SU1112465A1 - Device for protecting electric installations in polyphase circuits against short circuits and impermissible overloads - Google Patents

Abstract

DEVICE FOR PROTECTION OF ELECTRICAL INSTALLATIONS IN MULTIPHASE CHAINS and short-circuit tolerance overloads, comprising in each phase of a three-electrode fuse two terminals included in the phase line between the source and the load, otlichayuschee- in that, in order to simplify and reduce the cost, a third electrode of each the fuse is connected to the output of the post-phase fuse on the load side.

Description

The invention relates to electrical engineering, and more specifically to devices. Protection of electrical installations in multiphase circuits using fuses .5

A device for protection is known, comprising a circuit breaker with integrated fuses. The possibility of an incomplete power supply of an electrical installation in this device is eliminated by the fact that after the fuse blows, the tripping mechanism is triggered and the contacts of the circuit breaker open, breaking the power supply circuits fs of all phases of the installation lj.

The disadvantage of such a device is the structural complexity of the tripping mechanism.

Devices are known for protecting 20 electrical installations in multiphase circuits, including fuse starters. When a fuse is triggered in one of the phases of a multiphase circuit, the starter simultaneously turns off all the phases of the installation with the help of moving contacts mounted on a common rail 2.

A disadvantage of the known devices is the relatively high cost.

Regarding the independent use of fuses to protect multiphase circuits, despite their simplicity and low cost, it is limited by the fact that at 5 blown fuses in one phase the equipment will remain under voltage. This mode of incomplete power supply is unacceptable according to safety requirements, and, in addition, it causes an overload of electric motors operating on two phases, which leads to overheating of the electric motor and its failure.

The closest to the technical essence and the achieved result to the invention is a protection device, having in each phase a three-electrode fuse, the third electrode of which is connected to the winding of the disconnecting release of the circuit breaker. When one or more fuses are activated, a voltage is applied to the winding and the switch turns off the power supply circuit. 55 not Z.

However, the known device is expensive and complicated due to the presence of a three-winding circuit breaker in it.

The purpose of the invention is to simplify and reduce the cost of devices for the protection of electrical installations of multiphase circuits. made using three-electrode fuses.

This goal is achieved by the fact that in a device for protection containing in each phase a three-electrode. fuse, the third electrode of each fuse is connected to the fuse of the subsequent phase on the load side.

The drawing shows the electrical circuit of the protection device.

The protection device has a three-electrode fuse in each phase. In phase A, fuse 1 has a fusible element 2, the third electrode 3. Load 4 is connected to pin 5 of fuse 1. In phase B, fuse 6 has a fusible element 7, the third electrode 8. Load 9 is connected to pin 10 of fuse 6. At phase C, fuse 11 has a fusible element 12, the third electrode 13, the load 14 is connected to the output 15 of the fuse 11. The third electrode 3 of the fuse 1 is electrically connected to the output 10 of the fuse 6. The third electrode 8 of the fuse 6 is electrically connected to the output 15 of the fuse 11. The third electrode 1 3 fuse 11 is electrically connected to pin 5 of fuse 1.

The device works as follows.

If there is a short circuit or an inadmissible overload in phase A, fusible element 2 will melt and an electric arc will occur, which will transfer to the third electrode 3 having potential of phase B. A linear short circuit occurs (through an electric arc on the third electrode 3), which will cause the fusible element 7 to burn out fuse 6. The electric arc on the fusible element 7 is transferred to the third electrode 8, which has the potential of phase C. A linear phase-to-phase short occurs over a period of 1s (across the third electric arc) type 8), which will cause the fuse element 12 of the fuse 11 to burn out. Thus, an alternate

blown fuse elements.

In the event of a short circuit or an unacceptable overload in phase B, the fusible element 7 burns out and alternate burnout of the fusible elements 12 and 2 occurs.

In case of a short circuit or an unacceptable overload in phase C, the fusible element 12 burns out and alternate burnout of the fusible elements 2 and 7 occurs.

In a two-phase short circuit, for example, between phase A and phase B, melting of fuse elements 2 and 7 occurs, and if the fuse in fuses 1 and 6 is melted, the electric arc formed on the fuse element 7 is transferred to the third electrode 8, closing the short circuit between phase B and C, which will cause the melting element 12 to burn out and open the phase C circuit.

Thus, the presence on the third electrode of the potential of another phase creates conditions for transferring an electric arc to it and the formation of an interphase (through an arc gap) short circuit. The value of the interfacial short circuit current is determined by the electrical parameters of the electric arc at the third electrode and does not depend on the magnitude of the current that caused the destruction of the fusible element of this fuse.

In case of a three-phase short circuit or an unacceptable overload in all three phases, the fusible elements 2.7 and 12 fuses 1.6 and 11 burn out, and the three-phase circuit will be de-energized. In this case, the third electrodes of the fuses will not significantly affect the switching process.

To determine the economic effect of applying the invention, an AE2053 type circuit breaker with a rated current of 100 A is adopted as the base object, which provides protection against asymmetrical and symmetrical short circuits and overloads.

When replacing every 10,000 automatic switches of type AE2053 with the proposed device, the economic effect will be 88500 rubles.

In connection with simplicity and cheapness, it is advisable to use the device to protect electrical installations of multiphase circuits, where short circuits are rare and remote control is not necessary, for example, in rural power grids, power lines, etc.

Claims (3)

DEVICE FOR PROTECTION OF ELECTRICAL INSTALLATIONS IN MULTIPHASE CHAINS and short-circuit tolerance overloads, comprising in each phase of a three-electrode fuse the two terminals included in the phase line between the source and the load, otlichayuscheevoltnogo Apparatus (53) 621.316.925.2 (088.8) (56) 1. U.S. Patent No. 3009038, CL 200-114, 1961. 2. Chunikhin A.A. Electrical apparatuses. M., Energy, 1975, p. 313. 3. USSR copyright certificate No. 313339. class H 02 H 3/08, 1971. with the fact that, in order to simplify and reduce the cost, the third electrode of each fuse is connected to the fuse terminal of the subsequent phase on the load side. 112465 2