RU2118846C1 - Gear testing wiring - Google Patents

Abstract

FIELD: automatics, computer engineering. SUBSTANCE: gear has clock generator, counter, two decoders, indication unit with two groups of light-emitting diodes, indicators of shut-down and termination of operation, flip-flop, NOT-OR gate, former of pulses of start and continuation of operation, former of shut-down pulse, smoothing capacitor, two load resistors, n voltage followers with open collector, n OR-ELSE gate with open collector, transmitter, receiver, communication means, mode switch and prod. Gear is composed of two parts and that is why it enables n-core bundle already laid in closed duct to be tested. It can also test bundle with special wiring or identify numbers of wires in bundle. Complete picture of state of tested object is displayed on indication unit ( short-circuit, break, special connections ) which presents technical result of invention. EFFECT: expanded functional capabilities and increased authenticity of information obtained by gear. 1 cl, 5 dwg

Description

 The invention relates to the field of automation and computer technology and can be used to verify electrical installation of harnesses.

 A device for monitoring electrical installation [1], containing a pulse generator, counter, decoder, display unit, switch, two triggers, element And, pulse shapers start and continue operation, a comparator, two status indicators and an element NOT.

 The disadvantages of the device [1] are the complexity and ambiguity of information when crossing more than three wires.

 A device for monitoring electrical installation [2], containing a clock pulse generator, counter, decoder, display unit, trigger, element And, four load resistors, pulse shapers start and continue operation, a smoothing capacitor, n polling cells, each of which contains a repeater voltage with an open collector and an element EXCLUSIVE OR NOT with an open collector.

 The disadvantages of the device [2] are limited functionality, for example, when checking the harness laid in a closed channel, as well as low information content.

 The closest in technical essence and the achieved result is a prototype of the invention is a device [2].

 The aim of the invention is to increase the reliability of information and expand the functionality of the device.

This is achieved by the fact that:
1) a second decoder, a pulse shaper, a second group of LEDs, an OR-NOT element, stop and end indicators, a second load resistor, an operating mode switch, a probe, a transmitter, a communication medium, and a receiver are introduced into the device;
2) the entered communications provide synchronization of start-up, continuation of work and shutdown;
3) the transmitter and receiver can be implemented in any known manner, for example, as converters of parallel code to serial and serial to parallel, respectively, while the communication medium will be a pair of wires. Other possible implementations of the receiver and transmitter may be the use of modems or radio devices, in these cases the communication medium will be a telephone network or radio signal, respectively, and so on;
4) the device is structurally made in the form of two blocks, one of which is connected to the beginning of the lines of the tested harness, and the second to the ends of the corresponding lines, and the transmitter and receiver can be structurally made as separate blocks.

 The invention is illustrated graphically.

 In FIG. 1 shows a functional diagram of a device; in FIG. 2 - an example of the implementation of the pulse shaper "Start" and "Continuation of operation; in Fig. 3 - an example of a stop pulse shaper; in Fig. 4 - an example of a transceiver; in Fig. 5 - the waveform at the outputs of the corresponding elements (timing diagram).

 The device comprises a clock pulse generator 1, counter 2, a first decoder 3, an indication unit 4, a second decoder 5, a trigger 6, an OR-NOT 7 element, a “Start” and “Continue” pulse shaper 8, a stop pulse shaper 9, the first load a resistor 10, a smoothing capacitor 11, indicators of the end of work 12 and stop 13, the switch mode 14, n elements EXCLUSIVE OR NOT with an open collector 15, n voltage followers with an open collector 16, transmitter 17, receiver 18, communication medium 19, the second load resistor 20 and 21 y.

 The display unit 4, for example, is a combination of two groups of n - connected in series limiting resistor and LED (hereinafter the first and second group of LEDs), and the other terminals of the resistors are connected to a power source. The cathodes of the first group of LEDs are connected to the first inputs, and the cathodes of the second group of LEDs are connected to the second inputs of the corresponding elements EXCLUSIVE OR NOT 15.

 The pulse generator "Start" and "Continue" 8 contains two buttons "Start" 22 and "Continue" 23, four load resistors 24, 25, 26 and 27, two flip-flops 28 and 29, element AND-NOT 30 pulse generator 31 .

 The stop pulse generator 9 contains an element NOT 32 and an element 3I-NOT 33.

 The generator 1 is connected by an output to the input of the Start and Continue pulse shaper 8, with the gate input of the stop pulse shaper 9 and the input of counter 2, the bit outputs of which are connected to the corresponding inputs of the first decoder 3 and transmitter 17, the output of which is through the communication medium 19 connected to the input of the receiver 18, the outputs of which are connected to the corresponding inputs of the second decoder 5, the transfer output of the counter 2 is connected to the first input of the element 7 and the end-of-work indicator 12, the outputs of the decoder 3 are connected to the first inputs respectively the existing elements 15. The first and second inputs of each element 15 are connected to the corresponding inputs of the display unit 4, and the outputs of the elements 15 are combined and connected to the information input of the stop pulse generator 9 and to the first terminals of the first load resistor 10 and smoothing capacitor 11, the second terminals of which are connected to the power bus and the zero bus, respectively, the mode switch 14 is connected by the first input to the output of the element 7, the second input is connected to one end of the second load resistor 20 and the probe 21, and the output connected to the stop input of the generator 1, the other end of the second load resistor connected to the power bus, the output of the driver 9 connected to the installation input of the trigger 6, the reset input of which is connected to the first output of the driver 8, the second output of which is connected to the reset input of the counter 2, inverse output trigger 6 is connected to the enable input of the driver 9, and the direct output of the trigger is connected to the input of the stop indicator 13 and the second input of element 7. The outputs of the second decoder 5 are connected to the inputs of the respective repeaters 16. torye inputs of each element 15 are the first input device and the output of each repeater 16 - second inputs.

The second decoder 5, the elements 16 and the receiver 18 are structurally allocated in a separate block, and all other elements form another block. Information is transferred from one block to another using the transmitter 17 and receiver 18 through the communication medium 19, which can be implemented in the form of a radio signal, a two-wire wire, a telephone network, an m-core cable, where m = log ₂ n + 1, and n - the number of wires in the cable being tested, and in other ways.

 The device operates as follows.

Suppose that the ends of the wires of a working n-wire bundle are connected to the first and second inputs of the device, and, for example, converters of parallel code to serial and vice versa are used as a transmitter and receiver, while the communication medium is a two-wire wire. The switch 14 is switched to the "Basic" position and provides a connection between the output of the element 7 and the input of the generator 1. When you press the "Start" button 22 of the shaper 8, trigger 6 and counter 2 are reset, and the clock starts. The parallel binary code from the outputs of counter 2 is supplied to the inputs of the transmitter 17, which converts the parallel code into a serial signal and through the communication medium 19 enters the receiver 18, from the outputs of which the inverted parallel code is supplied to the second decoder 5. Thus, to the inputs of the decoders 3 and 5, signals from counter 2 will be received, and a Running Zero signal appears at the outputs of the decoders. The signals from the first decoder 3 alternately light the first group of LEDs, and the signals from the output of the second decoder through repeaters 16 and the conductors of the tested harness, alternately light the second group of LEDs. These signals also go to the first and second inputs of the corresponding elements EXCLUSIVE OR NOT with an open collector. Since the inputs of one of the elements EXCLUSIVE OR NOT will always have logical zero signals, and at the same time the remaining signals of logical "1", then the combined outputs of elements 15 will have a logical "1", which does not change the trigger state
When one appears at the overflow output of counter 2, the generator will stop through the OR-NOT 7 element and the “End of work” indicator will light. No LED lights up on display unit 4. Verification is over. Moreover, during the test, the pairs of first, second and so on LEDs will be lit alternately.

 Consider the case of a short circuit, for example, the sixth, ninth and twelfth wires of the tested harness are closed. In this case, when the counter counts to six, then the logic zero signal will appear on the sixth outputs of the decoders 3 and 5, and the logic 1 signals will be present on the remaining outputs. Logic "0" signals will be present at both inputs of element 15 with serial number 6, but since the wires are shorted, the logic zero signal through repeater 17 at number 6 will also go to the second inputs of EXCLUSIVE OR NOT 15 elements with serial numbers 9 and 12, the first inputs of which are currently receiving logical 1 signals; therefore, a logical zero signal will appear at the combined outputs of the elements 15, which, coming to the former 9, is inverted and gated by a signal from the clock generator. The signal from the output of the driver 9 will set the trigger 6 and, accordingly, through the element OR-NOT 7 will stop the clock 1 and the indicator “Stop” 13 will light. Thus, on the display unit 4 the sixth LED in the first group of LEDs and the sixth, ninth and twelfth LEDs will light in the second group of LEDs, which informs that the wires of the controlled harness under these numbers are shorted. Moreover, the light-emitting diode in the first group indicates the number of the wire in the tested harness, and its state (shorted, confused, open) indicates the ignition of the LED (s) in the second group of LEDs. After that, by pressing the button 23 of the shaper 8, the circuit counts to n, lights the "End" indicator and stops.

 Consider the case of a break, for example, wire number five in a tested harness is broken. The circuit starts and when the counter counts to five, a logic zero signal appears on the fifth outputs of the first and second decoders. The fifth LED from the first group lights up, and the fifth LED from the second group does not light. The logical zero signal from the output of the first decoder will go to the first input of element 16 (with serial number five), and since the wire is broken, a logical "1" signal is present at its second input, and a logical zero signal will appear at the combined outputs of the elements 16, which will cause the clock 1 to stop and the Stop indicator to light 13. As a result, one fifth LED from the first group will remain lit on the display unit 4, which informs about the breakdown of the fifth wire in the controlled harness.

 Consider the case of checking the harness with special wiring, for example, the second contact on one side of the tested harness is connected to the tenth contact on the other side. When the counter counts to two, the second LED from the first group and the tenth LED from the second group will light up. Accordingly, the generator will stop and the LEDs on the display unit will remain on, indicating the presence of a connection. This state will remain until the button "Continue work" is pressed.

 Consider the case of working with the probe 21. This mode is used to identify the number of cores in the tested harness. The mode switch 14 is moved to the "Probe" position, at which the generator input will be connected to the probe output. The ends of the wires of the tested harness are connected to the second inputs of the device (the first inputs of the device are not used in this mode), and the beginning of the wires remains free. In the first group of indicators, all LEDs are sequentially sorted, that is, the circuit operates in a cyclic mode. When the probe is connected to the beginning of any core of the tested harness after a certain time, the counter will stop and the LED in the first group of indicators will light up, indicating the number of this core corresponding to its serial number from the end of the tested harness.

 The invention meets the criterion of "inventive step", as it includes a set of essential features with the appropriate connections, namely: clock generator, counter, first decoder, trigger, pulse generators "Continuation of work" and "Start", display unit with the first group of LEDs, smoothing capacitor, load resistor, n elements EXCLUSIVE OR NOT, n buffer voltage followers, as well as the entered second decoder, pulse shaper "Stop", element OR NOT, the second group of LEDs, indicator Stop and end torches, second load resistor, transmitter, communication medium, receiver, mode switch and probe.

 The technical solution is “new” and “industrially applicable”, since the specified set of essential features increases the reliability of information due to the synchronization links introduced and extends the device’s functionality due to the fact that the device allows you to check the already laid long bundle and provides information about incorrect connections , and with the help of a probe, the device allows you to identify the wires in the bundle.

Sources of information
1. A.S. USSR N 1619312, G 06 F 15/46.

 2. A.S. USSR N 1794258, G 06 F 11/22 (prototype).

Claims (2)

 1. A device for monitoring electrical installation, containing a clock generator, the output of which is connected to the counter input of the counter, the bit outputs of which are connected to the address inputs of the first decoder, n outputs of which (n is the maximum number of monitored mounting lines) are connected to the first group of indicators of the display unit accordingly, the first inputs of the corresponding n elements are EXCLUSIVE OR NOT with an open collector, the outputs of which are combined and connected to the first outputs of the first load resistor and a smoothing capacitor, the second conclusions of which are connected to the power bus and the zero bus of the device, respectively, and the second inputs of the elements EXCLUSIVE OR are NOT the first inputs of the device for connecting to the ends of the lines of controlled installation, the trigger reset input is connected to the first output of the “Start” pulse shaper and "Continuation of work", the second output of which is connected to the counter reset output, an indication unit with a first group of n indicators, n voltage followers, and the voltage follower outputs are second the device is connected to the beginning of the lines of controlled installation, characterized in that a stop pulse shaper, a second group of n indicators in the display unit, an OR - NOT element, a second load resistor, stop and end indicators, a second decoder, a mode switch are inserted into it , probe, receiver, communication medium and transmitter, the inputs of which are connected to the corresponding bit outputs of the counter, and the output of the transmitter through the communication medium is connected to the input of the receiver, the output of which is connected to the corresponding and the address inputs of the second decoder, the outputs of which are connected to the inputs of the corresponding n repeaters, the output of the clock generator is connected to the input of the pulse shaper "Start" and "Continuation of work" and to the input of the gate of the pulse shaper stop, the enable signal of which is connected to the inverse output of the trigger, the first input the mode switch is connected to the output of the element OR - NOT, the output of the switch is connected to the control input of the generator, and the second input is connected to the probe and the first output of the second load resistor, the second pin which is connected to the power bus, the counter overflow output is connected to the end of operation indicator and the first input of the OR element is NOT, the second input of which is connected to the direct output of the trigger and the stop indicator, the input of the stop pulse former is connected to the combined outputs of the elements EXCLUSIVE OR NOT, and the output - with the trigger installation input, and the second group of indicators of the display unit is connected to the second inputs of the corresponding elements EXCLUSIVE OR NOT.  2. The device according to claim 1, characterized in that it is structurally made in the form of two blocks, the first of which includes a generator, counter, first decoder, display unit, n elements EXCLUSIVE OR NOT, the first and second load resistors, capacitor, a start and continue pulse generator, a trigger, a stop pulse generator, stop and end indicators, an OR element - NOT, a probe and an operating mode switch, and in the second - n voltage followers and a second decoder, while the blocks are interconnected via receivers k and the transmitter, made in any way that provides the conversion of the parallel code, its transmission through the communication medium and the inverse transformation, moreover, structurally, the transmitter and receiver can be part of the first and second blocks, respectively, or be separate blocks.

Images