SU595683A1 - Device for measuring electrical circuit insulation resistance - Google Patents

Description

one

R31) 0) ete1111e otoioi-c; // to electr () 1-ekiki, in particular, to the resistance to isolation of electrical networks.

A device for measuring the insulation resistance of an electrical network is known, comprising a power source, rectifier, switches, measurement, control and signaling units, a software unit and a control unit, which is connected between the power supply and the inverter, the input of which is connected to one of the switches for connecting the rectifier between any pole of the monitored network and the case in accordance with the polarity of the connected pole, and the output of this switch is connected to the case through a second switch that directly Noe soedinepie the housing and through the measurement unit. Both switches are connected to the software unit, the output of the measuring unit is connected to the control unit, the outputs of which are connected to the control unit and the alarm unit. The diodes are connected between the terminals of the network and the driver in a non-conductive direction, with the node connecting the diodes connected to the input of the second switch 1.

The known device provides alternate monitoring and measurement of the insulation resistance of each pole of the network at intervals determined by the software block.

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1 (-the residual of this device is the ipio3Mu KHocT certain insulation resistance values of individual network parts, sources and energy consumers with the corresponding cables without the normal operating mode of the network, as determined by the operating conditions.

The aim of the invention is to determine the magnitude of the co-isolation of individual parts of an electrical network without disrupting its normal workplace.

A device for measuring the insulation resistance of electrical networks, containing a successively connected switchboard and meter with input terminals, as well as an indicator connected to the documentation unit, is equipped with a calculator, a selection unit, an And element, a driver, a memory unit and a deishfrarator connected to the first group the inputs of the calculator and through the sequential connection of the selection block and the element I - with the second group of inputs of the calculator, the first output of which is connected to the documentation block and the indicator, and the second output through the driver is connected to the first input of the switch c by the first input of the memory block, the second inputs of which are connected to the output of the selection block, the network being controlled is connected to the decoder, as well as to the serially connected memory booster and edeite Ii connected to o.iOKo .vi selection, a) (ommutator - with the third group of inputs of the evaluator.

In the drawing, a fuikdioig.ln diagram of the device.

It contains an electrical network isolation meter 1, electrical network, number 1) p 2, calculator 3, decoder 4, block for selecting non-repeating combinations, element 6, which serves to determine the presence and presence of combinations and necessary combinations, block 7 memory decider , allowing us to determine the number of non-repetitive connections that took place, indicator 8, documentation block 9, driver 10 and controlled network 11, one meter 1 being connected to the pole (phase) of the network being monitored, the other to ground (body) and the output to the input of the switch 2, the outputs of which are connected to the corresponding group of inputs of the calculator 3, the inputs} of the decoder 4 are connected to the group of inputs of the whole mouth | The properties that are connected to the elements, which have information about the inclusion of power sources and consumers in the network, and parallel to the inputs of block 7, the outputs of the decoder 4 are connected to the corresponding group of inputs of the calculator 3 and parallel to the inputs of the block O, the output of which is connected to the input of the switch 2 and in parallel with the input of the block 7 and with the input of the element 6, the output of which is connected to the corresponding input of the calculator 3, the outputs of the same calculator 3 are connected to the inputs of the indicator 8, block 9 and the driver 10, the output of which it has inputs for resetting the initial state of switch 2. of block 5, element 6 and block 7, and the output of block 7 is connected to the second input of element PI 6. The device operates as follows. After connecting the device to the monitored network 11 using the appropriate terminals, the information on the magnitude of the equivalent insulation resistance of the network is measured by this (some random) combination of sources and energy consumers by meter 1 and through switch 2 enters the memory block of calculator 3. Simultaneously The deciphering device 4 to the other inputs of the calculator 3 shows the TOiM information, which is the number of combinations available at the moment, there are 15 networks at the moment, which is also added to the memory of the computer 3, and to the input of the block 7 and the information which components (sources to: energy consumers) are included at this time. In block 7, the entries are: 1 non-repetition of the included components, and then their number is determined by the signal from the output of block 5, which received information from the decoder 4. This I1 formation is outputted to the AND 6 element as a signal that allows the issuance of a command to Penning the equation into the calculator 3 only if the number of combinations (combinations), the signal (information, n) about which is received) from deiifrato) and 4 through the block 5 of selection of non-repeating combinations and other input of the PI 6 element, becomes equal to the number components, inform The rates about which I post pa esmsggg AND G from block 7.

When a network arises (based on the operating conditions) of a new combination of energy sources and consumers, information about K) this, as well as in the previous case, through the digitizer 4, and then through block 5 in the switchboard) E 2, and element 6 and In block 7, directly and through block 7, to the other input of the element 6, irichem in block 7–15, only non-repeating comionents of the occurring n occurring combinations (combinations) are recorded, i.e., the output of block 7 receives information on the number of non-repeated second-generation components , priping in their participation in these

20 echapati x (in this particular case, two). Sigal o) the availability of a new combination of sources and consumers of the network switches switch 2 to a new position and, thus, connects the output of the meter to the new

25 to the input of the calculator 3. Therefore, information on the magnitude of the co-isolation of the network for a new combination of sources and consumers is recorded in another memory cell of the calculator 3. Information on what

The combination 0 takes place at the new moment of time, and it already comes from another output of the decoder 4 to another input of the calculator 3 and is also recorded in another memory cell of the calculator 3.

About the specified activities with fxxing information about new combinations, it continues until it is found on the element 6 that the number of irvicBHinx is a place of

0 is equal to the number of non-repeating combi-G1s (sources and notes of the eb and tele and e nergii u) that they receive in them.

At this moment, the signal from the output of element 6 5 doesn’t enter the calculator 3, giving the command to solve the system of those equations that corresponded to the combinations that took place and the right-hand parts of which were determined by the corresponding determined specific values of the measured insulation resistances.

The set of the specified set of possible V |) avlepiums is entered into the calculator 3 in advance.

After the required system of equations is rendered, the combination of which may be different for different cases, the information about the desired values is displayed on the indicator 8 and is fed in parallel to block 9.

Odio-time, the signal about the end of the decision enters the shaper 10, in which a sigal is formed, which is connected to the corresponding inputs of the switch 2, blocks 5 and 7, which returns them to the outgoing state.

Claims (1)

At the same time you spoil the new measurement cycle. The proposed device allows timely preventive maintenance of individual consumers and energy sources, i.e., it allows for system diagnostics. An apparatus for measuring the insulation resistance of electrical networks, comprising a series-connected switch and meter with input terminals, as well as an indicator associated with a documentation unit, characterized in that, in order to determine the insulation resistance value of individual sections of an electrical network without disturbing it normal operating mode, it is equipped with a calculator, a sampling unit, an element AND, a driver, a GC block and a decoder connected to the first group of inputs of the calculator and cutting successively, the intake unit and the I element — with the second group of inputs of the transmitter, the first output of which is connected to the documentation block and the indicator, and the second output through the driver is connected to the first input of the switch and the first input of the memory block whose second inputs are connected to the output of the sampling unit, the network being controlled is connected to the decoder, as well as to the memory unit and the element I sequentially connected, the driver is connected to the selection unit, and the switch is connected to the third group of inputs of the calculator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 386351 Cl. G 01 P 27/18, 1973.