CS198752B1 - Overcurrent release of electrical circuit breakers - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to overcurrent releases of electrical circuit breakers for both small and large overcurrents.

Simultaneous distribution of electrical energy with demanding requirements for thermal and dynamic resistance requires thermal overcurrent releases of circuit breakers to be able to be used for both types of current while optimum utilization of the power consumption of heating elements heating the working twins. It is known, for example, a thermal overcurrent release with a U-shaped heating element, on whose upper arm the working twins are mounted on the outer side practically all over the surface. This thermal release is combined with a short-circuit release, in which the central part of the solid core of the magnetic circuit of the short-circuit release passes through the heating element at the point of its bending.

The disadvantage of this solution lies in the insufficient utilization of the power consumption of the heating element, caused by the increasing distance of the working pair from the heating element with increasing temperature. Instead of the highest warming of the heating element it is roughly in the middle of its bending, in addition it is heated by the heat loss of the short-circuit release core, which is usually made of solid ferromagnetic material. Such a trigger operates in particular at a low overload with a disproportionately small deflection of the working double, which usually requires additional mechanical intermediate members. Also, the operating range of this thermal release is limited by the relatively high temperature required for reliable trigger operation in the upper regions of the given current ranges.

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The above-mentioned drawbacks are overcome by the overcurrent release according to the invention.

SUMMARY OF THE INVENTION The working twin is surrounded by a U-shaped heating element over the entire outer surface, the working twin engaging the end of its longer arm into a release pin slidingly mounted in the upper and lower bushings of the upper and lower opening of the heater and the end of the shorter arm. The working twin is supported by a control screw fixed to the lower arm of the heating element. The central part of the solid core of the magnetic circuit of the short-circuit release is provided with a left and a right flange for limiting the lateral play of the working double, which immediately surrounds the middle part at the bending point.

The advantages of the overcurrent release according to the invention reside in the optimum utilization of the power input of the heating element with a tightly inserted working bim, ensuring that the advantageous slow characteristic is achieved.

An exemplary embodiment of the invention for a three-pole circuit breaker is shown in the accompanying drawings. FIG. 1 is a side view of the trigger; and FIG. 2 is a plan view of the extreme cut-off pole.

The drawings show the mutual relationship of the thermal release with a short-circuit release. The thermal release consists of a U-shaped heating element 2, which is mounted substantially horizontally in the circuit breaker and is reinforced at the ends of both arms by a stripped spacer 23. In the interior of the heating element 2 defined by said spacer 23 is a working twin 1 of horseshoe shape. the end of the longer arm 2 engages in the locking pin 6 slidably received in the upper housing 8 and the lower housing 2 of the upper opening 10 and the lower opening 11 of the heater 2. The upper housing 8 of the upper opening 10 in the upper arm 17 is formed of insulating heat resistant material. The lower housing 2 of the lower opening 11 in the lower arm 2 of the heater 2 also functions as a screw of the heater 2 with the outlet waist 24, the other end of which is fixed in the outlet terminal 25. In the lower arm 2 of the heater 2 The central part 12 of the solid core 13 of the magnetic circuit of the short-circuit release, provided with a left flange 14 and a right flange 15 for defining the lateral play of the work twin 1, passes through the inner space of the work twin 1. the circuit of the short-circuit release consists of a solid core 13 with pole pieces 26, 27 and a movable armature 12 which is permanently pushed to the rest position by a spring 20 supported by a washer 28 of the adjusting screw 22. Above the heater 2 near the pin 6 and arm 29 The anchor 12 of the short-circuit release passes through the retrofit a shaft 18 rotatably mounted in the sides of the overcurrent release insulating body 30.

The function of the overcurrent release is shown in Fig. 1. Its thermal part with the working binary 1 is shown in the rest state. When overloaded by small overcurrents to which the thermal trigger reacts, the movement of the functional parts, i.e. working pair 1 and trip pin 6, is indicated by dashed lines. The short - circuit part of the overcurrent release operates in the case of large overcurrents or short circuits such that:

198 752 the anchor 19 acts by the arm 29 on the right arm 32 of the trip shaft 18, which instantly triggers the circuit breaker.

The adjustment of the working double 1 for calibrating purposes is carried out by means of a control screw 2 mounted in the lower arm 2 of the heating element 2. The regulation of the thermal release range is performed by a regulating disc 22 'which moves the flap shaft 18 through a mechanical transmission. As a result, the distance between the inclined bearing surface on the left arm 31 of the actuating shaft 18 and the spherical canopy of the actuating pin 6 changes.

The overcurrent release according to the invention can be used for all electric circuit breakers or relays, either as a stand-alone device with a remote control of a power switch or for incorporation into a circuit breaker.

Claims (1)

Overcurrent release of electric protection devices, consisting of a thermal and short-circuit release, the thermal release being formed as a horseshoe-shaped working pair indirectly heated by a heating element passing through a part of the magnetic circuit of the short-circuit release provided with a tripping anchor; is surrounded by a U-shaped heating element (2) all over the outer surface, the working twin (1) engaging the end of its longer arm (3) in the release pin (6) slidably mounted in the upper housing (8) and lower housing (9) the upper bore (10) and the lower bore (11) of the heater (2) and the end of the shorter arm (4) of the working binary (1) is supported by a control screw (7) mounted in the lower arm (5) of the heater (2); further, that the central portion (12) of the solid core (13) of the short circuit release magnetic circuit is provided with a left flange (14) and a right flange (15) for defining the lateral play of the working twin (1) which immediately surrounds the central portion (12) at the bend (16).