SU928386A1 - Device for remote indication of distributed objects state - Google Patents

Description

The invention relates to security alarms and can be used to signal the state of dispersed objects with a common wireline.

It is known a device for telecontrol that contains a register at a controlled item, an address decoder, a starting parcel decoder, a display unit, a time unit, a common signal generator, a synchronization unit, an information availability unit, an information input unit, and an AND element having corresponding communications. In this device, an alarm signal from each controlled point is sent with its time delay 11.

Closest to the present invention is a device for signaling the state of dispersed objects, which contains a pulse generator at the control station, the output of which is connected to the first input of the pulse shaper, to the second input of which the output of the counter, the indicator, the memory block and the AND element are connected. each controlled item is a polarity decoder, the first output of which is connected respectively to the first inputs of the first and second And elements, the outputs of which are connected respectively to the first and second inputs m-OR gate, the second output of decoder polarity connected respectively to the first inputs of the first and third AND gate and to the third input of the OR gate, the output of the third AND gate through schet10 snip connected to the second input of the first flip-flop, the first and second outputs which are respectively connected to the latter. the inputs of the first and second elements And the output of the shaper

15 impulses of the control room are connected via a communication line to the input of the switch of the first controlled point, the output of the OR element of each previous controlled point is connected to the input of the switch of the next controlled point, the shift register and the second decoder 2.

Claims (1)

The disadvantage of this device 25 is low speed (significantly higher than that of the other device listed above), since the information on the state of all monitored objects enters the control room through Mn (1 + 2 loqan) tactor, where, n - the number of foreground VO objects. The aim of the invention is to increase the speed of the device by counting the polling cycle of all controlled items. The goal is achieved by the fact that in the remote signaling device 6 the state of dispersed objects,. containing at the control room a pulse geyrator, the output of which is connected to the first input of the pulse generator, to the second input of which the counter output is connected, and the indicator, at each controlled point .- polarity decoder, the first input of which is connected respectively to the first inputs of the first and second elements And, the outputs of which are; connected to the first and second inputs of the element OR, the second output of the polarity decoder is connected respectively to the first inputs of the first trigger and the third element And to the third input of the element OR, the output of the third element And through the second counter is connected to the second input of the first trigger, the first and second the outputs of which are connected respectively to the second inputs of the first and second elements I, the output of the pulse driver of the control room is connected via a communication line with the input of the first polarity decoder of a controlled item, an output of each OR. The preceding monitored item is connected to the input of the polarity decoder of each subsequent control point, the shift register and polarity decoder are entered at the control point, the first output of which is connected to the counter input and to the first input of the shift register, the second output of the polarity decoder is connected to the second the input of the shift register, the output of which is connected to the indicator, the output of the counter is connected to the third input of the shift register, the element I, the counter, the trigger, the first and the second outputs of which are respectively the second inputs of the third and the first input of the fourth element I, the output of the fourth element: that is connected to the input of the third counter, the output of which is connected to the first input of the second trigger, the second input of which is connected to the second input , the output of the polarity decoder is connected to the second input of the fourth element, AND, the output of the last control. This station is connected to the input of the polarity decoder at the distribution point. On depicted scheme of the proposed device. The device contains a pulse generator 1, indicator 2, shift register 3, pulse generator 4, counter 5, decoder. Polarity, polar decoder 7, third element 8 AND, fourth element 9 AND, first element 10 AND, second element 11 And, the second counter 12, the third counter 13, the first trigger 14, the second trigger 15, element 16 OR. . The device works as follows. In the initial state, counter 5 and shift register 3 are at the control station, counter 12 and 13 are at the controlled point in the zero state. At all controlled points, the first elements 8 I are open, and the second elements 9 I are closed at their second entrances. The generator 1 generates a sequence of pulses that arrive at the input of the former 4. The former 4 generates a sequence of pulses of polarity and negative polarity, consisting of n-1 pulses of positive and n pulses of negative polarity. These pulses arrive at the input of the decoder 7 of the polarity of the first point to be controlled. All controlled items work in the same way. Their difference from each other is that in each controlled point, the second counter 12 and the ureth counter 13 give overflow signals after arriving at their inputs n - N + 1 and N signals, where N -: number of the controlled point in the circuit, starting from the exit control tower; p - the number of controlled points in the circuit. The operation of the device is based on the toM that the pulses of positive polarity control the operation of the controlled points and the control room, and the negative polarity pulses are carriers of information about the state of the controlled objects (their number is equal to the number of controlled points). Each controlled point absorbs a negative pulse. polarities if the control object is in the Avarih state or misses it if the violation has not occurred. Moreover, each controlled point can absorb that negative polarity pulse, the number of which in the sequence of negative pulses is equal to n - N +.1. The former 4 consists of a sequence consisting of n + 1 imP5 positive polarity and n negative polarity pulses located between positive polarity pulses. The first positive pulse from the second output of the decoder 7 polarity goes to the first inputs of the third 8 and fourth 9 elements AND, to the second input of the first trigger 14 and through element 16 OR to the input of the next controlled point. In this case, the trigger 14 opens the first element 10 I through the second input, since in the initial state only the third element 8 I is open at the second input, the signal from the output of the decoder 7 of the polarity is fed to the input of the second counter 12.. Two cases are possible. First time} tea. This monitored item is the last in the circuit. Then, the counter 12 immediately generates an overflow signal, which is fed to the first inputs of the first 14 and second 15 trigger. The triggers are switched as a result of this opening through the second inputs of the second 11 and fourth 9 elements I. The next negative polarity impulse goes to the first inputs of the first 10 and second 11 elements I. The element 10 And is closed on the second entrance. The third input of the second element 11 And (not shown) is the output of the alarm sensor. The signal at the third input. The second element 11 And means normal. Maximum condition of the controlled object. Then the signal from the first output of the decoder 7 polarity through the element 11 open on the other two inputs goes to the second input of the element 16 OR. The subsequent impulse of positive polarity through the element 1 And opened by the two other inputs is fed to the second input of the element 16IOR. The subsequent positive polarity pulse from the second output of the decoder 7 polarity goes to the second input of the trigger 14, the third input of the OR element and through the open fourth element 9. And to the counter 13 The trigger 14 switches and opens the first element 10 I. The counter 13 produces a signal to which the second trigger 15 switches and opens the wave T on the second input of the third element 8 I. The second case. The controlled item has the number N in the contour. Then the signal at the output of the second counter 12 appears after the arrival of n - N + 1 pulses at its input, and the signal at the output of the third counter 13 appears after the arrival of N pulses at its input. After that, both counters are set to zero. Otherwise, the work of controlled items occurs in the manner described. Thus, a sequence of pulses of positive and negative polarity is fed to the input of the polarity decoder 6. The positive polarity pulses from the second output of the polarity 6 decoder are fed to the input of the counter 5 and the second input of the shift register 3. The negative polarity pulses arrive at the first input of the shift register 3 and are written to it. Angle pulses: Polarities are forward pulses when writing informational (negative polarity) pulses to shift register 3. After the 5 p + 1 signal arrives at the input of the counter, which signals the end of the recording of information pulses in the shift register 3, it generates a read signal which is fed to the third input of the shift register 3 and the second input of the imaging unit 4. By this signal, the contents of the register 3 The shift is read into indicator 2 to indicate the results. control, counter 5, and register 3 are turned on, zero, and the driver. 4 starts forging a new pulse train. Thus, the task - improving the speed of the device - has been achieved. The proposed device ends the polling cycle of monitored objects in 2 n + 1 cycles, while the known device requires n (1 + 2) cycles. Consider the inequality 2 n + J.:n + + 2n 10.92.-This inequality is fulfilled, i.e. in those cases when the need arises for special devices for signaling. The increase in this inequality with increasing n indicates an increase in the gain in speed: vii for large values of n. . The invention of the remote signaling device about the state of dispersed objects, containing at the control room a pulse generator, the output of which is connected to the first input of the pulse former, to the second input of which the output of the counter is connected, and the indicator, at each controlled point - the polarity decoder, the first output of which respectively, with the first inputs of the first and second elements And, the outputs of which are connected respectively to the first and second inputs of the element OR, the second output of the decoder via The polarity is connected respectively to the first inputs of the first trigger and the third element AND, and to the third input of the element OR, the output of the third element AND via the second counter is connected to the second input of the first trigger, the first and second outputs of which are connected respectively to the second inputs of the first and second elements AND, dispatcher pulse generator output