RU2010330C1 - Device for testing serviceability of electromagnets of telegraph apparatus with fault indication - Google Patents

Abstract

FIELD: automatics. SUBSTANCE: device has power unit, electromagnets controlled by control unit and transistor switches, current transducers. To improve reliability by means of switching specific electromagnet off the multiplexer is brought into the device additionally which commutates each channel. Signal from the multiplexer enters flip-flop through comparator. The flip-flop is connected with V-input of counter, decoders and detects malfunctions by means of indicator. The other character of malfunction enters H-segment of indicator from comparator through the other flip-flop. EFFECT: improved reliability. 1 dwg

Description

 The invention relates to automation devices, computer technology, data transmission systems, telegraphy and can be used in sign-synthesizing printing apparatuses.

 The purpose of the invention is to increase reliability by disabling a particular electromagnet or the entire device.

 The drawing shows a structural electrical diagram of the proposed device.

 It contains a control unit 1, n elements And 2, n transistor switches 3, electromagnets 4, a power source 5, current sensors 6, a multiplexer 7, a first decoder 8, a second trigger 9, a counter 10, a generator 11, an additional element And 12, an inverter 13, the first trigger 14, the delay unit 15, the third trigger 16, the initial installation block 17, the comparator 18, the resistor 19, the indicator 20, the second decoder 21.

 The device operates as follows.

 When turned on, block 17 sets the trigger 16 to the logical “0” state (source 5 is on: segment H of the indicator 20 is off), trigger 14 to the logical “0” state by its inverse input and logical “1” by the direct input, which allows the operation of the counter 10 and blocks through the inverter 14 the operation of the decoder 8 (indicator 20 is off).

 The control unit 1 is synchronized with a control frequency generator (not shown in the drawing). During a logical “1” at the output of this generator, all the bits of the counter 10 are reset to a logical “0”, at the V-input of the multiplexer 7, the signal is a logical “1”, which leads its output to a high resistance state, at the inputs of the trigger 9 and the inputs of the decoder 8 - logical "0", at its outputs - logical "1", which allows the control of transistor switches 3 by block 1 through the elements And 2.

 During the logic “0” of the control generator with a working control unit 1, there should be logical “0” signals at its outputs that close the transistor switches 3, there is no voltage on the current sensors 6. The multiplexer 7, controlled by the counter 10, sequentially switches the voltage from the current sensors 6 to the comparator 18.

If there are no voltages (block 1 and transistor switches 3 are operational), a logic “0” signal is present at the output of the comparator 18, which does not change the state of the triggers 14, 16. If voltage is present on any current sensor 6 _i , which indicates the flow through corresponding transistor switch 3, a logic 1 signal is generated at the output of comparator 18, a logical 0 signal is generated at the direct output of trigger 14, which stops counter 10, and a binary code corresponding to the number of the faulty channel is generated at its output a, the logic signal “1” through the inverter 13 turns on the decoder 8 and the figure corresponding to the faulty channel lights up on the indicator 20. In addition, the signal from the inverted output of the trigger 14 gates the trigger 9 and the binary code is supplied to the decoder 21, at its i-th output a logic signal “0” is generated, which is fed to the corresponding element And 2, this signal is fed to the transistor 3 _i . If the control unit 1 is faulty, the transistor closes, the voltage at the sensor 6 _i disappears, a logic “0” signal is generated at the output of the comparator 18, which is present at the D-input of the trigger 16. The signal from the inverse output of the trigger 14 gates the delay unit 15 and after a specified time (determined by transients in the circuit), block 15 gates the trigger 16, a logical "0" signal continues to be present at its output, segment H of indicator 20 does not light up, which indicates a malfunction of control unit 1, and the device continues to operate with spaced letters, indicating the number of the faulty channel, control unit 1.

If there was a breakdown of the transistor switch 3 _k, then implemented algorithm described above, but inhibit signal output from the decoder 21 does not close the faulty transistor, the voltage on the sensor 6 _{to the} persists, the signal of logic "1" is present at the output of the comparator 18, and the D-input trigger 16 and when a gating pulse arrives from the output of the delay unit 15, a logic 1 signal is generated at the output of trigger 16, which turns off the source 5, the device turns off, preventing the Kth electromagnet of the printing device the graphical apparatus, at the same time, segment H lights up in addition to the present number of the faulty channel, which indicates the breakdown of the K-th transistor key. (56) Japanese Application N 52-42571, cl. G 06 K 15/00, 1977.

Claims (1)

 DEVICE FOR CHECKING THE PERFORMANCE OF ELECTROMAGNETS OF A TELEGRAPHIC APPLIANCE WITH A MALFUNCTION INDICATOR, which contains a power source, which, through electromagnets, is connected to collectors of n transistor switches, which are also connected to or the whole device, a generator, a multiplexer, a counter, a first, a second decoder, an indicator, a resistor, three triggers, a comparator, a delay unit, an initial unit are entered new, n AND elements, an additional AND element and an inverter, whereby the generator output is connected to the counter C input, the V input of which is connected to the first input of the additional AND element, to the inverter input and the direct output of the first trigger, the second input of the additional AND element is connected to synchronization of the control unit, and the output to the R-input of the counter and to the V-input of the multiplexer, the control inputs of which are connected to the outputs of the counter, the inputs of the first decoder, the R-input of which is connected to the output of the inverter, and the D-inputs of the second, toggle to in odes of the second decoder, the outputs of which are connected to the first inputs of n elements AND, the second inputs of which are connected to the outputs of the control unit, and the outputs to the bases of n transistor keys, current sensors are connected to the information inputs of the multiplexer, the output of which is connected to the p the other input of which is connected to the reference voltage source, and the output is connected to the R-input of the first trigger and the D-input of the third trigger, the S-input of the first trigger is connected to the R-input of the third trigger and connected to the initial unit, C-input of the trigger the trigger is connected to the output of the delay unit, the input of which is connected to the inverse output of the first trigger and the C-input of the second trigger, and the output of the third trigger is connected to the input blocking of the power supply and the H-segment of the indicator, the digital segments of which are connected to the trigger.

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