RU80628U1 - AUTOMATIC DIRECT CURRENT SWITCH - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to protective switching equipment, and can be used to protect against overloads and short circuits of electrical installations and direct current lines. The switch comprises a movable and fixed contact, breaking the spring, a free trip spring, including a magnetic circuit with a coil, a main armature, a free trip anchor, holding a magnetic circuit with a coil. New in the circuit breaker is the presence of an additional holding magnetic circuit with a given sequence of movement of the free trip armature and the main armature. The technical result is a reduction in time when the circuit breaker is turned off. 1p. f-ly, 3 Fig. heck.

Description

The utility model relates to electrical engineering, in particular to protective switching equipment, and can be used to protect against overloads and short circuits of electrical installations and DC lines, as well as electrical equipment of rolling stock.

Automatic high-speed DC switches that are held in position by the magnetic flux in the working gap of the armature created by the current of the holding coil and tripped when this magnetic flux is reduced are known, for example, from the following sources: Patent No. 2239907 RU for the invention Н01Н 77/06 H01H 75/10 2003; RU patent No. 2239253 for the invention H01H 77/06, H01H 75/10 2003; Patent No. 2262769 RU for the invention H01H 77/06, H01H 75/10 2004; Patent No. 2262768 RU H01H 77/062004.

The closest analogue to the patented utility model in terms of the number of common essential features can be considered a switch for the second source: RU patent No. 2239253 for the invention Н01Н 77/06, Н01Н 75/102003,

This switch contains movable and fixed contacts, disconnecting the spring, free trip spring, magnetic circuit with coil, main armature, free trip armature.

The disadvantage of this switch is not high enough speed due to the need to turn off the switch to set in motion a large mass of moving parts.

The utility model solves the problem of creating a circuit breaker that is simple in design and has a short break time.

The technical result that is achieved by the utility model is to reduce the time when the circuit breaker is turned off.

This is achieved by the fact that the switch is additionally equipped with a holding magnetic circuit with a coil, while the free trip anchor is installed with the possibility of acting on the movable contact, and the main armature with the possibility of acting on the free trip anchor.

With this design, a consistent implementation of the work of two electromagnets is provided. The main armature and the closing magnetic circuit provide for the transfer of the circuit breaker from the disconnected to the upstream position, and the free tripping anchor and the additional holding magnetic circuit provide for closing the contacts (on position) and carry out the process of opening the circuit breaker, while the main armature and the closing magnetic circuit remain in a fixed position.

The implementation of the circuit breaker by the free trip anchor, held in the on position by the coil current of the holding magnetic circuit, less than the switching current allows the holding magnetic circuit with the coil to be small-sized,

which accordingly allows the switch to be more compact.

The utility model is illustrated by an example of a circuit breaker. 1 schematically shows a patented switch in the off position; figure 2 is the same in the upstream position; figure 3 is the same in the off position.

The automatic high-speed direct current switch contains a movable contact 1, a fixed contact 2, a disconnecting spring 3, a free trip spring 4, including a magnetic circuit 5 with a coil 6 and a holding magnetic circuit 9 with a coil 10. The free trip spring 4 is mounted on the main anchor 7, pivotally mounted on axis 11. The breaking spring 3 is mounted on the free trip anchor 8, pivotally mounted on the axis 12. Moving contact 1 is mounted on the free trip anchor with isolation between them.

The switch operates as follows.

When the switch is turned on, a switching current is supplied to the coil 6, and a holding current is supplied to the coil 10 (Fig. 1). In this case, the switching current is an order of magnitude greater than the holding current. The main anchor 7 rotates around the axis 11 and is attracted to the magnetic circuit 5. The free trip anchor 8 rotates around the axis 12 clockwise and is engaged with the main armature 7, while a gap δ ₁ remains between the armature 8 and the magnetic core 9 (Fig. 2) . Simultaneously with the movement of the free trip armature 8, the movable contact 1 is activated, which does not close with the fixed contact,

forming a gap between them δ ₂ . The switch has moved to the up position. After 0.5 seconds, the switching current in the coil 6 breaks off and the main armature 7, under the action of the free-release spring 4, falls off from the switching magnetic circuit 5 and disengages the free-release anchor 8, which in turn is attracted to the holding magnetic circuit 9 under the action of magnetic forces. this movable contact 1 closes with the fixed contact 2. The switch has moved to the on position.

During an emergency shutdown, the holding coil 10 is de-energized. When the current drops in this coil 10, the armature 8 cannot be held in the pulled position to the magnetic circuit 9 and, under the action of the breaking spring 3, rotates towards the disconnected position. In this case, instantaneous opening of contacts 1 and 2 occurs.

Thus, due to the introduction of an additional holding magnetic circuit with a coil and the dependent movement of the free trip armature from the main armature, a compact circuit breaker simple in design with a small intrinsic trip time has been created.

Claims (1)

An automatic high-speed direct current switch containing a movable and fixed contact, breaking the spring, free trip spring, including a magnetic circuit with a coil, main armature, free trip anchor, characterized in that it is additionally equipped with a holding magnetic circuit with a coil, while the free trip armature is installed with the possibility of influencing the movable contact, and the main anchor - with the possibility of influencing the anchor of free trip.