CS250171B1 - Electromagnetic switching circuit breaker - Google Patents

Abstract

The subject of the solution is an electromagnetic contactor, consisting of an electromagnet and an armature, controlling at least one pair of contacts connected to the protected electrical circuit. The essence is to design the locking device of the circuit breaker as a latch, which is mechanically released. The circuit breaker can be used in the electrical installation of motor vehicles and in various branches of industrial production.

Description

BACKGROUND OF THE INVENTION The present invention relates to an electromagnetic circuit breaker for switching on and off electrical circuits used, for example, in motor vehicle heating units, but also for other purposes of mechanization and automation of industrial production.

The known circuit breakers are generally designed on the principle of a bimetal actuator, which is heated by the heat generated in the spiral of the resistance wire. In these systems, the moving bimetallic actuator releases or latches the latch of the mechanical switching system, thereby energizing or disengaging the electrical circuit.

A disadvantage of switching circuit breakers of this kind is that the control current of the electric current is delayed when switching on or off due to the slower reaction of the bimetal depending on the thermal effect of the resistive spiral.

Electromagnetic circuit breakers, most commonly used, are also known as current circuit breakers protecting electrical circuits against short-circuit currents. This is usually a direct or indirect switch-off. In a direct system, a trip spring acting as a trigger is actuated by an electromagnet.

In the indirect system, a relay coil is connected to the protected circuit, which acts as a direct trip trigger. Two control electromagnetic circuits are used here - these are systems with complex arrangement of the control mechanism. The disadvantages of these circuit breakers are their considerable manufacturing demands, high demands on material consumption, high weight, and at the same time the impossibility of fine adjustment of the switch-off or switch-on moment and thus the limited possibilities for use.

It is also known to provide an electromagnetic circuit breaker, in particular a remote control circuit breaker, in which the movable anchor is supported on a protrusion provided on a leaf spring. This solution known, for example, from DE 16 65 006, has a drawback in considerable wear and in addition is not applicable to circuit breakers that solve the present invention.

Such circuit breakers must be shock-resistant as they are intended especially for motor vehicles. It must be easy to manufacture longer and the locking device itself must be absolutely reliable and can be placed in a miniature standard car relay.

The reliability requirement is given by the use of these relays in motor vehicles. In some cases, the function of the erection device is one of the lifetimes of a motor vehicle, for example for heating units, but sometimes more often, for example in fluid level control circuits, etc. Most of the known solutions do not meet these demanding requirements.

These drawbacks are solved by an electromagnetic circuit breaker, especially for motor vehicle heating units. Such a circuit breaker consists of an electromagnet mounted on the base. A plate and anchor operating at least one pair of contacts and is provided with a locking device released by a button, the locking device being formed by a resilient arresting member and a projection provided within the reach of the anchor.

The anchor of the invention is characterized in that the anchor is provided with a cut-out into which the projection of the resilient detent member engages. Advantageously, according to the invention, the flexible locking member may be part of the base plate. The cut-out member or portion of the anchor may be formed of a non-magnetic material.

The advantage of the new electromagnetic switching circuit breaker is the arrangement of the switching armature 8 by its southern carrier, which is gripped by the projection of the detent member at an electrical pulse. Despite its simplicity, this design is sufficiently resistant to shocks and other adverse effects that may occur just when the circuit breaker is used in the electrical installation of a motor vehicle.

The solution according to the invention is particularly suitable for the use of a base plate and mallet with connectors of a unified solution, which at the same time makes it possible to achieve the miniature dimensions of the circuit breaker.

FIG. 1 is a partial cross-sectional plan view of an electromagnetic circuit breaker; FIG. 2 is a partial cross-sectional side view of the anchor location; FIG. 3 is a partial cross-sectional side view of the resilient detent; 4 and 5 the position of the contacts before and after locking.

The electromagnetic circuit breaker has fixed terminals 2 to the base plate 6 and also the entire electromagnetic circuit breaker system consisting of yoke 2, coil 6, electromagnet, armature 3 with resilient carrier 6, switch contact 2 and another fixed contact 8 is mounted. on angle 2 «

The armature 3 has been provided with a recess 10 through which the resilient locking member 11 passes. which is further provided with a locking protrusion 12. In the direction towards the open end of the resilient detent member 11, it has a leading tapered shape.

The entire circuit breaker is provided with a cover 13 which has an actuating pin 15 inserted in its opening 14 into its opening 14, which has a resilient groove along its reduced diameter and further has an actuating pin 15 formed on its head side with support lugs 16.

The base plate 7 may be of a unified shape, for use in the electrical installation of motor vehicles, the connection contacts and all the fixed parts of the circuit breaker may be pressed into the base plate as well as the resilient arresting member may be directly part of the plate and completely assembled from plastic mass.

The electromagnetic circuit breaker is actuated in such a way that, when the electric current passes through the coil 8, the armature ³⁸ is pulled, thereby opening the contacts 1 θ 8. The circuit breaker according to the invention can also be designed such that the contact 2, when the armature 3 is tightened, it closes with the other opposite contact.

This embodiment of the circuit breaker is not shown here. As the armature 3 moves toward the core of the electromagnet 17, the resilient detent member 11 slightly bends and the projection 12 engages the edge of the armature 3. This will permanently close or open the connected control electrical circuit. Only when the control pin 15 has been depressed. When it comes into contact with the locking member 11, it is possible to release the latched projection 12 and the contacts return to their original position.

For the described embodiment of the electromagnetic circuit breaker, it is expedient that the resilient arresting member 1 V or the cut-out region 10 of the armature 3 be made of non-magnetic material, in order to prevent the electromagnet being effected. This can be achieved by providing a contact point with a non-magnetic insert. Also, the provision of a locking member 11 as part of the base plate 11 of the plastics material would correspond to this requirement.

The electromagnetic circuit breaker according to the invention has miniature dimensions and allows to switch current of 30 - 40 A, short-term and out. Unlike bimetal circuit breakers, there is an instantaneous reaction in a current surge. Said circuit breaker is suitable for use in electrical circuits in the automotive industry, in industrial mechanization and automation and the like.

Claims (3)

An electromagnetic circuit breaker consisting of an electromagnet mounted on a base plate and an anchor operating at least one pair of contacts, provided with a locking mechanism released by a button, characterized in that the anchor (5) is provided with a cutout (10) into which a bevelled protrusion (12) a member (11) which is within range of the anchor (5). Electromagnetic circuit breaker according to Claims 1 and 2, characterized in that the resilient locking member (ti) is part of the base plate (1). Electromagnetic circuit breaker according to Claims 1 to 3, characterized in that the resilient arresting member (11) or part of the armature (5) with the cutout (10) is formed of a non-magnetic material.