SU717669A1 - Arrangement for investigating insulation resistance of electric networks - Google Patents

Description

one

This invention relates to electrical technology and can be used in all industries for testing electrical circuits for insulation resistance in electrical and radio installations.

Devices are known that control the insulation resistance of any electrical circuit with respect to all other electrical circuits.

The closest solution to the invention is a device for monitoring the insulation resistance of electrical circuits, comprising a source of voltage and voltage, a measuring circuit and a switch on a step detector | e | contact lamellas of one of the fields of which are connected to a controlled circuit and resistors connected to the measuring circuit of the device are connected, the second ends are connected to the contact lamellas of the second floor of the step finder and additional resistors connected to the negative 1, pole

The source of the test voltage, the positive pole of which is connected to the BTopioro brush, is the floor of the stepper finder 1. However, when using this device, it is difficult to determine electrical circuits with damaged insulation.

The aim of the invention is to simplify the control.

This is achieved by the fact that the device for monitoring the insulation resistance of electrical circuits contains a measuring unit with a source of test voltage, the executor 1. n1,1th output of the measuring unit connected to a control unit equipped with a pulse current source and a unit of signaling and positioning of the circuit 1: Oops nsk gel, the measuring measuring fijioK control input is connected to the switch iirj step finder, the winding KOTofior-o is connected to the pulse source TOK.l

Claims (2)

control unit, and with the unit of the pgopki and signaling position (zog seeker tel, and two reanstors are connected to the KOHTaKTHbiM luminaires, the load and the common, the sb is dyed to each other, and the second ends of the additional resistors are connected to the negative terminal test voltage source, and step-finder contact lenses are designed to connect a test (e-HpyeMbix electrical circuits, equipped with a switch and a full step finder, the contact lamellae of which are connected to points with The load and auxiliary resistors are connected, the brush of the additional step finder is connected to the positive input of the measuring unit and the disconnecting fixed contact of the first direction of the switch, the movable contact of which is connected to the positive pole of the test voltage source, the negative pole of which is connected to the closing fixed contact of the second direction the switch, the moving contact of the second direction of the switch, the switch is connected to the negative input of the measuring unit and the disconnecting fixed contact of the second direction of the switch is connected to the closure, the fixed contact of the first direction of the switch and the main step finder's brush, one end of the winding of the additional step finder is connected to the negative pole of the switching current source, the other end of the additional step winding Mog-b finder is connected to the movable contact of the third direction of the switch, the disconnecting fixed contact of the third Direction of the switch is connected to positive m Pole pulsed current source. The drawing shows the layout of the device. A device for monitoring the resistance of an electrical circuit contains a measuring unit 1, a control unit 2, a switch 3. The measuring unit 1 includes a stabilized test voltage source 4, an electronic amplifier 5 constant t (the output of which is electromagnetic) executive turnips 6. The control unit 2 has a measurement result fixing unit 7, a pulsed current source 8, a switch 9, an installation unit 10, and position signaling of the step finders. The switch 3 consists of step skaters 11 and 12, resistors 13–16, clamps 17 ... n and 18, .. d) for connecting and testing electric circuits. At the beginning of the operation, the step iskatoli 1 and 12 are in the initial (first) position. The switch 9 is in a position in which the opening contacts are closed and the closing contacts are open. In this case, an electrical circuit is tested that is connected to terminal 17. At the command of control unit 2, the measuring unit 1 through the control unit 2 to the switch 3 is supplied from source 4 with a test voltage. The positive potential of the test voltage through the movable and disconnecting fixed contacts of the first direction of the switch 9 is fed to the brush of the x-ray finder 12 and through the load resistor 13 to the electrical circuit connected to the clamp 17. The negative potential of the test voltage is fed to the other circuited electrical circuits, and to each circuit is fed through two series-connected resistors, for example, to a tested electrical circuit connected to terminal 18, through resistors 15 and 16. Thus, an electrical circuit connected to terminal 17 is tested for insulation resistance with respect to all other electrical circuits connected to the remaining terminals. An electrical current flows through the load resistor 13, the value of which depends on the insulation resistance of the electric circuit under test. Resistor 13 creates a voltage drop. The voltage generated on the resistor 13 is transmitted through the brush of the step finder 12 and the block; to control 2 to the positive input of the electronic amplifier DC and 5 of the measuring unit 1, the negative potential of the voltage drop generated on the resistor 13 is transmitted through the brush of the step finder 11 and through the disconnecting fixed and moving contacts of the second control of the switch 9 of the control unit 2 to the negative input of the electronic amplifier of the current 5 of the measuring unit 1. If the insulation resistance is tested electrical circuit is equal to or vy5. above the set limit, the voltage drop across the resistor 13 is insufficient to trigger the executive relay 6, B1 at the output of the electronic, DC 5 amplifier from measuring unit 1, and measurement fixing unit 7 in the control unit 2 gives the command to a pulsed current source 8 for moving step finders 11 and 12 of switch 3 to the next position. Moreover, to the stepper finder 12, the positive potential of the pulsed current source 8 is supplied via the disconnecting fixed and moving contacts of the third direction of the switch 9 in the control unit 2. This starts the test of the next circuit. In the case when the insulation resistance of the electric circuit is below the set limit, in the measuring unit 1, the executive relay 6 is triggered and sends the measurement result command to the control unit 2 to the measurement result fixing unit 7, which fixes the measurement result. After that, the command is sent to switch 3 to move the step searchers 11 and 12 to the next position. In the case when the control unit detects that the insulation resistance of some electrical circuits is below the set limit, in control unit 2, switch 9 is set to a position in which the closing contacts are closed and the open contacts are open. At the same time, on command from the installation unit 10 and signaling the position of the searchers of the control unit 2 in the switch 3, the step finder 11 is set to the initial (first) position, and the step finder 12 is set to one of the positions of the electrical circuits whose insulation resistance is lower set limit. An electrical circuit connected to the clamp 17 with respect to the electrical circuit connected to any other clamp is tested. At the command of the control unit 2c of the measuring unit 1, the test voltage from source 4 is supplied to the switch 3 via the control unit 2. The positive potential of this test voltage is supplied via the moving and closing fixed contacts of the first direction of the switch 9.6 9 to the brush of the step finder 11 and the electric circuit, connected to terminal 17. The negative potential of the test voltage is supplied through the control unit 2 and the rest of the test circuits, and each Equipped with connected resistor. For example, the electrical circuit under test is connected to terminal 17 through resistors 13 and 14 through which electric current occurs. The magnitude of the current depends on the insulation resistance. an electrical circuit connected to terminal 17 with respect to an electrical circuit connected to terminal n. A voltage drop is created on the resistor 14. The positive potential of the fall of the voltage generated by the resistor 14 is transmitted through the brush of the stepper finder 12 and the control unit 2 to the positive input of the electronic direct current amplifier 5 of the measuring unit 1. The negative potential of the voltage created by the resistor 13, is transmitted through the closing fixed and movable contacts of the second direction of the switch 9 of the control unit 2 to the negative input of the electronic DC amplifier 5 of the measuring unit 1. If the insulation resistance is of the electrical circuit connected to terminal 17, piaBHO or above the set limit, the voltage drop across the resistor 14 is not enough to trigger the executive relay 6 in the measuring unit 1 and the fixture 7 fixing the measurement result in the control unit 2 commands the pulsed current source 8 for translation step finder 11 in the switch 3 in the next position. Moreover, the step finder 12 remains in the position of the electric circuit under test, connected to the clamp 17, since the opening contact of the third direction switches 9 is open. When this starts, a test of the next electrical circuit with respect to the electrical circuit, connected to the terminal of clause In the case, when the insulation resistance of the electric circuit is below the set limit, in the measuring unit 1, the executive relay 6 operates and sends the measurement result command to the control unit 2 to the fixing unit of the measurement result 7, KOTopiitfl fixes the measurement result. Then, a switch 3 is supplied to move the step finder 11 to the next position. In this way, all electrical circuits are checked alternately with respect to any electrical circuit, the insulation resistance of which is below the set limit. The device also allows checking only the electrical circuits among themselves, the insulation resistance of which is below the set limit. In this case, the step finder 12 is set to a position of any electrical circuit, the insulation resistance of which is below the set limit, and the step finder 11 is alternately set to the position of other electrical circuits, the insulation resistance of which is also below the set limit. The magnitude of the resistances of resistors 13, 14, 15, 16 .. n is chosen based on the test voltage of source 4. The accuracy of the measurement of the insulation resistance is determined by the accuracy of the resistance of the load resistors. To increase the measurement accuracy, for example, 5 times, it is necessary that the input resistance of the electronic DC amplifier 5 is 5 times the resistance value of the load resistors. The device allows simultaneous control of the insulation resistance and control of the proper desoldering of electrical circuits, for which another additional contact field is introduced in the step finder 11 of the switch 3, to the contact luminaires of which the second ends of the test electrical circuits are connected through additional clamps. Moreover, a signal is removed from the brush of the indicated additional contact field, which characterizes the correct desoldering of the tested electric circuits. In order to control the number of electrical circuits in the switch, free contact pop stepper finders with the addition of resistors and clamps are used. If necessary, for co1 (troll of even more electrical circuits into the device input with additional 1,1e switches. Moreover, the control unit enters the communication module between the brushes of the contact points of the finders AND between the YOPOP1iiii iiiiiMH KoMNtyrnami), the stepper finder does not increase the CTouNfoc eater. since the free co-firing of the search engines is used to expand the number of tested electrical circuits. Formula of the invention and the device for controlling the insulation resistance of electrical The measuring circuits containing the measuring unit with the source of the test voltage, the executive output of the measuring unit are connected to the control unit equipped with a pulsed current source and the unit for setting and signaling the position of the step finder, the input of the measuring unit is connected to the switch on the step finder, the winding of which is connected with a pulsed current source of the control unit, and with a unit for setting and signaling the position of the step finder, and two slits are connected to the contact lamellae torus, load and auxiliary, connected in series with each other, with the second ends of the additional resistors connected to the negative terminal of the test voltage source, and the contact lamellae of the step finder are designed to connect controlled electrical circuits, in order to simplify the control equipped with a switch and an additional stepper finder, the contact lamella of which is connected to the connection points of the load and additional resistors, complete the brush A step finder is connected to the positive input of the measuring unit and the disconnecting fixed contact of the first direction of the baffle, the movable contact of which is connected to the positive pole of the test source, the negative pole of which is connected to the closing fixed contact of the second direction of the switch, the movable contact of the second direction of the switch connected to the negative the input of the measuring unit, and the disconnecting fixed contact of the second direction is switched l is connected with the closing fixed contact of the first direction of the switch and with the brush of the main step finder, one