SU1304127A1 - Device for remote disconnection of circuit breaker - Google Patents

Abstract

The invention relates to electrical engineering, in particular to power distribution systems, and can be used for remote on-line disconnection of loads using a circuit breaker. The purpose of the invention is to provide a remote shutdown off. not having an independent p; express, 1I. H, spruce is achieved by inserting a step-down transformer 11 in the device, the winding 12 of which is connected to a pair. Parallel to one of the three current-carrying elements 3 e, the maximum-current release trip. By appropriately selecting the rated power of the transformer 11, a flow through the secondary winding 12 of a current of practically any magnitude sufficient to operate that other trip is provided. Providing remote opening of switches that do not have independent tripping, allows reducing: to the quantity () of bulk modifications of serial products and 11 high level of unification. 1 il. SO (L, / 00 about NI N

Description

The invention relates to electrical engineering, in particular, to electric power distribution systems, and can be used to remotely disconnect loads with a circuit breaker.

The purpose of the invention 1 and is to provide a remote disconnect switch that does not have an independent trip.

The drawing shows a circuit diagram of the proposed device.

The device for remotely opening a switch contains a switch 1, for example, a three-pole one, equipped with a system of 2 power contacts with an appropriate number of poles, electromagnetic releasers .1 maximum current, current-sensing elements 3 of which are connected in series in all poles circuits, and thermal releases, current sensing elements of which 4 are also included in the circuits of all poles. During the 5th mechanism, the mechanism keeps the power contacts 2 in the on state. The contacts 2 are opened by the source 6. The output circuit of the power circuit of the switch is connected to the output glue A1, B1 and C1 through the power supply line 7 and the load 8 is connected.

To any two output terminals of the switch, for example, A1 and B1, through the command contact 9 nodes. Primary winding 10 of a step-down transformer 11, the secondary winding 12 of this transformer is connected in parallel to one of the current-sensing element cups 3 electromagnetic overcurrent releases, or to the current-sensitive (bimetallic) elements 4 thermal overload protection, or to both in series nym in B1 key.1e current sense, 1 element 3 and 4.

Transformer 11, command contact 9 and their connections between themselves and with the switch electrical circuit form a block 13 viipai.MCHnH.

The 1Tk device) works as follows.

When the power supply system is normal and normal, and the switchboard is closed in the closed state of the synovych; gakkt 2 vly switches I through the current g: m; p1 - -, elements 3 and 4 and in line 7 the load current 8 flows , insufficient d; 1I has been triggered; n; 1 evaluators and release. TO:.; 5. At the same time, the primary winding circuit i (transformer 11 is under voltage and is ready for operation, but is open by the contact contact 9. The secondary winding 12 of the transformer is closed on the catanic 3 maximum current detectors (or on the current sensing element 4 is thermally fused) em on the sensitivity of protection, since kx pue resistance of the transformer on the side of the secondary winding 12 1 with open primary winding 10 exceeds

Saws for 2-3 times the resistance of the current-sensitive element 3 or 4.

When the command contact 9 is closed, the primary 10 and the secondary 12 windings of the transformer 1 1, as well as the current-sensitive element to which the secondary winding 12 is connected (but the coil 3), flows through the appropriate selection of the secondary voltage windings 12 account for 50-80% of the short-circuit current

transformer, or 7-10 times its rated current.

By appropriately selecting the rated power of the transformer 11, it is possible to easily ensure the flow through the secondary winding and the current-sensitive element of the current switch of almost any size sufficient to trigger one or another release.

When one of the releases triggers, the latch 5 releases the key switch mechanism, and the power contacts 2 open under the action of the spring 6. The arrangement at terminals A1 and B1 disappears, and the current in the primary and secondary windings of the transformer 11, as well as in the current sensitive; It stops.

5Thus, the breaking current flows through the winding.m of the transformer and the current-sensitive element only for a short time: as a rule, no more than 20-30 ms during operation of the peak current and no more than 2-3 seconds during the operation of the thermal transmitter. This makes it possible to use transformers in the remote disconnecting unit with a sufficiently small nominal power and not to consider their heating. Nanr. Meter, when working on both current-sensitive elements (maximum current and thermal) of the switch type AP-50 -ZMT-UZ with a rated current of 6.4A and 11-fold current cutoff setting (ie, about 70A) transformer, made on the ShLM 20x32 magnetic circuit (220 / 4.0 V, 45 VA), when connected to terminals A1-B1 with a voltage of 380 V (which is acceptable for a transformer with a nominal voltage of 220 V in the short-circuit mode of the secondary winding ) provides a current into the current sensing switch- Hbix switch elements of about 120 A. This current provides (with a double-short supply m) almost instantaneous disconnection of the circuit breaker, while the primary current of the current does not exceed 2.5 A.

Providing a remote shutdown of the switches, which are not a combination of an independent release, allows to reduce the number of types of serial products and to increase the level of unification. In addition, the use of the invention will avoid the use of more powerful switches equipped with an independent release than is required by the load conditions, if it is necessary to ensure a remote shutdown.

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Claims (1)

Invention Formula A device for remotely opening a switch, containing a mechanism for holding the power contacts of the switch in a closed state with a mechanical latch connected to an electromagnetic overcurrent release and thermal overload release with corresponding current sensing elements, as well as a remote control disconnecting element of the release. tact, characterized in that, in order to ensure a remote disconnection of a switch that does not have an independent trip, a step-down transformer is additionally introduced into the device, the primary winding of which is connected in series with the command contact and connected to the interfacial supply voltage on the load side, and the secondary the winding is connected in parallel to one of the current sensing