SU1208516A1 - Apparatus for continuous inspectin of zero core resistance in five-core cable - Google Patents

Abstract

The invention relates to electrical measuring equipment. The first shoulder of a four-shoulder single bridge is a source of 7 direct current, the second is a power conductor of a five-wire cable 3 and a source of 8 direct current, the third shoulder is a zero-core of 6 cable, and the fourth is a resistor 9. In addition, the device contains a power receiver 1, a transformer 2, a switch 4, a zero protective conductor 5 of the network and a power conductor 12 cables. An increase in the resistance of the zero core 6 of the cable leads to an imbalance of the bridge. The exit of the arrow of the measuring device 10 beyond the tolerance limits determines the breakage of the zero core 6 of the cable, and its deviation to the left to zero indicates the breakage of the control core 11 of the cable. Thus, the device makes it possible to monitor and predict the resistance of the zero conductor of the FIFT cable. 1 il. i (O N9 O 00 ate O)

Description

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The invention relates to electrical measuring equipment and can be used to measure the resistance of a zero conductor of flexible cables, in which the fifth wire is used for the purpose of monitoring the condition of the depletion circuits.

The purpose of the invention is to increase the reliability of the control results by increasing the accuracy of measuring the resistance of the zero core of the flexible cable, by connecting the cable cores and additional elements so that they form a bridge circuit.

The drawing is a schematic diagram of the device connected to the cable and the electrical network.

Pa drawing denotes an electrical receiver 15 a step-down transformer 2 of the network, a flexible cable 3, a switch 4, a zero protective conductor 5 of the network, a zero-core 6 cable, the first source 7 of operational DC, a second source 8 of operational DC, a variable resistor 9, measuring device 10, control cable conductor 11, power cable conductor 12, the first output of the variable resistor 9 and the beginning of the zero conductor 6 of the cable are connected to the protective conductor 5 of the network, the second output of the variable resistor 9, positive m of the first source of operative direct current 7 and the negative terminal of the measuring device 10 are connected to one point, the negative terminal of the first source of operational DC 7 is connected to the beginning of one of the power wires 12 of the cable, the end of which is connected to the negative terminal of the second source of operational constant 8 of the current, the positive terminal of which and the ends of zero 6 and the control 11 core cable are connected to the case of the power receiver 1, and the beginning of the control core 1I cable connected to the positive terminal will measure 10 device.

The device operates in the following way.

The measuring circuit is a four-shouldered single bridge, in which the first arm is the first source of operational DC 7, the second is a chain of series-connected:

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the conductors of the flexible cable 3 and the second source 8 of operational direct current, the third shoulder the zero core 6 cable, and the fourth the variable resistor 9.

The measuring diagonal of the bridge includes a series-connected measuring device 10 and a test core 11 of the cable.

In order to increase the accuracy of measurements, the resistance of those arms of the bridge into which sources 7 and 8 of operational direct current should not differ from each other by more than 2-3%, and their absolute value should be such as not to cause the protection apparatus to respond. (not shown).

Before putting the device into operation, the resistance of the zero core 6 of the cable in its serviceable condition is determined by any known method. Then the graduation of the scale of the measuring device 10 is performed, for which a store of exact resistances is switched on temporarily in series with the zero conductor 6. At the end of the calibration, the magazine is removed and the device is ready for action.

With an increase in the resistance of the zero core 6 of the cable, the bridge becomes unbalanced and the meter pointer deflects to the right. When the arrow goes beyond the tolerance limit, the operator can predict the approximation of the zero core 6 cable, and if the arrow is left to zero, the control cable 11 core 11 is broken.

Thus, this device allows you to accurately measure the resistance of the zero conductor of a pingile cable not only to control, but also to predict its condition, which allows you to increase the level of electrical safety when operating mobile electrical installations operating in the case of a dead-earthed neutral.

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Claims (1)

Invention Formula A device for continuous monitoring of the resistance of the zero conductor of the pistil cable, containing the first and second sources of operating direct current, clamps for connecting the beginning and the end of the neutral conductor of the cable, characterized in that. 3 1208516 In order to increase the reliability of the first source of operational test results, the input current is connected to the beginning of one variable resistor and the measuring device from the power cable, the end device, the first output of the relay is connected to the negative resistor and a clip for an under-5 terminal of a second source of start of a zero core of a cable DC, put b- connected to a zero protective first clamp of which, as well as a clip for a network water supply, the second change switch for connection to The neutral conductor is connected to the posi- tive cable and the end of the test core is connected to the body of the electrical receiver of the receiver and the terminal of the first source is connected to the positive terminal, the negative terminal of the test terminal device.