SU976407A1 - Method of locating area of lowered insulation in electric network - Google Patents

Description

(5) METHOD OF FINDING THE PLACE OF REDUCING INSULATION IN ELECTRIC NETWORK

one

The invention relates to electrical measuring equipment and can be used to create devices for finding damage in direct-current electrical networks.

There is a known method for finding a place to reduce insulation in an electrical network, based on a periodic jump-like displacement of the network's potentials with respect to ground, alternating the polarity of the displacement potentials, and finding a place with reduced isolation by the maximum transient current 1,

The disadvantage of this method is the low accuracy of the measurements, due to the false positives of the instruments due to the flow of pulsed currents.

The closest in technical essence is a method based on the forced displacement of network potentials in relation to earth by applying AC voltage, measuring the variable component currents along network sections and determining the location with reduced isolation from the maximum of the measuring variable component currents. Jo

The disadvantage of this method is the limited dynamic range of measuring insulation resistance in networks with a large distributed capacitance.

The aim of the invention is to extend the functionality

The goal is achieved in that, according to the method of finding a place to reduce insulation in an electrical network, based on the forced displacement of network potentials with respect to ground by applying an alternating current voltage, measuring the variable component currents over network sections, and determining the location with reduced 39 isolation the maximum of the measured values of the variable component currents, change the frequency of the bias current of the network with respect to ground and measure the difference between the two currents, the corresponding and the same for measuring on all parts of the network the values of the frequency of the bias current. The drawing shows the electrical circuit diagram of the device that implements "Method" The device contains a section 1 of the network with reduced insulation, represented by the load, as well as the capacitance and insulation resistance of each pole with respect to to the ground, reduced isolation of one of the poles, represented by equivalent resistance 2, section with normal insulation 3, represented similarly to section 1, the rest of electrical network 4, presented Equipped with its equivalent load, as well as equivalent capacitance and insulation resistance of each pole with respect to ground, source 5 for bias potential of the network with respect to the earth with a periodically varying frequency; one output is connected to earth, and the other output is connected to the network pole having reduced isolation in relation to earth. For measuring the vegs, the differences in the currents flowing in the sections during the half-period of the frequency of the bias can be used with, for example, clamp meters 6 and a meter The primary element 7 connected to the output of the clamp is directly or through the amplifier 8. The determination of the section with reduced insulation is performed as follows. Connect the source 5 to the pole of the network with low isolation. Using current-measuring tongs 6 and measuring element 7 estimating the current increment over the half-period of changing the frequency of the bias potential of the network with respect to the earth, alternate measurements are made at the damaged pole along the network sections moving from the power source to the depth of the network. The damaged area and the location of damage is determined by the largest current difference estimated by measuring element 7. As a measuring element 7 connected to current clamps, an increment meter can be used that measures the increment of the current value or voltage for the half-period of the offset frequency at the sizing output potential of the network in relation to the earth. The magnitude of the current through the distribution capacity of the network can significantly exceed the amount of current. The application of the known method in terms of the insulation resistance. The current gain through the reduced insulation resistance with a large distributed network capacitance relative to the earth exceeds the current gain, which determines the advantage of the proposed method, as it allows to determine the location of the damage with much larger insulation resistance values. Claims of the Invention A method for finding a place to reduce insulation in an electrical network, based on the forced displacement of network potentials with respect to earth by applying an alternating current voltage, measuring the variable component currents along network sections, and determining the location with reduced isolation from the maximum measured values currents, in order to expand functionality, they change the frequency of the bias current of the network with respect to ground and a difference between values of two currents corresponding to the same measurements on all parts of the network to values of the bias current frequency. Sources of information taken into account in the examination 1. The author's certificate of the USSR N °, cl. G 01 R 31/08, 1937 -, Travaie et securlte, 1969, no. 6, p. 313 (prototype).

Claims (1)

Claim A method of finding the place of insulation reduction in the electric network, based on the forced displacement of the network potentials in relation to the ground by applying an alternating current voltage, measuring the alternating current components from the network sections and determining the location with reduced insulation from the maximum of the measured values of the alternating current components, about l and, which, in order to expand the functionality, change the frequency of the bias current of the network potentials with respect to the earth and measure the difference between the two cheniyami currents corresponding to the same measurements on all parts of the network current values of the bias frequency.