SK15042001A3 - Direct-current circuit breaker - Google Patents

Abstract

The present invention relates to a direct current circuit current overload circuit breaker, particularly that of traction vehicle. Closing armature (21) of a closing electromagnet (2) is connected with a pull rod (4), preferably in insulated manner. The pull rod (4) is provided with a stop (41) communicating with a projection (31) on a movable arm (3) arranged between two leads (P1, P2). An opening spring (32) acting counter the force of the closing electromagnet (2) is arranged between a frame (1) and the movable arm (3). One of the leads (P1) is provided with an overcurrent release (5) formed by a magnetic circuit with a form (51) and an armature (52). A strip (6) is fastened in swingable manner on said pull rod (4). A detent (71) of a pawl (7), being arranged between the pull rod (4) and the strip (6), directs against the overcurrent release (5) armature (52) wherein the pawl (7) is pivoted either on the pull rod (4) or the strip (6).

Description

Current circuit breaker for DC circuit

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a circuit breaker against overload of a direct current circuit, in particular a traction vehicle with electromagnetic switching. The closing armature of the closing solenoid is insulatingly coupled to a rod provided with a stop corresponding to a protrusion on a movable arm arranged between two inlets. One of the inlets is provided with an overcurrent release formed by a magnetic circuit with a frame and an anchor.

BACKGROUND OF THE INVENTION

A common type of contactors can also be used against current overload of a DC circuit. A conventional contactor is known whose movable arm arranged between two inlets is controlled by an electromagnet. The armature of the electromagnet is connected to the arm by a stripped rod. The power of the solenoid is used both for switching on and off. Switching is usually done by the operator. By applying current to the electromagnet, its armature extends and the arm spans a pair of leads. The disconnection takes place similarly, by retracting the armature of the electromagnet as well as by the operator. In case of current overload, the external sensor provides a disconnection pulse. The course of this operation is lengthy due to the conversion of electric current to electromagnetic force, and undesired current overload has a longer negative effect in the installed circuit. Likewise, the actual use of the electromagnetic force to deflect the moving arm by the movement of the electromagnet armature is slow. This results in a long-term action of the arc with concomitant side effects. Moreover, the cardinality of the arc is enhanced by the current overload, which causes the contacts to open. For these reasons, the use of these contactors supplemented by peripheral wiring with an external current overload sensor has not been proven.

These drawbacks have been eliminated by the current overload circuit breaker in use, the movable arm of which is arranged between the two inlets is switched on and, if necessary, switched off by a closing electromagnet, the anchor of which is insulated to the drawbar. A tripping spring is arranged between the movable arm and the frame against the action of the closing solenoid. By closing the circuit when the movable arm spans both inlets, the release spring is compressed. The rod is provided with a stop corresponding to the projection on the movable arm. The projection is generally designed as a pulley with an axle mounted on the movable arm. One of the inlets is provided with an overcurrent release formed by an electromagnetic circuit

F »f f with skeleton and anchor. The anchor points towards the drawbar. In the event of a current overload, the armature of the electromagnetic circuit extends and deflects the rod, the projection of which extends beyond the stop. As a result, the force of the closing solenoid ceases to be applied to the movable arm and the movable arm is diverted from the supply by the immediate action of the opening spring and the current circuit is disconnected. Greater current overload is a condition for exerting the force required to open the circuit. The armature force exerted by the electromagnet must overcome the passive resistance preventing the tab from sliding out of the projection. As a rule, in traction vehicles for which this circuit breaker is intended, the current overload must exceed 1000 A. The circuit breaker does not reliably respond to minor overloads because the anchor force is insufficient to separate the stop and the projection. Therefore, the appropriate armature force is not applied and the movable arm remains connected to the leads.

SUMMARY OF THE INVENTION

The circuit breaker according to the invention is designed especially for traction vehicles. Electromagnetic closing consists of a closing electromagnet, the closing anchor of which is insulated to the drawbar. The stop formed on the rod corresponds to a projection on the movable arm which is arranged between two inlets. A counter spring is arranged between the frame and the movable arm against the force of the closing solenoid. One of the inlets is provided with an overcurrent release formed by a magnetic circuit with a frame and an anchor. There is a pivoting bar attached to the rod which holds the projection in the rod stop. The rod and the bar are held together by a latch, the tooth of which faces the armature of the overcurrent release. A smaller overcurrent release armature force is required to separate the latch from the drawbar and bar. When the latch is detached, the bar is detached from the drawbar and the projection is detached from the drawbar stop, and the release spring force deflects the movable arm, thereby detaching the contacts. The latch can be pivotally mounted on a rod or bar.

When the closing solenoid is retracted, the latch again, when it is pivotally mounted on the rod, engages the bar by the action of a spring arranged between the latch and the rod. When the pawl is pivotably mounted on the bar, it engages the handle by the action of a spring arranged between the latch and the bar.

A spring arranged between the bar and the frame contributes to the inclination of the bar to the rod as well as to keep the bar in a horizontal position.

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BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of the circuit breaker according to the invention in cross section in an embodiment with a pawl pivotably mounted on a rod is shown in the attached drawing.

EXAMPLES

In frame I, it is movable on pin JJ. The arm 3 is conductively connected to the first inlet PL by means of a flexible coupling 33. At the free end, the arm 3 is provided with a contact 34 corresponding to the contact 34 'on the second inlet P2. Above the contacts 34, 34J there is a quenching chamber Z. On the arm 3 a projection 31, in this case formed by a pulley, is fixed. The stop 4J of the drawbar 4 is connected against the projection, which is connected by means of an insulator 22 to the closing armature 21 of the switching-on solenoid 2 mounted on the frame J. The drawbar 4 is pivotably fastened to the frame and spring 6L. A spring 72 is arranged between the pawl 7 and the pawl 4. A first overload P1 is provided with an overcurrent release 5 formed by a magnetic circuit with a frame 51 and an armature 52 controlling the pivot arm 53. A tooth 71 extending from the pawls 7 Against the action of the closing solenoid 2, a trip spring 32 is arranged between the frame 1 and the arm 3. The movement of the arm 3 as well as its position is sensed by the auxiliary contacts K.

The electromagnetic field extends the anchor 22, which is connected via an insulator 22 to the drawbar 4. By pulling the drawbar 4, the stopper 41 engages the projection 31 in this case formed by a pulley mounted on a pivot pin. fastened to the arm 3. A bar 7 abuts on the projection 3i. Following the engagement of the projection 31 with the stop 4i, the contacts 34, 34 'are brought closer together by the movement of the arm 3 while pressing the release spring 32. In normal operation, the contacts 34, 34' by retracting the armature arm 2i into the armature solenoid 2 by the operator. In the case of current overload, when an overcurrent flows over the arm 3 from the inlet P1 to the inlet P2, the overcurrent protection 5 reacts by pulling the armature 25 into the frame 5i and engages the pivot arm 53 by the tooth 7i of the latch 7. The projection 3i overcomes the stop 4L. The action of the return spring 32 causes the contacts 34, 34 'to be detached by the reciprocating movement of the arm 3 and the circuit is open. Upon subsequent retraction of the anchor bolt 21 to the initial position by the operator or by means of auxiliary contacts K, when the circuit is open, the spring 6i causes the bar 6 to be inclined to the projection 3i which is clamped between the rod 4 and the bar 6. 4 and the strips 6 secured by the action of a spring 72 on the latch 7 which engages the end of the strips 6.

Claims (4)

A circuit breaker for a current overload of a direct current circuit, in particular of a traction vehicle drive, with an electromagnetic closing, wherein the closing armature (21) of the closing electromagnet (2) is insulatingly coupled to a rod (4) provided with a stop (41) corresponding to a projection (31) on the movable an arm (3) arranged between two inlets (P1, P2), wherein a tripping spring (32) is arranged between the frame (1) and the movable arm (3) against the force of the closing electromagnet (2), one of the inlets (P1) being provided an overcurrent release (5) formed by a magnetic circuit with a frame (51) and an anchor (52), characterized in that a bar (6) is pivotably mounted on the rod (4) and arranged between the rod (4) and the bar (6). a pawl (7), the claw (71) of which is directed against the armature (52) of the overcurrent release (5), wherein the pawl (7) is pivotably mounted on the rod (4) or on the bar (6). Circuit breaker according to claim 1, characterized in that a spring (71) is arranged between the pawl (7) and the rod (4). Circuit breaker according to claim 1, characterized in that a spring (71) is arranged between the latch (7) and the bar (6). Circuit breaker according to one of claims 1, 2 or 3, characterized in that a spring (61) is arranged between the strip (6) and the frame (1).