RU2377581C1 - Method of measurement and monitoring of insulation resistance of unearthed power electrical ac networks under operation voltage and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention refers to methods of measurement and monitoring of insulation resistance of unearthed power electrical AC networks. Stabilised steady voltage is applied to power network by means of connection to monitored network of measuring circuit. Circuit consists of series-connected resistor current sensor Rcs, source of stabilised steady voltage Ust and auxiliary resistor Raux with filter capacitor Cf, at that resistance of auxiliary resistor Raux is chosen k times larger than value of resistor current sensor Rcs. Then voltage U1 is measured on resistor current sensor, after that equivalent resistance of insulation Rins of monitored network is calculated by formula: Rins=Rcs[Ust/U1-(k+1)].

EFFECT: method allows to perform permanent monitoring of insulation resistance of several individual power electrical AC networks simultaneously.

2 cl, 1 dwg

Description

The proposal relates to test equipment for measuring, monitoring and signaling about a decrease in the insulation resistance of AC networks below the norm and is used to measure and constantly monitor insulation resistance at the same time n separate AC power networks in ships, ships, mines, underground, oil fields , i.e. where there are branched, separate power AC electrical networks isolated from the ground. The proposed method and device for measuring and monitoring the insulation resistance of power electric networks relates to techniques for improving the fire and electrical safety of operating power generating circuits, converting electrical energy from various power networks isolated from the earth.

There is a method of increasing fire safety of power generation and conversion systems by evaluating leakage currents in AC power circuits with a grounded neutral. The method is based on highlighting the difference between the input and output currents of the load at the power board. The difference in these currents is used to judge the level of fire safety, evaluating the possibility of an electric arc between the conductive conductors of the cable and the ground (housing). The leakage currents also judge the electrical safety of the operating personnel and provide protection at low leakage currents. An example is a residual current circuit breaker of the UZO-20 type, TU 16-92 IZHTSh.65611 1.085 TU of the city of "Signal" plant in Stavropol. The disadvantage of this method is the relatively low reliability of fire safety and a limited scope, since DC networks are excluded.

A known method of measuring the insulation resistance of DC networks relative to the ground (housing), which consists in the fact that they use an additional source of constant measuring voltage, and to eliminate the influence of the operating voltage of the monitored network before measuring compensate for the network voltage relative to the housing by introducing an adjustable constant voltage source, and then include the source of the measuring voltage and readout the readings of the measuring device (ed. certificate. USSR No. 369515, publ. 08.11.1973. BI No. 10).

The disadvantage of this method is the need for two direct current sources: compensating and measuring. In vehicle power networks, it is often difficult to constructively and technologically provide good voltage compensation of the control object.

A known method of measuring the insulation resistance of electrical networks with static converters and a device for its implementation. The method is based on superimposing alternating polarity of the measured DC voltage on the controlled network and measuring, at the end of the transition process in the controlled network, the constant current component in the measuring constant voltage source circuit and calculating the insulation resistance value. At the same time, the transient in the controlled network is stopped, without waiting for its end, after which the constant component of the voltage at the insulation impedance and the specified current are measured, and the value of the insulation resistance is calculated by the formula Riz = k (U2-U1) / (Y1-Y2),

Riz - equivalent insulation resistance;

k is the coefficient of proportionality, taking into account the operating ranges of measuring the value of insulation resistance;

U1 and U2 - voltage values between the phase (pole) and the housing of the controlled network, measured in the first and third clock cycles of the device, respectively;

YI and Y2 are the values of the measuring circuit currents measured in the second and fourth clock cycles of the device, respectively (RF patent G01R 27/18 RU 2028634).

The disadvantages of this method and device is the lack of information, low speed, high probability of methodological error, the dependence of the measurement result on measuring the operating voltage of the control object. This is due to the fact that the measurement of insulation resistance contains four working cycles. In this case, a possible change in the parameters of the control object during the four-cycle measurement cycle leads to the possibility of a methodological measurement error; the multi-cycle nature of the measurement process does not allow one to quickly take into account the change in the parameters of the control object, for example, a change in the network operating voltage, and also complicates the design, increases the cost of the measuring tool, which makes it virtually impossible to continuously monitor the insulation resistance of the network, which is important for the operation of electrical installations of mobile vehicles.

The prototype is a method and device for measuring the insulation resistance of the power network of electrical installations of vehicles under operating voltage (RF patent 2175138 C1 KI. G01R 27/18 B60L 3/00, published October 20, 2001, Bulletin No. 29), in which the method of measuring the insulation resistance of power networks of electrical installations of transport under operating voltage, at which a direct current measuring voltage is applied to the power network, the transient process of recharging capacities in a controlled network is stopped, without waiting for its end, the resistance voltage is measured insulation, the current of the measuring voltage source and calculate the insulation resistance of the power network relative to the ground by dividing the measured voltage by the measured current. The insulation resistance measuring device comprises a measuring voltage source, a limiting resistor, an indicator, a measuring circuit driver, a microprocessor unit, two current sensors, two voltage sensors.

The disadvantage of this method of measuring the insulation resistance and the device that implements it is that to compensate to zero the voltage at the insulation resistance of an uncontrolled pole, the measurement voltage must be chosen significantly higher than the voltage of the controlled network, which is applied between the controlled pole and ground through an additional resistor. Calculations show that when controlling the insulation resistance of a direct current power network of 320 V and when the insulation resistance is in the range from 20 to 100 kOhm of each pole individually, it is necessary to adjust the voltage in the range from 320 to 1600 V, and a wider range of resistances will require a measuring source voltage up to 10 kV and higher, which significantly complicates the device and reduces its reliability, and the presence of two current sensors and two voltage sensors leads to an increase in the measurement error of the resistance and olyatsii.

The disadvantage of this method and device is that in the process of measuring the insulation resistance there is a recharge of the capacities of the electric network from zero to the full voltage of the network. In such a network, without applying the method and device for controlling the insulation resistance, a person touching one pole of the network falls under a voltage that is significantly lower than the voltage of the network, and when applying this method and device in a similar situation, a person falls under zero voltage relative to the ground or under the full network voltage , where electrical safety conditions worsen significantly when monitoring the power network.

The proposed method of measuring and monitoring the insulation resistance of isolated from the ground power electrical networks of alternating current under operating voltage and the device for its implementation, the block diagram of which is shown in the drawing, are free from the disadvantages inherent in the prototype. This is achieved by the fact that the proposed method for measuring and monitoring the insulation resistance of power electric AC networks isolated from the earth (housing) under an operating voltage at which a stabilized constant voltage is applied to the power network by connecting a measuring circuit consisting of series-connected to the controlled network resistor current sensor Rdt, stabilized constant voltage source Ust and additional resistor Rd with filter capacitor Сф, characterized in that the additional resistor Rd is selected by a factor of times greater than the value of the resistor current sensor Rdt, then the voltage U1 on the resistor current sensor is measured, after which the equivalent insulation resistance R from the controlled network is calculated by the formula Riz = Rdt [Uct / Ul- (k + 1)] where Rf is the equivalent insulation resistance of the controlled power network.

The proposed device for measuring and monitoring the insulation resistance of isolated electrical ground AC power networks under operating voltage according to the proposed method comprises a stabilized DC voltage source, a first resistor current sensor connected to a common wire by one terminal, a first additional resistor connected to the first controlled one terminal a network, and a second terminal connected to the second terminal of the first resistor current sensor and the first filter capacitor, the pi block power supply, the first signaling device with first and second LEDs, an indication unit with a switch, characterized in that the first additional resistor is selected k times larger than the value of the first resistor current sensor, and the source of the measured stabilized DC voltage is connected between the common wire and the case (ground), in addition, the nth additional resistor is connected to the device, connected by one output to the nth controlled electrical network, and by the second output connected to the first output of the introduced nth cut a reverse current sensor, which is connected to the common wire by the second output, in addition, the nth resistor current sensor is connected to the nth filter capacitor by the first output, and the nth additional resistor is selected to be several times larger than the nth resistor current sensor, in addition, the nth alarm device with the first nth and second nth LEDs is introduced into the device, all the cathode LEDs are connected to a common wire, an external light and sound alarm unit with a generalized LED exit and close sound and light alarm contacts.

The proposed method and device compared with the prototype provides a significant increase in reliability and allows you to measure and control the insulation resistance in any unlimited range of insulation resistance values n of individual AC power networks with a slight complication of the circuit.

The choice of Rdob values is k times greater than the value of the resistor current sensor allows to significantly simplify the calculation of the measuring signaling and indication circuits of the monitoring device for both AC and DC networks, as well as for double current networks. Compared with the prototype, the proposed method and device allows using only one current sensor to control and measure the insulation resistance without introducing voltage sensors, as is done in the prototype, which allows to increase not only reliability, but also to increase the measurement accuracy without complicating the device.

The device for measuring and monitoring the insulation resistance of isolated electrical ground AC electric networks under operating voltage contains a stabilized constant voltage source 1, a first resistor current sensor 2, connected to a common wire with one terminal, a first additional resistor 3, connected to the first controlled network 4 with one terminal and the second output is connected to the second output of the first resistor current sensor and to the first filter capacitor 5, the power supply 6, the first signaling device 7 s first 8 and second 9 LEDs, display unit 10 with switch 11, the first additional resistor 3 is selected k times larger than the value of the first resistor current sensor 2, and the measuring voltage source 1 DC is connected between the common wire and the housing (ground) in addition, the nth additional resistor 12 is connected to the device, connected by one output to the nth controlled electric network 13, and by the second output connected to the first output of the introduced nth resistive current sensor 14, which is connected to the common terminal by the second by the wire, in addition, the nth resistor current sensor 14 is connected to the nth filter capacitor 15 by the first output, and the nth additional resistor 12 is k times larger than the value of the nth current resistor 14, in addition , the nth alarm device 16 with the first nth 17 and the second nth 18 LEDs, cathodes connected to a common wire is inserted into the device; an external light and sound signaling unit 19 with a generalized LED 20 at the output and with make contacts 21 of the light and sound alarm, and the external her alarm 19 is connected directly to the output of each (1 and n-th) alarm device.

The work of the method and device for measuring and monitoring the insulation resistance of isolated from the ground n power electrical networks of alternating current under operating voltage is as follows. The device is connected with n outputs of additional resistors 3 ... 12 to n controlled AC networks, and the signals are removed from current sensors 2, 14 and fed to alarm devices 7 (16). Each alarm device has two settings (warning and emergency) and, accordingly, two LEDs. The output of each alarm device 7 and 16 is connected directly to the external alarm unit 19 with an LED 20 at the output. LED 20 responds to a decrease in insulation resistance in any of n controlled networks. In addition, using the switch 11, you can connect the display unit 10 to measure the insulation resistance in any of the n monitored networks, i.e. The method and device provide continuous monitoring of n power electric networks, and selectively measure the insulation resistance in any of n electric networks 4 and 13 using the display unit and switch 11.

Claims (2)

1. A method for measuring and monitoring the insulation resistance of AC power networks isolated from earth (the case) under operating voltage, in which a stabilized constant voltage is applied to the power network by connecting to a controlled network a measuring circuit consisting of a series-connected resistor current sensor Rdt , a stabilized constant voltage source Uct and an additional resistor Rd with a filter capacitor Cf, characterized in that the additional resistor Rd is selected in k-p of larger than the value of the resistor Rdt current sensor, the voltage U1 is then measured at current sensor resistor, then the equivalent resistance network controlled insulation Riso calculated by the formula:
Riz = Rdt [Ust / U1- (k + 1)], where Riz is the equivalent insulation resistance of the power network. 2. The device for measuring and monitoring the insulation resistance isolated from the earth (housing) of the AC power network under operating voltage contains a stabilized DC voltage source, a first resistor current sensor connected to a common wire with one output, a first additional resistor connected to the first controlled power network, and the second output is connected to the second output of the first resistor current sensor and to the first filter capacitor, the power supply, the first signaling device with first and second LEDs, an indication unit with a switch, characterized in that the first additional resistor is selected k-times larger than the value of the first resistor current sensor, and a stabilized constant voltage source is connected between the common wire and the housing (ground), in addition the nth additional resistor connected to one terminal with the nth controlled electric network is inserted into the device, and the second terminal is connected to the first terminal of the nth resistor current sensor, and the nth resistor current sensor is connected to the second terminal nen with a common wire, in addition, the nth resistor current sensor is connected to the nth filter capacitor by the first output, and the nth additional resistor is k-times larger than the value of the nth current resistor, in addition to the device an nth alarm device with the first nth and second nth LEDs was introduced, all the cathode LEDs being connected to a common wire, an external light and sound signaling unit with a generalized LED at the output and with sound and light signaling contact contacts at than the external light and sound signaling unit is connected directly to the output of each signaling device.