SU555351A1 - Device for controlling the insulation resistance of AC networks - Google Patents

Description

In addition, the device has narrow control limits, limited by one setpoint and the inability to re-adjust the threshold of the threshold element in the control process. The aim of the invention is to increase the speed of monitoring the inflow of information about the isolation state of each individual KOHTpo.jiHpyeivfou network, as well as expanding the limits of control. This is achieved by the fact that the device for controlling the resistance of the isolation of AC networks contains a source of DC voltage and divides the voltage to the number of controlled networks, one arm of which is connected to one of the poles of the DC source the second pole of which is connected to the housing, and also contains a switch and a mode switch, the output contacts of which are connected respectively to the measuring unit and the threshold element connected to the same pole of the DC source, i.e. The distributor, the clock generator, the manual control element and the alarm elements with memory are connected to the number of monitored networks connected via the corresponding contacts of the first pole of the two-pole switch to the output of the threshold element, which through the distributor is connected to the two-pole switch, the clock generator and the manual control element, and The middle point of each divider, through the corresponding pins of the second pole of the bipolar switch, is connected to the middle contact. l modes wherein the second arm of each of the voltage divider through respective insulation resistance network controlled is connected to the housing, except togo.odin of distributor outputs is connected to the threshold element. The drawing shows a diagram of the proposed device for monitoring the insulation resistance of AC networks. The device contains a source of direct current 1, alarm elements 2 with memory, a clock generator 3, a distributor 4, a two-pole switch 5, contacts 6 of the switch, a mode switch 7, a measuring element 8, a threshold element 9, a manual control section 10, dividers for example 11, the resistances 12, 13, and 14 of the insulation of the monitored networks, the capacitance 15,16, and 17 of the insulation of the monitored networks, the resistors 18-23 of the voltage healers, the capacitors 24. 25 and 26 filters. The proposed device contains voltage dividers, each of which consists of series-connected resistors 18-23 and one arm of a plug to one of the poles of a DC voltage source 1, the other arm of each of the voltage dividers is connected through resistors 12, 13 and 14 of the isolator. the corresponding controlled network to the second pole of the DC source connected to the housing. The capacitors 24, 25, 26 of the filters are connected between the case and the midpoint of the corresponding voltage divider, between the resistors 18-23. Through the corresponding pins 6 of one of the poles of the switch 5 when the circuit is closed and through the switch 7, the threshold element 9 or the measuring element 8 is connected to the middle points of the voltage divider. One of the outputs of the element 9 and the output of the measuring body 8 are connected to the DC source insulated from the case 1, The second output element 9 through the corresponding contacts 6 of the second pole of the switch 5 when the circuit is connected to the corresponding element 2. The clock generator 3 is connected to one of the inputs of the distributor 4, and Element 1O is podstuchyuchen to the second input of the distributor 4. One of the outputs of distributor 4 has a switch to switch 5, and the second output is connected to the input of element 9. The device operates as follows in automatic control mode (switch 7 is in the desired position) distributor 4 controls the operation the switch 5 in such a way that the latter with the frequency of the generator 3 by means of the contacts 6 of one pole connects the element 9 in series to the middle points of the voltage divider. At the same time, the output of the threshold element 9 is connected in series with the contacts of the second pole of the bipolar switch in series to the corresponding memory signaling elements 2. The threshold element 9, connected to the voltage divider of any of the monitored networks, the insulation resistance of which is below the set point (threshold threshold of the threshold element), is triggered and generates a control signal to turn on the alarm 2 with a memory corresponding to the monitored network. The memory for a reduced insulation resistance of the monitored network is maintained throughout the entire looping cycle and is turned off during the second looping cycle when it is re-monitored, if its insulation resistance has recovered.

In addition, in cases where it is necessary to control networks with different lengths and, consequently, insulation resistances, differing by a large amount, the distributor generates a control signal that, with a frequency of generator 3, tunes the response threshold of element 9. In this case the networks are monitored at different settings or at two settings. One cycle is trained on the upper setpoint, the second cycle is on the lower.

In the measurement mode (mode switch 7 is in the upper position), the element 10 selects the number of the monitored network, the insulation resistance of which is to be measured. At the same time, the distributor controls a bipolar switch in such a way that the latter connects the measuring unit to the monitored network with appropriate contacts.

The proposed device, thanks to the introduced elements and new connections, allows obtaining information on the isolation state of each individual network and significantly increases the speed of control in comparison with the known device, which ensures almost continuous monitoring of all networks. In addition, the proposed device, in comparison with the prototype, allows the control limits to be stretched, i.e. monitor each network at two settings or monitor at various network settings that have insulation resistances that differ by a large amount.

F

rmula of invention

A device for monitoring the insulation resistance of AC networks, containing a DC voltage source and voltage dividers according to the number of monitored networks, one arm of each of which is connected to one of the poles of the DC source, the second pole of which is connected to the housing, and bipolar switch and mode switch, the output contacts of which are connected respectively to the measuring unit and the threshold element connected to the same pole of the DC source, characterized by it, that in order to control the speed of the Enhance and obtaining information

about the state of isolation of each monitored network, a distributor, a clock generator, a manual control element and alarm elements with a memory of monitored networks,

connected via the corresponding pins of the first pole of a two-pole switch to the output of the threshold element, which is connected via a distributor to a two-pole switch, a clock

the generator and the manual control element, and the middle point of each voltage divider is connected via the corresponding contacts of the second pole of the two-pole switch to the middle contact of the mode switch, and the second arm of each voltage dividers is connected to the housing through the insulation resistance of the corresponding controlled network. 2. Device pop. 1, characterized by the fact that, in order to expand the control limits, one of the outputs of the distributor is connected to the threshold element.

Sources of information taken into account in the examination:

1. Konstantinov V.N. Systems and devices for automation of ship electric power installations. L., Shipbuilding

1972, p. 261-262.