CS213931B1 - Connection of the threshold function m from n anti-signal, especially for security systems of technological equipment - Google Patents

Abstract

The invention relates to the connection of the threshold function "selection m from n" antivalent signals. The connection contains three threshold elements, n summation elements, n inhibition elements, an evaluation element, a memory element and a signal element. The connection finds application, in particular, in the implementation of security systems, in which high reliability is required, for example in nuclear reactors and turbogenerators.

Description

The invention relates to a threshold function selection of a selection of n antivalent signals, in particular for burglar alarm systems. The wiring uses three threshold members. ',

Known circuitry for the realization of threshold functions, made up of individual logic circuits, selects the threshold or quiescent signals and does not have sufficient reliability for demanding security systems, such as nuclear power plants. Faults can be caused both by failure of the evaluation circuits itself, failure of the sensor contacts, but also by short circuit or interruption of the supply line from the sensors to these evaluation circuits. ·

These drawbacks are eliminated by the connection of the threshold function of the Z, and the antitumor signals, in particular for securing the systems of the radiological equipment according to the invention. Its essence is that the first idle input of the circuit is connected to the first input of the first threshold member and the first input of the second threshold member. The second idle input of the wiring is connected to the second input of the first threshold member and the second input of the second threshold member. Similarly, the n-th quiescent wiring input is coupled to the n-th input of the first threshold member and the n-th input of the second threshold member. The first working input of the wiring is connected to the first input of the third threshold member, the second working input of the wiring is connected to the second input of the third threshold member, the nth working input is connected to the nth input of the third threshold member. a contact of the first threshold member, the output contact of which is connected by the 3 output of the second threshold member, the output contact of which is connected to the output of the third threshold member, the output contact of which is connected to the output contact of the wiring.

An improvement of the invention is characterized in that the first external idle input circuit is connected to a first input of the first summation member, the output of which is connected to the first idle input circuit, the first blocking input of the circuit is connected to the second input of the first summation member. The second external idle input of the wiring is connected to a first input of a second summation member whose output is connected to the second idle input of the wiring. The second wiring blocking input is connected to the second input of the second summation member and to the interface input of the second inhibitory member. In this case, the n-th external bias input of the wiring is connected to the first input of the n-th summation member whose output is connected to the n-th bias input of the wiring.

In this case, the n-th blocking input of the wiring is connected to the second input of the n-th summation member and to the interface input of the n-th inhibitory member. The first external prong input is connected to the direct input of the first inhibitory member of which; the output is connected to the first preamble input of the wiring. The second external Prao input is connected to the direct input of the second inhibitory member whose output is connected to the second Prao input of the circuit. In doing so, the nth external work $

the input is connected to the direct input of the n-th inhibitory member, the output of which is connected to the n-th working input of the wiring.

A further improvement of the invention is that the second output of the first threshold member is connected to a first input of the evaluation member, to whose second input a second output of the second threshold member is connected. The second output of the third threshold member is connected to a third input of the evaluating member, the output of which is connected to the activation input of the memory member, to the erase input of which the acknowledgment input is connected and the output is connected to the fault output of the connection; connected to the zero logic bus.

The circuit according to the invention is substantially more reliable than the threshold circuit functions used up to now. Threshold circuit in triple is triple, changes of states of idle and working signals of inputs are evaluated, while contact outputs of individual threshold circuits are connected in series. For the grain state of the output, it is sufficient to evaluate the change of the states of the input signals by a single circuit, which eliminates possible failures caused by the malfunctioning of the circuits itself or by interruptions or short circuits of the supply lines. This high reliability predetermines this connection for security systems of demanding technological equipment.

The accompanying drawing shows schematically an exemplary arrangement according to the invention. ,

The first idle input 1 is connected to the first input 51.1 of the first threshold member 51 and to the first input 52.1 of the second threshold member 52. The second idle input 2 of the connection is coupled to the second input 51.2 of the first threshold member 51 and the second input 52.2. 52, wherein the n-th quiescent input n-wiring is coupled to the n-th input 51.n of the first threshold member 51 and the n-th input 52.n of the second threshold member 52. The first wiring input 11 is coupled to the first input 53.1 of the third threshold. a member 53 whose second input 53.2 is connected to the second working input 12, the nth working input 11n is connected to the nth input 53.n of the third threshold member 53. The output contact lead 91 is connected to the output contact lead 51.11 of the first a threshold member 51 whose output contact lead 51.12 is connected to the output contact lead 52.11 of the second threshold member 52 whose the output contact terminal 52.12 is connected to the output contact terminal 53.11 of the third threshold member 53, whose output contact terminal 53.12 is connected to the output contact terminal 92 of the wiring. The first external idle input 21 of the circuit is connected to the first input 61.1 of the first summation member 61 whose output

61.3 is connected to the first idle input 1 of the wiring. The first wiring blocking input 41 is coupled to the second input 61.2 of the first summation member 61 and the barrier input 71.1 of the first inhibitory member 71. The second external idle input 22 of the wiring is coupled to the first input 62.1 of the second summation member 62 whose output 62.3 is connected to second idle input 2 wiring. The second circuit blocking input 42 is coupled to the second input 62.2 of the second summation member 62 and to the barrier input 72.1 of the second inhibitory member 62. the n-th external quiescent input 2n is connected to the first input 6n.l of the n-th summation member whose output 6n.3 is connected to the n-th quiescent input n the connection, the n-th blocking input vstup n is connected to the second input 6n ' 2n of the nth summation member 6n and with a barrier input 7n.1 ' nnth inhibitory member 7n. The first external working input 31 of the circuit is connected to the direct input 71.2 of the first inhibitory member 71, whose result is shown in FIG. tup 71.3 is coupled to the first work input 11 of the circuit. The second external wiring input 32 is connected to the direct input 72.2 of the second inhibitory member 72, whose output 72.3 is connected to the second wiring input 12, the nth external wiring input 3n is coupled to the direct input 7n.2 of the nth inhibitory member. 2a, whose output 7n.3 is connected to the n th preamble input ln wiring. The second output of the first threshold 51.13 member 51 is connected to a first input 61.1 vyhodnooovaoího member 81 to the second input 62.1 is connected to the second output of the second threshold 52.13 member 52. A second output of the third threshold 53.13 member 53 is connected to ^3), the third input member 81.3 vyhodnooovaoího 81st whose output 81.4 is spo-; It has a trigger input 82.1 of the memory member 82, whose erase input 82.2 is associated with the acknowledgment input 80 of the circuit. The output 82.3 of the memory member 82 is coupled to the fault output 93 of the wiring and to the input e3.1 of the signaling element 82 whose output 83.2, ee is connected to the zero logic signal bus 90.

The threshold members 51, 52, 53 are realized, for example by diodorel circuits. The sum members 61, 62 to 6n are conventional diode sums. Inhibition members 21, 72-7n are conventional diodorant circuits. The selector 81 is realized by a diodorel circuit ii in a functionally uneven way with a time delay realized by a capacitor connected in parallel to the relay coils. The memory member 82 is realized by a diodorel circuit. The signal element 63 is a luminescent diode or bulb in series with a resistor.

In practical application, the idle contacts of the sensors and the work inputs 11, 22 and 11n, respectively the external work inputs 31, 22 to 3n are connected to the idle inputs 2, 2 to n, respectively to the external idle inputs 21. 22 to 2n. the sensor contacts are connected. The blocking inputs 21, 22 to 2n are connected with blocking signals of individual sensors, which can be used to exclude individual sensors from the selection. The first threshold member 51 and the second threshold member 52 operate such that when the signal is at least at m + 1 the idle inputs 2, 2 to a wiring, respectively to the m + 1 external. idle input 21, 22 to 2n wiring, then Is the output contact of the first threshold member closed? connected between the output contact terminal 51.11 and the output contact terminal 51.12 as well as the output contact of the second threshold member 22, connected between the output contact terminal 52.11 and the output contact terminal 52.12. If, under the same conditions, the signals are only at m or mx of the idle inputs 22, 22, 22 and 22 ', respectively, the output contacts of both threshold members 21 and 22 ⁹⁹ open and thereby disconnect the entire current circuit between the outlets 213931 and 51; 52 will open and thereby disconnect the entire current circuit between the output contact terminal 91 and the output contact terminal 92. The third threshold member 53 acts such that if the signals are on the m-1 or less of the working inputs 11, 12 to 11n, respectively, the external contact inputs 31, 32 to 3n, respectively, the output contact of the third threshold 53 is connected between the output the contact lead 53.11 and the output contact lead 53.12 are closed.

If, under the same conditions, there are signals at m or more of the work inputs 11, 12, 11 ' and 31, 32, 3n, respectively, then the output contact of the third threshold member 53 opens. The output contact terminal 91 and the output contact terminal 92 are intended for series shifting of multiple threshold function connections to alarm systems. The evaluation member 81 has a functionally unevenness and for inputs 1.1. £ 1.2 and £ 1.3 have attached second outlets 51.13. 52.13 and 53.13 of the threshold members 51. 52 and 53. These second outputs 51.13. 52,13 and 53.13 have an appropriate function with contact terminals 51.11. 52.11. 53.11 and contact terminals 51.12. 52.12. 53.12 threshold members 51.

and 53. The evaluating member 61 compares the signal identity at the inputs 61.1, £ 1.2 and £ 1.3. If one of the inputs is 61.1. £ 1.2. £ 1.3 a signal different from the other two inputs of the evaluator £ 1 evaluates this mismatch after time t, and at its output £ 1.4 there is a signal that is stored by the memory member £ 2. The time delay t, which is part of the evaluation member 61, eliminates the contact times and the sensors for the idle and working inputs 1, 2, n, 11, 12, 11, 21, 22, 2n. The signal from the output 2,3 of the memory member 62 is coupled to the fault output 93 of the wiring and to the non-wiring element 83 for signaling disagreement of the individual members of the unit. in external circuits or, in their own circuits.

The incorporation of the threshold function selecting m from n antivalent signals according to the invention will find application, particularly in the implementation of security systems where high reliability is required, for example nuclear reactors and turbine generators.

Claims (2)

Wiring of a threshold function, ie antivalent signals, especially for security systems of technological devices, consisting of three threshold members, characterized in that the first idle input (1) of the wiring is connected to the first input (51.1) of the first threshold member 5l) and to the first input (52.1) of the second threshold member (52), the second idle input (2) of the wiring is connected to the second input (51.2) of the first threshold member (51) and the second input (52.2) of the second threshold member (52) as well as the nth idle the wiring input (n) connected to the nth input (51.n) of the first threshold member (51) and the n th input (52.n) of the second threshold member (52), wherein the first working input (11) of the wiring is connected to by the first access (53.1) of the third threshold member (53), the second working input (12) of the connection is connected to the second input (53.2) of the third threshold member (53), the nth th prong input (ln) is connected to the nth input 53.n) a third threshold member (53) / wherein the output contact terminal (91) is connected to the output contact terminal (51.11) of the first threshold member (51), the output contact terminal (51.12) of which is connected to the output contact terminal (52.ll) of the second threshold member (51) 52), whose output contact terminal (52.12) is connected to the output contact terminal (53.11) of the third threshold member (53), whose output contact terminal (53.12) is connected to the output contact terminal X92) of the circuit. 2. The threshold function circuit, i.e., the antivalent signals according to throw 1, comprises a plurality of sum members and a plurality of inhibitory members, characterized in that the first external idle input (21) is connected to the first input (61.1) of the first sum member (61). 1), the output (61.3) of which is connected to the first quiescent input 11) of the circuit, the first blocking input (41) of which is connected to the second input (61.2) of the first summation member (61) and the ribbed input (71.1) of the first inhibitory member ( 71), the second external idle input (22) is connected to the first input (62.1) of the second summation member (62), the output (62.3) of which is connected to the second idle input (2) of the circuit, the second interlock input (42) is connected to the second input (62.2) of the second summation member (62) and to the diaphragm input (72.1) of the second inhibitory member (72), the n-th external quiescent input (2n) of and the connection is connected to the first input (6n.l) of the nth summation member (6n), the output of which (6n.3) is connected to the nth idle input (n) of the circuit, the nth blocking input (4n) of the circuit is connected to the second input (6n.2) of the n-th summation member (6n) and to the diaphragm input (7n.l) of the n-th inhibitory member (7n), longer the first external work input (31) is connected to the direct input (71.2 ) a first inhibitory member (71) whose output (71.3) is connected to the first preamble input (11) of the wiring, a second external prone input (32) is connected to the direct input (72.2) of the second inhibitory member (72), whose output (72.3) is connected to the second wiring input (12), wherein the nth external work input (3n) is connected to the direct input (7n.2) of the nth inhibitory member (7n) whose output (7n.3) is connected to the nth th preamble input (ln) of the wiring. . The threshold function circuit of n antivalent signals according to item 1 or 2, comprising a longer evaluating member, a memory member and a signaling element, characterized in that the second output (51.13) of the first threshold member (51) is connected to the first one. the input (81.1) of the evaluating member (81), to the second input (81.2) of which the second output (52.13) of the second threshold member (52) is connected, the second output (53.13) of the third threshold member (53) connected to the third input ( 81.3) an evaluation member (81) whose output (81.4) is connected to the activation input (82.1) of the memory member (82), to whose erase input (82.2) the acknowledgment input (80) is connected and whose output (82.3) is connected to the fault output (93) of the wiring, to an input (83.1) of the missing element (83), the output of which (83.2) is connected to the zero logic signal bus (90).