CS210481B1 - Connection for releasing the passage of signals - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to wiring for releasing the passage of signals, particularly in systems of dedicated controllers.

The invention solves the continuity of the passage of individual signals through the signal lines of inputs to assigned outputs.

A single signal line consists of an input, an input circuit, a combination circuit, and an end circuit and ends with an output and a secondary output. The signal line interaction is determined by interconnecting these signal lines such that the output of the first combination circuit is coupled to the first secondary output of the first signal line, the output of the first terminal circuit is coupled to the first input of the second terminal circuit, and the output of the second combination circuit is connected to the second secondary output. the second signal circuit, and optionally the output of the second terminal circuit is connected to the first input of the third terminal circuit.

The advantage is the support effect of signals coming to the inputs of individual signal lines.

The connection is applied in the area of control of segmented sections of production lines using single-purpose controllers coupled with position sensors in individual sections.

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BACKGROUND OF THE INVENTION The present invention relates to circuit-breaker circuitry, particularly in single-purpose controllers, processing output signals of position sensors disposed in articulated production lines, with particular reference to the signal continuity of the signals.

There is no universal yet simple logical structure to control the movement of piece material automatic systems based on the output signals of the position encoders. Some special logic circuits are known which release signals from the inputs to the assigned outputs, where a different combination of connections usually results in the release of only one input signal from the input to the assigned output according to a predetermined priority criterion, e.g. order, combined order, and the like.

A disadvantage of the known circuits is that they only release one input signal at a time from the input to the associated output, for example by interlocking the logic circuits used, and the mutual support effect of the individual input signals taken from the used position sensors is missing.

These disadvantages are eliminated for some special cases by the use of a signal release circuit according to the invention comprising at least two signal lines, wherein the first input of the first signal line is connected to the input of the first input circuit and the first input of the second combination circuit. the input circuit is connected to the second input of the first combination circuit, the output of the first combination circuit is connected to the second input of the first terminal circuit, the output of which is connected to the first output of the first signal line, the first input of the third combinational circuit, wherein the output of the second input circuit is coupled to the second input of the second combinational circuit, the output of the second combinational circuit is connected to the second input of the second terminal circuit whose output. is connected to a second output of the second signal line, said output of the first combination circuit being coupled to the first secondary output of the first signal line, the output of the first terminal circuit to the first input of the second terminal circuit, and the output of the second combination circuit to the with a second secondary output of the second signal line, and optionally the output of the second terminal circuit is connected to the first input of the third terminal circuit.

The advantage of the signal release circuit according to the invention is the mutual undercutting of the signals coming at the inputs of the individual signal lines, manifested by the excitation of the signal at the signal line outputs starting from the excited signal line with the lowest order index. behind the signal line with unrelated input.

The wiring for releasing the signals according to the invention is shown in the attached drawing in an exemplary embodiment. '

The picture is the first input of the first signal line Si connected both to the input of the first input circuit Bi Bi, and with the first ^input] C2 second combinational circuit Cz. The output of the first input circuit B is connected to the second input ² Cl, the first combinational circuit C, the output of the combination circuit C is connected both to the first secondary inlet Yi first signal line, and secondly to the second input ² di first branch circuit Di, whose output is connected to the first output X1 of the first signal line and to the first input ^x d2 of the second terminal circuit D2.

The second input S2 of the second signal line is connected both to the input b2 of the second input circuit B2 and to the first input * 03 of the third combination circuit C3. The output of the second input circuit B2 is connected to the second input ² C2 the second combinational circuit C2, the output of the combinational circuit C2 is connected on one side to the other side Y2 second signal line, and secondly to the second input ² d of the second branch circuit D2 whose output is connected with second output X2 of the second signal line and second input * d3 of third terminal circuit D3.

The third input S3 of the third signal line is connected both to the input b3 of the third input circuit B3 and to the first input ie. a further combination circuit C _n-1 . The output of the third input circuit B3 is connected to the second input ² C3 of the third combining circuit C3, the output of this communication circuit C3 is connected both to the third secondary output Ys of the third signal line and to the second input ² d3 of the third terminal circuit D3. second, with the third output signal X3, the third line, and with the first input ¹ _n d -i D_i another branch circuit.

Similarly, another input S _n _i other signal lines connected both to the input b _n _i another input circuit B _n -i, and with the first input in the order of further combinational circuit C _n. The output of the next input circuit B '_i is connected to the second input ² c _n _i another combinational circuit C _n i, the output of the combination circuit C _n _! It is connected on one side to the other output Y _n _i other signal lines with

and second input ² d _{n 1 of} another terminal circuit D 1 ', the output of which is connected, on the one hand, to another output X _{n 1 of the} next signal line, and secondly to the first input * d "in the order of the next ending'D".

Finally, in order further input S "in the order of another signal line connected to the input b _n in the order of the next input circuit B _n, the output of the circuit B is connected to the second input ² c" in the order of further konjbinačního circuit Cn, the output tohdto combinational circuit Cn is coupled to the next bypass output i Yn in the order of the next signal line, and to the second input ² days in order of the next terminal circuit D _n , whose output is coupled to the next in order of output X _n in the order of the next signal line.

In the exemplary embodiment of the figure, it is assumed that the input circuit is an INVERT circuit, the combination circuit is a NAND circuit, the end circuit is an AND circuit.

The function of the circuit for releasing the signal of the invention in the exemplary embodiment of the figure is such that the signal applied to the input of the signal line, e.g. the second input S2 of the second signal line, passes to the input b of the second input circuit B2. the logic zero signal at the output of this circuit B2, or at the second input ² C2 of the second combination circuit C2. Due to the assumed logic zero signal at the first input S1 of the first signal line, or at the first input C2 of the second combination circuit C2, a logic 1 signal is output at the output of this combination circuit, which passes to the second input; ² d2 of the second terminal circuit D2 and causes the logic 1 signal to be excited at the output of this circuit D2 or the second output X2 of the second signal line and second to the second secondary output Y2 of the second signal line as the logical one signal.

The logic 1 signal from the output of the second terminal circuit D2 goes further to the first input his of the third terminal circuit Ds of the third signal line and causes the logic 1 signal to be excited at the output of the third terminal circuit D3 or the third output X3 of the third signal line.

The thus produced signal is a logic one from the output of the third branch circuit D3 is transferred further to a first input 1 of the next branch circuit D _n _i other signal lines, and causes the excitation signal of a logic one at the output of the further branch circuit D "_i or on another output Xn-j further signal line, and then this signal is a logic one from the. output of a further branch circuit D _n _i passes further to the first input of M, in order further branch circuit D _n in the sequence of further signal leads and causes the excitation signal of a logic one at the output of the order of another terminal of the circuit D ', optionally on the next output X _n in the order of the next signal line.

Obviously, the signal applied to the input of the signal line causes the signal to be output at the output of the signal line and to all the signal lines of the higher order index, and causes the signal to be excited at the secondary output of this signal line. . For example, in symbolic expression, it causes a combination of logical signals;

1 0 ... 0 0 matching inputs:

S1 S2 S3. . . Sn-jSn excitation of a combination of logic signals:

1 1 ... 1 1 on identically assigned outputs X1 X2 X3. . . Xn-lXn, another combination of these logic signals:

1 1 ... 0 1 causes the combination of logic signals at the outputs:

1 1 ... 1 1 á on secondary outputs:

Y1 Y2 Y3. . .Yn-lYn, combination of logic signals:

1 0 ... 0 1, and the like.

The signal release circuit is used in the field of segmented production line control by dedicated controllers coupled with position sensors disposed in these production line sections.

Claims (1)

SUBJECT A signal release circuit comprising at least two signal lines, wherein the first input of the first signal line is coupled to both the input of the first input circuit and the first input of the second combination circuit, the output of the first input circuit to the second input of the first combination circuit. , the output of the first combination circuit is connected to the second input of the first terminal circuit, the output of which is connected to the first output of the first signal line, the second input of the second signal line is connected to the input of the second input circuit and optionally the first input of the third combination circuit; the output of the second combination circuit is connected to the second input of the second terminal circuit, the output of which is connected to the second output of the second signal line, e the output of the first combination circuit (Ci) is connected to the first secondary output (Yi) of the first signal line, the output of the first terminal circuit (D1) is connected to the first input (M2) of the second terminal circuit (D?), C2) is connected to the second secondary output (Y2) of the second signal line, while the output of the second terminal circuit (D2) is connected to the first input ( ¹ d ₃ ) of the third terminal circuit