SU1141572A1 - Code transmitter - Google Patents

Abstract

A CODE TRANSMITTER containing a drive and a pulse generator connected in series, as well as a first counter and a decoder, the I outputs of which are connected to the output buses through the corresponding triggers, each of which is connected to the corresponding input of the first element OR through the corresponding driver, the other inputs of which are connected to the decoder outputs and the output of the first element OR is connected With the counting input of the second counter, the first outputs of which are connected to the information inputs of the first chain after sequences linked keys, ex. This is due to the fact that, in order to increase reliability in operation, a polarized relay, a high-frequency generator, a register, a third counter, two additional drivers, and a second chain of series-connected keys are entered into it. Whose, one-shot, second and third OR elements and element AND, the output of the pulse generator through the opening contact of a polarized relay is connected to the input of the first counter, and through the closing contact with the input of the one-shot and the input of the register reset, the first and second outputs of which through additional drivers are connected to the inputs of the second OR element, and the third output is connected to the first winding terminal of a polarized relay, the other terminal of which is connected to the output of the second chain connected in series with a switch , with another input of the second element OR and the input of the third counter, the first output of which is connected to the input of the generator and the input W 11ine, and the second output - to the first input of the third element OR, the second input of which is connected to the output of the And element, and the output to the clock input register, while the output of the high-frequency generator is connected to the first input of the element I, the second input of which is connected to the first output of the decoder, in addition, the output of the one-oscillator is connected to the control; the second input of the first chain is connected s, oo output of which is connected to the reset input of the second counter and the data input of the second chain of series-connected key information inputs which are connected to the second output of the second counter, the output of the second OR gate is connected to the input of the accumulator.

Description

11 The invention relates to a pulse technique and can be used in automatic blocking devices on industrial vehicles. A code transmitter is known, comprising a series-connected stabilizing unit, a pulse generator and a distributor, the outputs of which are connected to an output unit and a control unit consisting of an auxiliary distributor and a reference unit CO. The disadvantage of this code transmitter is the low reliability of the operation, which means that the code transmitter is turned off in case of accidental failure. The closest to the invention is a code transmitter containing a serially connected drive, a pulse generator, a first counter and a decoder, the outputs of which are connected to the output buses through respective triggers, each of which is connected to the corresponding input of the first OR element through the corresponding driver, the other inputs of which are connected to . the outputs of the decoder, the output of the first element OR is connected to the net input of the second counter, the outputs of which are connected to the information inputs of a chain of serially connected keys, the control input of which is connected to the first output d of the encoder, and the output to the input of the coil 2. The disadvantage of the known code transmitter is It is possible to automatically turn on a faulty transmitter after a short power supply has been turned off, which may lead to the resumption of malfunctioning at accumulation of damage s. The aim of the invention is to improve the reliability of the code transmitter. The goal is achieved by the fact that a code transmitter containing a drive and a pulse generator connected in series, as well as a first counter and a decoder, the outputs of which are connected to the output buses through corresponding triggers to the corresponding buses of the first the OR element, the other inputs of which are connected to the outputs of the decoder, and the output of the first element OR is connected to the counting input of the second counter, the first outputs of which are connected to the information inputs the first chain of serially connected keys, a polarized relay, a high-frequency generator, a register, two additional drivers, a third counter, a second chain of serially connected keys, a single vibrator, a second and third OR elements, and an AND element, are entered, and the output of the pulse generator is via a normally open relay connected to the input of the first counter, and through a closing contact to the input of the one-shot and the reset input of the register, the first and second outputs of which through the corresponding additional e shapers are connected to the inputs of the second OR element, and the third output is connected to the first winding terminal of a polarized relay, the other output of which is connected to the output of the second chain of serially connected keys to another input of the second OR element and the third counter input, the first output of which is connected to the generator input and the input bus, and the second output - to the first input of the third element OR, BTopofi, whose input is connected to the output of the element And, and the output - to the clock input of the register, while the output of the high-frequency generator is connected To the first input of the element And, the second input of which is connected to the first output of the decoder, in addition, the output of the one-vibrator is connected to the control input of the first chain of serially connected keys, the output of which is connected to the reset input of the second counter and information input of the second chain of serially connected keys, information inputs which is connected to the second outputs of the second counter, while the output of the second element OR is connected to the input of the drive. The drawing shows the functional diagram of the code transmitter. The code transmitter contains a accumulator 1 connected by its output to the generator 2 pulse input, the synchronization input of which is connected to the input bus 3, and the output to the output of the decoder 4 through the normally open relay 5 and the first counter 6, the decoder 4 outputs and its first output 7 is connected to the corresponding triggers 8-10, connected by their outputs to the output buses 1113 directly, and to the inputs of the first element 14 OR - through the form, cables 15-17, and the other inputs of the first element 14 OR are connected to all outputs d 4 decoder, except for its first output 7. Moreover, high-frequency generator 18 is connected by output to one input of element 19 AND, the other input of which is connected to the first output 7 of decoder 4, the third element 20 OR, one input of which is connected to the output of element

19I, other input and output element

20IL connected to the input bus 3, respectively, through a third counter

21 and to the clock input of the register 22, the first and second outputs of which through the first and second additional drivers 23 and 24 are connected to the first and second inputs (of the second element 25 OR, the third input of which is connected to the output of the second chain 26

serially connected keys, the second counter 27, the counting input which is connected to the output of the first element 14 OR, and the reset input — to the control input of the second chain 26 of serially connected keys and to the output of the first chain 28 sequentially connected keys. Moreover, one output of the second counter 27 is connected to the information inputs of the first | VoI chain 28 in series, several keys, and the others - with the information inputs of the second chain 26 serially connected keys, the one-shot 29, whose input is connected to the closing contact 30 of the polarized relay, and the output - with the control input of the first chain 28 of serially connected keys, the winding 3t of a polarized relay, one output of which is connected to the third output of the register 22, and the other to the output of the second chain 26 sequentially connect private keys.

The code transmitter works in a perfect way.

After some time (approximately the time of two or three code

cycles) after switching on the code transmitter, a pulse is generated at the output of the third stripper 21, through element 20 OR enters the clock input of the register 22, which causes the first output of the register 22 to be excited. Excitation of the first output of the register 22 causes the additional driver 23 to generate a pulse, acting through element 25 OR on a drive that receives a charge, so that the generator of 2 pulses begins to generate pulses, which follow with a frequency multiple of the network (for example, 100 Hz). At the same time, the opening contact 5 of the polarized relay is closed (in the corrected code transmitter), and the first 6 and second 27 counters are in the initial state and logical units are written in triggers 8-10. The pulses of the generator 2 pulses through the contact 5 of the polarized relay arrive at the input of counter 6, as a result of which, as it is filled, the outputs of the decoder 4 at the times determined by the code structure produce control pulses arriving at the installation inputs of the trigger 8-10. These control pulses are also fed to the inputs of element 14 OR. Impulses from formers 15-17 are also supplied there. From element 14 OR, the pulses arrive at the input of the second counter 27. At the end of the cycle, when the first counter 6 returns to its initial state, from the first output 7 of the decoder 4 is fed, 1 to the input of element 19 AND, thanks to whose pulses from the high-frequency generator 18, having its frequency for 2-3 times the maximum frequency, begins to flow into register 22. With the arrival of these pulses, the outputs of register 22 are energized. When the second output of register 22 is excited, a current begins to flow through the winding 31 of the polarized relay, as a result The contact 5 of the polarized relay opens and the contact 30 closes. The next pulse from the generator of 2 pulses, dropping the register 22, also acts on the one-shot 29, which gives a pulse comparable in duration to the controllable stubs. This impulse passes through the first chain 28 after I 1

optionally connected keys, if the second counter 27 contains a number corresponding to the correct operation of the code transmitter, and the leading edge resets the counter 27, thereby ensuring that it can pass through the second chain 26 of serially connected keys. This pulse further through element 25 OR acts on drive 1, which is charged, ensuring further operation of the code transmitter. In addition, this pulse enters the winding 31 of the polarized relay, returning this relay to its original state.

In the case of a malfunction in the device, the pulse from the output of the one-shot 29 will not go to drive 1, since the second counter 27 will contain a number that does not correspond to proper operation. Drive 1, without receiving a charge, is discharged and the generator 2 151 pulse 6v ceases to work. T., I.e. code transmitter stops working. In this case, the automatic start of the transmitter begins to work (as well as during the initial start-up). In this case, if, after the first start, the accompaniment of the first j

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the output of register 22, the device will not restore normal operation, a second start occurs. In case of permanent damage, the second run 5 will also be unsuccessful, therefore the third pulse will go to the register 22 of the third counter 21, under the action of which the third output of the register 22 will be excited and the polarized

10 relays throw their measles. In such a state, the polarized relay will be permanently, excluding the possibility of automatically starting the faulty code transmitter.

15 even in the event that the supply voltage is again supplied, since A polarized relay is a non-volatile memory element that detects damage in a 20 device.

Thus, the introduction of additional elements - relays, high-frequency generator, register,

25 of the counter, formers, the one-shot, the AND and OR elements, and the chain of serially connected keys allows to increase the reliability of the device operation by excluding the resumption of work during the accumulation of the turns;

Claims (1)

A CODE TRANSMITTER containing in series: a drive and a pulse generator ^z (as well as a first counter and a decoder, the outputs of which are connected via output triggers to output buses, each of which is connected via a corresponding driver to the corresponding input of the first OR element, the other inputs of which are connected to the decoder outputs, and the output of the first OR element is connected to the counting input of the second counter, the first outputs of which are connected to the information inputs of the first chain separately connected keys, characterized in that, in order to increase reliability in operation, a polarized relay, a high-frequency generator, a register, a third counter, two additional shapers, a second chain of series-connected keys, a one-shot, a second and a third are introduced into it OR elements and AND element, and the output of the pulse generator through the NC contact of the polarized relay is connected to the input of the first counter, and through the NC contact with the input of the one-shot and the reset input of the register, the first and second outputs of which horn through the corresponding additional shapers connected to the inputs of the second OR element, and the third output to the first output of the polarized relay coil, the other output of which is connected to the output of the second chain of series-connected keys, with another input of the second OR element and the input of the third counter, the first output of which is connected to the generator input and input wine, and the second output to the first input of the third OR element, the second input of which is connected to the output of the AND element, and the output to the clock input of the register, while the output a high-frequency generator is connected to the first input of the element And, the second input of which is connected to the first output of the decoder, in addition, the output of the single-vibrator is connected to the control input of the first chain of series-connected keys, the output of which is connected to the reset input of the second counter and the information input of the second chain of series-connected keys , the information inputs of which are connected to the second outputs of the second counter, while the output of the second OR element is connected to the input of the drive. '