SU1476408A1 - Device for testing layout and insulation resistance of cables and bundles - Google Patents

Abstract

This invention relates to electrical measuring technology. The purpose of the invention is to increase the reliability and reliability of control of the installation and insulation resistance of cables and harnesses. The test object is connected to the input and output terminals 4 and 5 of the switch 11. When the relay 2.1 is turned on, the first circuit of the object to be monitored is connected to the low voltage source 6 and the output terminal 18 to the input of the communication or break detection unit 7. At the same time, the closure detection unit 23 monitors the closure of the circuit under test with the other circuits connected together. When testing the installation of the first circuit, a high voltage supply to determine the insulation resistance does not occur. A high voltage supply to the first circuit occurs if there is no close to the other circuits. When checking the installation of the second circuit, when the relay 2.2 is turned on, the relay 3.1 simultaneously turns on and from that moment begins the process of simultaneous monitoring of the installation and insulation resistance, if the second circuit is correctly installed, switch 11 connects the next circuit to the installation check. A high voltage is applied to the preceding one to measure the insulation resistance, and so on until the end of the test. Introduction to switch 11 of the second group of 3 contacts eliminates the possibility of high voltage for measuring insulation resistance on the installation control circuit, which eliminates the emergency modes during measurements and increases the reliability of the control. 2 Il.

Description

phi.1

The terminals and output terminals 4 and 5 of the switch 11. When the relay 2.1 is turned on, the first circuit of the object to be monitored is connected to the low voltage source 6 by the input terminal 15 and the output terminal 18 to the input of the connection or disconnection detection unit 7. At the same time, the closure detection unit 23 monitors the closure of the circuit under test with the other circuits connected together. When testing the installation of the first circuit, a high voltage supply to determine the insulation resistance does not occur. A high voltage supply to the first circuit occurs if there is no close to the other circuits. When checking the mounting of the second circuit,

when when relay 2.2 is turned on, relay 3.1 is simultaneously turned on and from this moment the process of simultaneous monitoring of the installation and insulation resistance starts, if the installation of the second circuit is performed correctly, switch 11 connects the following circuit to check the installation. A high voltage is applied to the preceding one to measure the insulation resistance, and so on until the end of the test. Introduction to switch II of the second group of 3 contacts eliminates the possibility of high voltage for measuring insulation resistance on the control circuit of the installation, which eliminates the emergency modes during measurements and increases the reliability of the control. 2 Il.

one

The invention relates to instrumentation engineering and is intended to verify the installation and insulation resistance of a cable and harnesses with localization of the damage site.

The purpose of the invention is to improve the reliability and reliability of the automatic control of the installation and the insulation resistance of cables and harnesses due to the independent determination of the circuit and the violation of the insulation resistance during joint verification of the installation and the insulation resistance.

Fig. 1 and Fig. 2 depict the structural scheme of the device proposed.

The device contains a controlled cable 1, the first contact group 2 of the switch with the relay windings 2.1-2.50 of these contact groups, the second contact group 3 of the switch with the relay windings 3.1-3.50 of these contact groups, the input terminals (terminals) 4 and the output terminals (terminals) 5 for connections of the control object, a low voltage source 6, a communication or break detection unit 7, a control and distribution unit 8, a high voltage source 9, an insulation resistance measurement unit 10, a switch 11, combined inputs 12 and a combined output s switch 13, input terminals consisting of spread-

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a tactile contact 14, a switching contact 15, a closing contact 16 of the first 2 and second 3 contact groups and input contacts 17 of the second contact group 3, output contacts, consisting of the switching contact 18 and the closing contact 19 of the first contact group 2, and output contacts, consisting of a switching contact 20 and a closing contact 21 of the second contact group 3, the switching contacts 15, 17 of the second contact group 3 are connected to the inputs 12, and the switching contacts 18 of the first contact group and the switching contacts 20 of the second the groups are connected to the outputs 13, the opening contacts 14 of all contact groups 2 are combined and form the input 22 to the closure detection unit 23, the closing contacts 19 of the first contact group are combined and form the input 24 to the communication detection or disconnecting unit 7, the closing contacts 16 are combined and connected to the negative bus 25 of the low voltage source 6, the output 26 of the communication or break detection unit 7 is connected via an inverter 27 to the key input 28, to the collector circuit of which the display lamp 29 is connected at one end and the positive end 30 to the other end low voltage source 6, the output 31 of the circuit 23 determining the circuit through the inverter 32 is connected to the input 33 of the matching unit 34, as well as to the input of the transistor switch 35, in the collector circuit of which the display lamp 36 is connected, the input of the pulse generator 37 is connected to the positive bus 30 of the source 6 is low voltage, and the output is connected to the input of the coincidence unit 34, the output 38 of the coincidence unit 34 is connected to the input of the control unit 8, and the distribution of signals to which output is connected to the closing contact 39 of the stepper finder rotor 41, which 41.1-41.5, and the closing contact 42 of the manual start relay 43, the winding input of the relay 40 is connected to the switching contact of the button 44, the shorting contact is connected to one of the contacts 45 of the stepping finder, the other contact is connected to the disconnecting contact 46 of the reset relay 47 , the positive input of the capacitor 48 is connected via the switching contact of the manual start button 49 and the opening contact with the positive bus 30, and the closing contact is connected to one of the winding inputs of the manual start relay 43, the stepping finder 50, the output contacts 50.1-50.50 of which Yen respectively with the winding of the relay 2. 1-2. 50 and lamps 51. 1-5 1 .50, indication output contact 50.51 is connected to the winding of the reset relay 47, bus

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68 power-up, the closing contact of which through the contact group, the power-on relay 69, the contact group of the power-on relay 70, the contact group 71 of the relay 3.50 of the switch 11 is connected to the positive bus 30 of source 6, the winding of the communication simulator 72 is connected parallel to the winding of the relay 69 and parallel to the winding of the relay 70, the winding of the second communication simulation relay 73 is connected, the contact group 74 of the relay 68 is connected to the switching contact of the capacitor 75, and the closing contact is connected to the contact of the contact group 76 of the relay 69, switches This contact is connected to the plus of the capacitor 77, the closing contact 78 of the relay 70 is connected to the closing contact of the contact group 76, the switching and closing contacts of the contact groups 79 of the relay 72, communication simulations, the contact groups 80 of the relay 73, communication simulations, the contact groups 81 of the relay 3.50 are connected among themselves, the switching contacts are connected to the input 24 of block 7, and the opening contacts with the source 6.

The device works as follows.

The test starts with checking the correctness of the installation. The circuit is sampled by switch relay contacts 2.1-2.5 and relay contacts

52 connects the combined inputs of the windrow 5 3.1-3.50. When you turn on the relay 2.1 per

relay current 2.1-2.50 with a control toggle switch 53, bus 54 connects the combined inputs of relay windings 3.1-3.50 with a control toggle switch 55, output 56 of the insulation resistance measurement unit 10 is connected to the input of the memory block 57, consisting of an inverter 58, a key 59 , contacts 60 of relay 3.1-3.50 of contact 61 of relay 47 of reset, memory relay 62 with contacts 62.1-62.50, bus 63 connected to one pole of low voltage source 6, lamps 64 of indication, bus 65 connected to another pole of source 6, toggle switch 66 of joint control of installation and insulation resistance is connected to tires 52 and 54 and w another 25, dual button 67 Start one switching contact moving connected to the input 24 of the block 7 determining the connection or breakage other closing contact 67.1 - with the positive bus 30, and the closing contact with the winding of the relay

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68 power-up, the closing contact of which through the contact group, the power-on relay 69, the contact group of the power-on relay 70, the contact group 71 of the relay 3.50 of the switch 11 is connected to the positive bus 30 of source 6, the winding of the communication simulator 72 is connected parallel to the winding of the relay 69 and parallel to the winding of the relay 70, the winding of the second communication simulation relay 73 is connected, the contact group 74 of the relay 68 is connected to the switching contact of the capacitor 75, and the closing contact is connected to the contact of the contact group 76 of the relay 69, switches This contact is connected to the plus of the capacitor 77, the closing contact 78 of the relay 70 is connected to the closing contact of the contact group 76, the switching and closing contacts of the contact groups 79 of the relay 72, communication simulations, the contact groups 80 of the relay 73, communication simulations, the contact groups 81 of the relay 3.50 are connected among themselves, the switching contacts are connected to the input 24 of block 7, and the opening contacts with the source 6.

The device works as follows.

The test starts with checking the correctness of the installation. The circuit is sampled by switch relay contacts 2.1-2.5 and relay contacts

5 3.1-3.50. When you turn on the relay 2.1 per5

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The circuit by the input terminal 15 is connected to the source 6 of negative low voltage, and the output terminal 18 to the input 24 of the threshold element of the presence, connection or interruption unit 7, if the circuit being tested has a connection between the input and output contacts, then the output 26 of the threshold element shows a high positive level — the signal of the presence of a connection, as a result of which the transistor switch 28 is turned on via the inverter 27 and the lamp 29 goes out, indicating the presence of a connection. If contact 15 has another connection with any of the contacts of the combined circuits, then a low negative voltage across the contacts 15 and 14 of the corresponding relay will be applied to input 2-2 of unit 23, then a high positive level will appear 31, indicating the presence of a closure, and through the inverter 32 this signal will be applied to the input 33 of the matching unit 34, as well as to the transistor switch 35 and the lamp 36 will come on, indicating that the circuit under test is short-circuited. When checking the installation of the first circuit, the supply of high voltage to the circuit under test does not occur, which prevents the source of high voltage from shorting in the event of the circuit being closed with any circuit of the cable under test or a harness. The supply of high voltage to the first circuit occurs when checking the correct installation of the second circuit, when switching on relay 3.1 simultaneously activates relay 2.2, while disconnecting contacts 14 and 15 of relay 2.1 with contacts 14 and 15 of relay 3.1 and disconnecting the first circuit From the joint end of the cable, forming the entrance to the insulation resistance measurement unit 10, an insulation resistance measurement circuit is created, and from that moment begins the process of simultaneously monitoring the correctness of installation and insulation resistance, namely through the group Pu contacts 20 and 21 of relay 3.1 supply high voltage to measure the insulation resistance of the first circuit, and through the group of input contacts 15 and 16 and output contacts 18 and 19 of relay 2.2, the correctness of the mounting of the second circuit is checked. If the installation of the second circuit is performed correctly. Then switch 11 connects the next circuit to check the correctness of the installation, and to the previous one it supplies a high voltage to measure the insulation resistance and so on until the end of the installation check, i.e. before switching on the last relay 2.50 and the penultimate relay 3.49. Above described; The process is completed by monitoring the insulation resistance of the last cable chain or bundle when the switch relay 3.50 is turned on. If the process of monitoring the insulation resistance of any circuit is below the screening limit, the insulation resistance measurement unit 10 detects this, and the information is stored in the memory unit 57 and the lamp 64 of the corresponding circuit lights up in the light display. If the insulation resistance of the tested circuit is normal, then there is no information in the display unit. If, however, when checking the correctness of the installation and insulation resistance of the inspected

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If a cable or a harness is detected, a mounting error such as a break or a closure is detected, the threshold elements of the corresponding blocks will be triggered and the signal distribution unit will stop. In this case, the continuation of the test is allowed if it is broken, and when it is closed, the cable or bundle is checked only in the installation check mode. After clearing the closure, such a cable is re-checked in a joint mode of checking the correctness of the installation and the insulation resistance.

Claims (1)

Formula invented and A device for monitoring the installation and insulation resistance of cables and harnesses, containing a communication or break detection unit, a low voltage source, a high voltage source, a short circuit detection unit, an insulation resistance measurement block, each output connected to the corresponding control unit inputs and distribution of signals, the corresponding outputs of which are connected to the control inputs of the switch Q, which includes the first groups of contacts according to the number of circuits of the test object, consisting of input and output terminals cycles, with input disconnecting contacts interconnected and with the inputs of the insulation resistance detection and closure detection units, input closing contacts interconnected, and output closing contacts interconnected and with the input of the communication or interruption detection unit, output switching contacts with output terminals for connecting the control object's circuits, characterized in that, in order to increase the reliability and reliability of the control, the second groups of contacts have been entered into the switch epey control object, consisting of input and output terminals, each input group of second switching contacts are connected to input terminals for connecting (n-1) -th control circuit object, and every n input terminals NC second 5 groups are connected to the input (p-1) -m switching contacts of the first group of contacts, every n output switching contacts of the second group, five 0 five 0 connected to the output joints to connect the (n-1) th object of the control object, and each closing output contacts of the second group are connected between each other and with a high voltage source, a low voltage source is connected to the closing input terminals of the first group of contacts.