to the holders 5 and 6 or directly to the bushes 3 and 4, flows through the low-melting substance 8 and the axis 7 of the disk 2 (indirect heating can also be used). At rated current, the heating of the low-melting substance 8 is not enough to melt it. With unacceptable overload currents, the low-melting substance 8 melts the faster, the larger the magnitude of the emergency current. The tangential component of the force acting on the disk 2 from the side of the lever 1 hardly encounters resistance when the fusible substance is melted, and the disk 2 starts to turn. At the same time, the holders 5 and 6 begin to bend under the action of a horizontal (perpendicular to the holder) component force from the lever 1. The more the disk 2 turns, the more horizontal the force component from the lever 1 grows, the holders 5 and 6 bend more and more and lever 1 disengages from disc 2 (FIG. 1, dashed line). The free trip mechanism is activated and the switch opens the circuit. The axial symmetry of the disk 2 eliminates the need for a return spring. The low-melting substance can harden in any position of the disk 2, whereby an attempt to engage the lever 1 with the disk 2 before the low-melting substance completely hardens does not create the danger of fixing the moving part in the non-working initial position (any initial position of the disk is working). With the introduction of the lever 1 in engagement with the disk 2 lower, the rounded surface of the lever 1 slides over the disk 2, the bend of the elastic holders 5 and b, and goes into the lower fixed position. The proposed trip unit can be used in various types of automatic switches. Compared to the known thermo-bimetallic releasers, it is cheaper, does not contain scarce materials, and allows various design options depending on the possibilities of placement in the circuit breaker. In addition, the use of a melting agent provides a clearer triggering of the free tripping mechanism, due to the lack of influence of friction forces. When melting a low-melting substance, turning the disc occurs

practically without friction and resistance to force from the lever of the free-release mechanism, only elastic holders are exerted, whose bending force is stable.

Thus, the proposed design of the maximum circuit breaker current release allows to increase reliability and increase its service life.

one

PM

/

tk

FIG. 2

fig.Z

Claims (2)

1. MAXIMUM CIRCUIT BREAKER of a circuit breaker containing a low-melting substance, an element engaging with a lever of the free-trip mechanism during the melting of the low-melting substance, and at least one elastic element connected by means of the low-melting substance to the said element, which is mounted to move relatively elastic element, characterized in that, in order to increase reliability and increase * service life, it is equipped with an axis located perpendicular to the plane of the eniya trip-free mechanism the lever and the element is arranged on said axle, which engages with a trip-free mechanism. 2. Current release according to π. 1, characterized in that the element engages with the lever of the mechanism of free disengagement, made in the form of a disk. Ci SI o u SL> i