SU1612348A1 - Device for monitoring insulation in on-line d.c. network - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to relay protection, and can be used to control the insulation resistance of a DC network. The aim of the invention is to increase the sensitivity of the device. In the absence of earth faults and equality of leakage resistance, the voltage between the midpoint of the divider and ground is absent and the control signal of the current sources 4, 6 is zero. When the leakage resistance decreases, a control voltage appears at the corresponding current source and a compensation current arises that passes through the windings of the relay 3.5 and, when the insulation resistance drops to a certain threshold value, the corresponding relay and fault signaling are triggered.

Description

The invention relates to electrical engineering, in particular to relay protection, and can be used to control the insulation resistance of the DC network.

The purpose of the invention is to increase the sensitivity of the device.

: The drawing shows a diagram of the device. The device contains a symmetric (Q divider of resistors 1 and 2, between the main busbar and ground, a signal relay β and a current source 4 are connected in series, controlled by voltage between the negative busbar and ground, a circuit is connected from the signaling relay 5 and current source 6. Between the combined resistor 7 is connected to the control inputs of current sources 4 and 6 and the midpoint of the divider. The closing contacts of relays 3 and 5 act on a signal indicating a decrease in insulation level.

flux.

The device operates as follows. 25

If there is no operational system in the system. DCBF of direct current of earth faults and equality of the leakage resistances is the voltage between the midpoint; there is no electrifier from resistors 1 and ground, respectively, there is no

Before

There is a control signal on both current sources and the currents in their circuits are equal to zero. With a decrease in the leakage resistance of one of the tires, a voltage appears between the ground and the midpoint of the divider, which is controlling, for example, for current source 4, and as a result, a compensation current appears that compensates for the increase in leakage resistance. Prietrm current in the circuit of the current source 6 is absent. Thus, the current source 4, as it were, tracks and compensates for the increase in the leakage current of the adjacent bus.

Blocks of current sources 4 and 6 can be performed in the simplest form of the transistor _s , the collector current of which very weakly depends on the collector voltage and is controlled by the base or emitter current.

While maintaining the initial, · leakage resistance value and decreasing the leakage resistance of the adjacent bus between the ground and the midpoint of the divider, a voltage of the opposite value appears, which is the control voltage for the current source 6. In this case, an additional compensation current appears, which compensates for the appearance of an additional leakage current while maintaining the equality of voltages across resistors 1 and 2.

Compensation currents pass through the windings of the signal relays 3 and 5, which operate at a given value of the compensation current, i.e. for a given decrease in the insulation resistance of one pole with respect to another. The device allows you to record the leakage current at a resistance of 40-45 count.

The technical and economic effect of the use of the proposed device is to increase the sensitivity and practical maintenance of this sensitivity while changing the tire leakage resistance over a wide range.

Claims (1)

Claim; ____ L Device for monitoring insulation: an operational direct current network containing a voltage divider made on the first and second resistors and having terminals for connecting to the network, the first and second executive organs, characterized in that, in order to increase sensitivity, the first and the second controlled current sources included in a serial circuit with actuators between the terminals for connecting to the network, and the common point of the controlled current sources connected to the terminal for _h to earth, and the control inputs are connected through a third newly introduced resistor with the midpoint of the voltage divider.