SU957176A1 - Device for checking electric wiring - Google Patents

Description

The invention relates to automation and computing and can be used to monitor the correctness of the installation of electronic devices.

A device for detecting electrical installation faults is known, which contains a control unit, an address register, a comparison circuit, a decoder and a signal conditioner, IQ that solves the problem of polling control points according to the addresses issued by a given program J.

The drawbacks of the device are a large amount of electronic equipment, 5 and its complexity.

Closest to the proposed technical entity is a device for checking electrical installation, which contains a control node 20 connected by an output to an input of an address register, a group of outputs of which is connected to the first group of inputs of a comparison circuit, an output under-.

Connected through the cords of the coding wires to the inputs of the device, the output group of which is connected to the second group of inputs of the comparison circuit, and the control input and output are connected respectively to the control output and the input of the control node, the circuit exciter unit consisting of serially connected decoder, and drivers, inputs connected to the outputs of the address register and outputs connected to the outputs of the device 2.

Claims (2)

A disadvantage of the known device lies in its complexity, since the excitation unit of the circuits includes a decoder with a number of outputs equal to the number of tested circuits and a signal conditioner for alternating excitation of all the tested circuits, and the code coils of the encoder have the number of conductors equal to the number of tested circuits , transformers should be with a larger number of primary windings (jrpaHcOopMaTOp low-order should have a number of primary ofMofj ii equal to half of the total number of circuits tested). The consequence of this drawback is low reliability of the control. . The goal is achieved by having a device for checking electrical installation, comprising a control unit connected to a comparison unit, the first group of inputs of which is connected to the input group of the drive unit and to the output register group of the address, the input of which is connected to the output of the control unit, second hpynna the inputs of the comparison unit are connected to the first group of outputs of the Encoder, consisting of read amplifiers and transformers, further comprises a group of OR elements, a key block, a decoder, and the encoder is entered an adder, the encoder transformers are divided into two groups, the primary windings of the transformers of each group are interconnected, and the first group of outputs is encrypted with the outputs of the adder, the primary windings of the first group of transformers and the inputs of the control object, the primary windings transformers of the second group are connected to the first group of inputs of the encoder and to the inputs of the group of elements OR whose outputs are connected to the output of the control object,. secondary windings of transformers of the first and second groups are connected via read amplifiers respectively to the first and second groups of inputs of the adder, the second group of inputs of the encoder is connected to the outputs of the excitation unit and to the primary windings of the first group of transformers, and the third group of outputs of the second group of transformers and with the inputs of a key block, the control inputs of which are connected to a group of outputs of the decoder connected by inputs to the output of the address register. The drawing shows a device diagram. The device contains a node I control, address register 2 ,, powering circuit 3, decoder, key block 5, encoder 6, transformers 7, counting amplifiers 8, adder 9, first 10 and second 11 cords, coded wires, group of elements OR 12, block 13 comparisons, It inputs, outputs 15 and control object 16. The device works as follows. On the command from node I. in register 2, the corresponding addresses are set, the code of which goes to block 3 and the decoder, while the code of the least significant bits goes to the inputs of block 3 (the maximum code value is equal to the number of outputs in one of the groups into which all outputs of the device are divided ), and the code of the remaining bits to the inputs of the decoder k. In accordance with the code at the inputs, the selected bus of the decoder 4 opens the corresponding key of block 5 with which the output of the corresponding element OR 12 is connected to the outputs 15 of object 1b, and block 3 excites the circuits of object 1b that are connected to the same inputs of all elements OR 12, but as only one key of block 5 is open, current will flow through only one circuit of object 1b. Conditional chains are assigned to the tested chains. Since in the device the tested circuits are connected to the harnesses 10 and 11 of the code wires of the encoder 6 and the current flows through the corresponding wires, the output signals of the transformers 7 through the amplifiers 8 are fed to the inputs of the adder 9, the outputs of which are being checked in the binary code. From the outputs of the adder 9, information is fed to the inputs of block 13, which compares the current address of the circuit being checked and the read information received from the encoder 6. If the address codes and the number code match, indicating that the circuit is in good condition, the next address is read. When any of the tested circuits is broken or when the circuits are closed, a code other than expected arrives from the adder, and a stop occurs indicating the address of the interrupted or closed circuits. . The transformers 7 of the encoder 6 are divided into two groups, the primary windings of each of the groups of transformers are connected according to the binary code. The primary windings of the first group of transformers are connected to the first cable harness 1 about the code wires of the cipher 6, which connects the device outputs. With the outputs of the 3-C block of the secondary windings of this group of transformers 7, the signals are amplified by appropriate amplifiers - tf t- J L 8 s outputs 2, 2. . .2 amplifier code of the excited circuit is fed to the inputs 1,2 .., To the first group of inputs of the adder 9. The primary windings of the second group of transformers 7 are connected to the second harness 11 of the code wires of the encoder 6, which connects the outputs of the elements OR 12 (except the first) with the inputs of block 5. The output of one element OR 12 is connected to the corresponding input of block 5, the code cable harness 6 of the encoder 6, so that when driving the circuits connected to the inputs of this element OR 12, there are no signals in the secondary windings of the transformers 7. From the secondary windings of the second group of transformers 7, the signals are amplified by the corresponding amplifiers 8 from the outputs 2, 2 ... amplifiers 8, the code of the connected element OR 12 is fed to the inputs K, K + 1 ... ifi of the second group of inputs of the matrix 9 Specified features of the construction of the encoder 6 required in binary code at the outputs of the encoder 6 the number of the object to be tested 1 of the device. The outputs of the device are divided into groups with the number of outputs in each group equal to 2 (where P is an integer including 0) and equal to the number of inputs of one OR 12 element. Similar exits in All the groups are combined and connected via the first cable harness 10, the code wires of the encoder 6. To the outputs of the 3 Device unit, with a smaller equipment volume and less complexity, it is possible to carry out a mounting check that, other things being equal, increases the accuracy of the control. Formula of the Invention A device for electrical installation, comprising a control unit 6 connected to a comparison unit, the first group of inputs of which is connected to the input group of the field drive unit and to the output register group of the address register, whose input is connected to the output of the control unit, The second group of inputs of the comparison unit is connected to the first group of I outputs of the encoder, consisting of read amplifiers and transformers, characterized in that, in order to increase the reliability of the control results, the device contains a group elements OR, a block of keys, a decoder, and an adder is entered into the encoder, the encoder transformers being divided into two groups, the primary windings of the transformers of each group are interconnected, and the first group of encoder outputs are connected to the adder outputs, the primary windings of the first group transformers. connected to the second group of outputs of the encoder and to the inputs of the control object, the primary windings of the transformers of the second group are connected to the first group of inputs of the encoder and to the inputs of the group of OR elements whose outputs are connected to the output of the test object, the secondary windings of the transformers of the first and second groups are connected through amplifiers of the readings with the first and second groups of inputs of the adder, the second group of inputs of the encoder is connected to the outputs of the excitation unit and with the primary windings of the first group of transformers, three The group of outputs of the encoder is associated with the primary windings of the second group of transformers and with the inputs of the key block, the control inputs of which are connected to the group of outputs of the decoder connected by inputs to the outputs of the address register. Sources of information taken into account during the examination 1. USSR author's certificate No. 220639, cl. G 06 F 15L6, 196 /. 2. Authors' Certificate of the USSR №, cl. G About F 15L6, 1975 (prototype). fff / TSHT