SU951194A1 - Device for measuring and checking insulation resistance - Google Patents

Description

(54) DEVICE FOR MEASUREMENT AND CONTROL OF INSULATION RESISTANCE

Claims (2)

The invention relates to a measurement technique and can be used to continuously measure and control the insulation resistance of various objects, for example, sources with a Constant voltage level set into connected electrical networks. A device is known to change the resistance of an insulation of an electric current to a direct current, which contains a registering instrument, a adjustable resistor calibrated in units of resistance, connected to the power supply buses, two series-connected resistors and a two-position switch, with one pair of fixed contacts of the switch connected to the power supply busbars, and the other pair - to the midpoint of a series of connected resistors, their other plugs are connected to the housing and to the engine is adjustable The resistor, the movable contacts of the switch are connected to the registering device 1. The disadvantage of this device is its limited functionality due to the lack of continuous measurement and control of the insulation resistance, inoperability with equal insulation resistance of the poles and the need for manual operations. The closest technical solution to the invention is a device for protecting a direct and alternating current network from earth leakage current, containing a switch, a resistor, threshold elements and an actuator 2. The known device has limited functionality, since no uniform reduction of the insulation resistance of the poles, does not work for the same values of the resistance of the insulation of the poles (in these cases the voltage between the common point of the dividing resistors and the ground, i.e. the resistor is zero). In addition, it does not allow realizing the continuous measurement of the insulation resistance and its multi-level monitoring. The purpose of the invention is to expand the functionality of the device. The goal is achieved by the fact that the device for measuring and monitoring the insulation resistance, containing a switch, connected first pair of resistors and threshold elements, an actuator, a measuring device, second resistors, a diode bridge and a switch, the first and second inputs of which are connected through the corresponding second resistors with the first and second outputs of the control object and with the first and second inputs of the switch, respectively, the third input with the output of the switch, the output with the first output of the first diag Nali diodtso second bridge, the second terminal of which is connected to the grounding circuit, the first and second terminals of the second diagonal of the diode bridge are connected to first and second terminals of the meter and with the first and second terminals of the threshold elements connected moves you to the corresponding inputs and additionally body. The drawing shows a block diagram of the device. The device contains an object 1 conf, for example, a power source with output buses 2, a power electrode 3, a switch 4, second resistors 5 switch 6, a diode bridge 7, a ground loop 8, a first resistor 9, a measuring device 10, threshold elements 11, an actuator 12 , diodes 13–16. The insulation resistances of the source poles are conventionally represented by resistors 17-1 to 17-2. The device works as follows. The scale of the measuring device 10 is graduated in units of resistance (e.g., kilo-ohms) and voltage (volts). Resistors 5 whose magnitude is equal to the value of resistor 9 are necessary to maintain the same scale of the device 10 in the control mode and in the measurement mode. The internal resistances of the device 10 or threshold elements 11 can also play the role of the load resistor. The number of threshold elements 11 is determined by the required number of steps. insulation resistance. From the measuring device 10 and the threshold elements 11 respond to the average value of the voltage allocated to the resistor 9. The switch b has a fixed average position, and the extreme ones with self-resetting. those. switch output is connected to bridge 7 permanently. This link opens only briefly when manually switching (by the operator) switch 6 to one of its extreme positions. Switch 4 (conditionally shown in the drawing) has a duty cycle of 0.5, i.e. connects to tires 2 at regular intervals. In the initial state, switch b is in the middle position. In the left (according to the drawing) position of the contacts of the switch 4, the current from the positive pole of source 1 flows through the normally closed contacts of switch 6, diode 13, resistor 9, diode 16, ground loop 8, resistor 17-2 to the negative pole of source 1. In the right (according to the drawing) the position of the contacts of the switch 4, the current from the negative pole of source 1 flows through normally closed: contacts of switch b, diode 14, resistor 9, diode 15, ground circuit 8, resistor 17-1 to the positive pole of source 1. as a result of switching commutator p 4 creates on the resistor 9 continuously alternating pulses of the same duration and polarity, the magnitude of one of which is equal to the voltage U + between, for example, the positive pole and circuit 8, and the other to the voltage U between the negative pole and the same circuit 8. Straightening Bridge 7 provides the same polarity of the indicated voltage pulses U + and U on the resistor 9. As a result, the last one summarizes these pulses, with the readings Uy of the measuring device 10, for example, the magnetoelectric system, equal to s average value of voltages U + and u, ie. .. UilU: and. . Since the value is inversely proportional to the resistance of the resistor 17--2, and the value U. is inversely proportional to the resistance of the resistor, the value of Uy increases with decreasing insulation resistance of each of the poles of source 1. As a result, according to the indications of the device 10, for example a voltmeter, the resistance of the isolator is unambiguously determined The information of the considered scheme and that of the Cc1m provides control measurement of the insulation resistance. The deterioration of the insulation is accompanied by an increase in the average value of the voltage across the resistor 9, and after it reaches a predetermined value, one of the threshold elements 11 is triggered by sending a warning signal through the actuator 12. A further reduction in the isolation. Triggers the triggering of the next threshold element, which notifies, for example, an emergency condition of the insulation. After the signal from the executive organ 12 arrives, the switch 6 is alternately switched to the extreme positions and, based on the smallest reading of the measuring device 10, a pole with a lower insulation is determined. In this case, according to two indications of instrument 10 at the extreme positions of switch 6, it is possible to measure the resistances 13 of the insulation of each pole. Thus, the proposed device, which provides continuous multistage monitoring and measurement, makes it possible to separately detect a decrease in the isolation of the poles of the power supply. An apparatus for measuring and monitoring insulation resistance, comprising a switch, connected in parallel a first resistor and threshold elements, an actuator, characterized in that, in order to expand the functionality of the device, a measuring device, second resistors, a diode bridge, a switch, the first and second inputs of which are connected via the respective second resistors to the first and second terminals of the test object and to the first and second inputs of the switch, respectively, t the rety input is with the switch output, the output is with the first output of the first diagonal of the diode bridge, the second output of which is connected to the ground loop, the first and second conclusions of the second diagonal of the diode bridge are connected to the first and second terminals of the measuring device connected by conclusions with the corresponding inputs of the executive body. Sources of information taken into account during the examination 1. USSR author's certificate No. 531099, cl. G 01 R 27/18, 1976. 2. USSR author's certificate number 743104, cl. H 02 H 3/16, 1980 (prototype). 0