CS218848B1 - Device for dispatching level control - Google Patents

Abstract

The invention relates to the transmission of dispatching levels, i.e. information about the significant importance of energy communication networks that must be acknowledged. The device for entering dispatching levels in cooperation with transmission telemechanization devices using information feedback ensures the transmission of the dispatching level from the superior to the subordinate workplace, its automatic control at the superior workplace, blocking the acknowledgement of an unverified dispatching level, signaling a change in the valid dispatching level at the subordinate workplace, signaling a connection failure including a failure of the transmission telemechanization device associated with automatic resetting of all displays at both workplaces, automatic sending of the valid dispatching level after the failure ends and automatic sending of the agreed signal after the power failure of the superior workplace ends. The invention can be used to transmit numbers, characters and passwords of considerable importance, the reception of which must also be ensured by acknowledgement from a subordinate workplace.

Description

3 4 218848

BACKGROUND OF THE INVENTION The present invention relates to a transmitter and receiver circuitry for a device for inputting discrete steps in which transmission security is effected by information feedback and acknowledgment signals. The transmitter and receiver circuitry of the device for discharging the discharging stages also functions as a de-tamper-link failure and power failure on the opposite side. Device transmitter circuitry for the dispatching stage full function of sending a pre-selected dispatcher stage after a fault, where more functions are concentrated, so that the receiver receiver circuitry for dispatching stages located in different objects is simple.

The prior art solutions that can be used for dispatcher leveling are more complicated in that they use Hamming code to secure information transfer, allow only unidirectional transmission, and feedback information transmission is necessary to provide additional stand-alone devices and do not allow blocking the acknowledgment signal without further adjustments.

The essence of the invention is that the devices of the dispatcher input device enable the acknowledgment, the detection of a fault and the automatic dispatch of a valid dispatcher at the end of the fault, the manipulation board and the encoder with N outputs connected to the N inputs of the input memory, which is connected to its outputs by N main memory inputs, the N outputs of which are connected to the first N inputs of the comparator and simultaneously form the N transmitter outputs of the device for entering the discrete stages, which are connected to the N receiver inputs of the device for entering the dispatcher stages connected to the receiver outputs of the device for inputting the dispatcher degrees, which are connected to the N input of the transmitter of the dispatcher input device, which are connected to the second N inputs of the comparator, the output of the creep comparator (N + 1). the transmitter output of the dispatching stage input device and at the same time is connected to the transmitter indicating circuit blocking input, whose N inputs are also connected to the transmitter N inputs, the dispatching stage input device, the comparator output being connected to the first input of the second sum circuit, on its second input, it is connected (N + 1). the transmitter input of the dispatcher input device and the output of the second additive circuit is connected to the second input of the second device circuit, wherein the output of the Manipulation Pane and the encoder is connected to the first input of the first product circuit and the output of the Manipulation Tab of the encoder is connected to the second input the first product circuit, the output of which is connected to the first input of the second product circuit and simultaneously connected to the input of the input memory, the output of the second product circuit being connected to the first input of the first sum circuit, of which the output is connected to the clock input of the main memory, whereby the output of the second sum circuit is connected via the monostable circuit to the second input of the first circuit, whereby the output of the state detector is connected to the third input of the first sum circuit. with N inputs the transmitter of the dispatching stage input device, wherein the output of the transmitter zero state detector is also connected to a third input of the fourth product circuit, the first input of which is connected to the output The direction of the manipulation board and the encoder and the output of the zeroing manipulation panel and the encoder is connected by a second a fourth product circuit input, the output of which is connected to a second input of a third sum circuit, the first input of which is connected to the input state setting input network network, which is connected to the star transmitter start circuit of the network — transmitter, the third the input of the third sum circuit is connected to the output of the transmitter detector, which is connected to the N inputs of the transmitter of the dispatcher input by its N inputs, the output of the transmitter malfunction detector is also connected to the fault input of the transmitter indicator circuit and is simultaneously connected to the second input third the circuit of which the first input is coupled to the output of the second sum circuit, the output of the third product circuit being coupled to the acknowledgment input of the transmitter indicating circuit, wherein the N input circuit of the receiver is connected to N the receiver inputs of the despatcher input device, which are further coupled to the N inputs of the receiver fault detector and further to the N inputs of the receiver reset state detector, the output of which is coupled to the first fourth total circuit whose second input is connected to the output the receiver fault detector, wherein the output of the fourth file circuit is connected to the fault input of the receiver's display circuit and simultaneously to the second input of the fifth product line, the output of which is connected to the indicating input of the indicator? the receiver circuit, with (N + 1). the transmitter output device for the dispatching stage input is connected to (N + 1, the receiver input of the dispatcher dispatching device, which is connected to the first flip-flop adjuster input, to the other input input of which the receiver detector output is connected to the the third adjusting inlet circuit is connected to the start circuit of the receiver Start, the receiver, wherein the resetting input of the flip-flop is connected to the acknowledgment button The acknowledgment and the output of the flip-flop is connected to the first input product circuit and simultaneously forms (N + 1). the output of the receiver of the dispatching stage receiving device, which is connected to the 2188 ^ 8

S s- (N-H-1). the input of the transmitter device to receive the dispatching stages. In the solution according to the invention, the condition of the connection and the power supply is permanently controlled, in the event of a failure or disagreement, the signaling circuits of the transmitter and receiver are signaled by a fault condition. The default valid dispatcher step is sent automatically by the device to terminate the fault condition of the device, and a request for its acknowledgment is signaled in the receiver receiving circuit. The circuit arrangement is chosen so that the dispatcher input device receivers located in different objects are as simple as possible and as many functions are centered in the dispatcher transmitter devices that are placed in one. - object. This will facilitate maintenance of the equipment.

1 is a diagram of a transmitter and receiver device for receiving dispatching stations; FIG. 2 is a diagram of a logical network for self-recording of a preferred dispatching stage of memory;

The interconnection of a particular embodiment of the invention is shown in Fig. 1 and is formed by a manipulation panel and an encoder 15s N outputs 1501 coupled to N inputs 101 of input memory 1, 1. which is connected to the N inputs 2-01 of the main memory 2 by its N outputs 102, the N outputs 282 of which are connected to the first N inputs 601 of the comparator 6 and simultaneously form the N outputs of the transmitter of the dispatching stage input devices which are connected to the N inputs. receivers of the device for entering the dispenser stages connected to the receiver outputs of the device for entering the dispenser stages, which are connected to the inputs of the transmitter of the device, to enter the dispenser stages connected in turn to the N inputs 602 of the comparator 6 and the output 603 of the comparator. 6 forms (N + 1). the output of the transmitter of the dispatcher input device and at the same time it is connected to the blocking input 702 of the transmitter display circuit 7, whose N inputs 761 are also connected to the device transmitter inputs to enter dispatcher stages, the output 603 The comparator 6 is connected to the first input 801 of the second sum circuit 8, on whose second input 002 '· is connected (N + 1). the receiver input of the dispatcher entry device and the output 803 of the second totalizer 8 is coupled to the second input 402 of the second product circuit 4, the output 1503 of the manipulation panel and encoder 15 being connected to the first input 301 of the first circuit 3 and the output of the 1502manipulation panel and the encoder 15 is the second input 302 of the first product circuit 3, the output 303 of which is connected to the first input 401 of the second product circuit 4 and is connected to the clock input 103 of the input memory 1, while the output403 of the second product circuit 4 is connected. the circuit 4 is connected to the first input 501 of the first summing circuit 5, whose output 504 is connected to the clock input 203 of the main memory 21, while the output 803 of the second sum circuit 8 is connected on the input 1001 of the monostable circuit 10 | whose output 1002 is the second input 502 of the first summing circuit 5, with the first input 503 of the first; the summation detector 110 of the transducer 11 is connected to the summation circuit 5, the N inputs 1101 of which is connected to the N input of the transceiver of the dispatcher input device, the output 1102 of the emulation of the transmitter 11- is also connected to the third input 1403 of the fourth sum circuit 14, the first input 1401 of which is the connection of the output direction 1503 of the handling panel, and the encoder 15 and the output of the resetting 1504 of the control panel and the encoder 15 is connected to the second input 1402 of the fourth product circuit 14, whose output 1404 is connected with a second third sum circuit input 1302, the output 1304 of which is connected to the input 204 of the main memory 2, the first input 1301 of the third summing circuit 13 being connected to the input setting 104 of the input memory 1 that is connected the start network of the start transmitter, the third input 1303 of the third sum. the circuit 13- is connected to the fault detector output 1202 of the transmitter 12, which is connected to the N inputs of the transmitter of the dispatcher input stage with its N inputs 1201, and the transmitter detector output 1202 is also connected to the indication circuit 701 of the indicator circuit and at the same time it is connected to the second exit 902 of the third product circuit 9, the first input SO1 being coupled to the output 803 'of the intermediate circuit 8, while the output 903 of the third product circuit 9 is connected to the acknowledgment input 703 of the indicating device. the circuitry of the transmitter 7, wherein the N inputs 1601 of the receiver indication circuit are connected to the N inputs of the receiver-input device, which are further connected to the inputs 1801 of the receiver 18 of the receiver 18 and further to the N inputs 1901 of the status detector. Zeroing the receiver 13 whose output 1902 is connected to the input 2001 of the delay circuit 20 whose output 2002 is linked to the first input. 2101 of the fourth total circuit 21, the second input 2102 of which is connected to the output 1802 of the receiver 18 of the receiver 18, the output 2103 of the fourth circuit 21 being connected to the fault input 1604 of the display circuit 16 and temporarily to the second input 2202 a fifth co-circuit 22, the output 2203 of which is connected to the input 1603 of the indicator circuit of the receiver 16, wherein (N + 1). the input of the transmitter of the device for entering dispatchers is connected to (N + 1). the input of the device receiving the dispatchers, which is connected to the blocking input 1602 of the indicator circuit of the receiver 16 and the first setting input 1701 of the flip-flop 82188487 du 17, to whose second setting input 1702 the receiver detector output 1802 is connected 18, wherein the third adjusting input 1703 of the flip-flop 17 is connected to the start circuit of the receiver receiver, wherein the resetting input 1704 of the flip-flop 17 is connected to the acknowledgment button. it is connected to the first input 2201 of the fifth product circuit 22 and simultaneously forms [Nf-1]. the output of the dispatcher dispatcher receiving device, which is coupled to (N4.1.1) the dispatcher dispatcher device input. The advantage of this disposition is that there is no need to monitor the fault termination to transmit a valid dispatcher level. A valid dispatching stage into the main memory, as shown in FIG. 2. The circuits 81 and 82 form a second circuit circuit designated 8 in FIG. 5 in FIG. 1.

The new dispatching stage selected on the manipulation board and the encoder 15 is written to the input memory 1 after activation of the signals from the output direction 1503 and the output 1502 and their product in the first co-circuit 3, and if the device is not in the transmission phase , resetting, resp. fault signaling, the new dispatching stage is written simultaneously to the main memory 2, whose clock input 203 is excited through the first addition circuit 5, the second power circuit 4 from the output 303 of the first line circuit 3, the Component 6 compares the new dispatching stage to N outputs 202 of the main memory 2 with the received central dispatching stage at the second inputs 602 of the comparator 6. Disagreement of the disruptive stages causes activation of the output 603 of the comparator 6 which, on the one hand, causes the indication of the dispatching stage in the indication circuit of the transmitter 7 to be blocked, on the one hand, by means of the second summation circuit 8, the second circuit 4 is blocked and also signals, via the third circuit 9, the non-acknowledgment of the transmitter stage transmitted by the transmitter 7.

The active state of the comparator output 603 is transmitted along with the new dispatching stage to the receiver display circuit 16. However, the new dispatching stage is not indicated due to the activation of comparator output 603, the active state at output 603 causing adjustment of the flip-flop 17 via the setting input 1701, the output 1705 via the fifth product circuit 22 is indicative of non-acknowledgment in the indication circuit of the receiver 16. The new dispatching stage with the set output signal 1705 of the flip-flop 17 is also transmitted back to the second N inputs 602 of the comparator 6, which signals the idle state and signals approval of doctoral degrees. Thereby, the blocking input 702 of the transmitter indicator circuit 7 is unlocked so that the received new dispatching station is indicated via the N inputs 701 in the indication circuit of the transmitter 7. The output 803 of the second circuit 8, as a result of setting the flip-flop 17 does not change its state. The idle state 603 at the output of the comparator 6 is sent to the transceiver display circuit 16, where it unlocks the input latch input 1602 of the receiver's display circuit and the first set-up input 1701 of the flip-flop 17, so that a new dispatching stage is indicated via the N inputs 1601 in the receiver's display circuit 1601. At the same time, an acknowledgment dispatching stage is possible by activating the signal of the fluorescence, thereby resetting the flip-flop 17 via the reset input 1704, which causes the end of the indication of non-acknowledgment in the indication circuit of the receiver 16 through the fifth product circuit 22 and also through the second sum circuit 8 and the third product circuit. In addition, the second product circuit 4 is locked and the monobloc circuit 10 is started, which over the first circuit 5 causes the rewriting of the input memory 1 to the main memory 2. In case of resetting the output Zero 1504, output 1503, and if the zero reset detector 11 does not detect the reset signal, the output 1404 of the fourth circuit 14 is activated, which via the third addition circuit 13 and the setting input 204 sets the buffer 2 of the reset signal that is in the activated state in In addition, the reset signal through the first adjusting input 1701 of the flip-flop 17 makes its adjustment and the output 1705 of the flip-flop 17 causes the indication of the non-acknowledgment in the indicating circuit via the fifth product circuit 22 On the other hand, it is transmitted to the second input of 802 of the second circuit 8. By resetting the reset signal to the input 1101 of the status detector Resetting the transmitter 11, the status of its output 1102 is changed, which prevents further nucleation by blocking the third on the other hand, the input 503 of the first addition circuit 5 ensures that the dispatching stage of the input memory 1 is overwritten by the main memory 2. Further, the dispatching of the new dispatching stage is identical. In the event of a power failure of the transmitter, its recovery by the start network is transmitted to the input memory 1 via the input 104 of the input memory 1 divided by the symbol 3 through the third summation circuit 13 to realize the main memory 2. to transmit a split character contained in the input memory 1. In the event of a power failure of the receiver, the fault detector of the transmitter 12 detects the fault, the change of which at the output 1202 causes a fault indication in fault 704

Claims (1)

Further, the change of output 1202 causes resetting of the main memory 2 via the third summation 13 and the resetting of the reset signal and a change in the state of the comparator output 603. After a power outage occurs, a start occurs — a network — receiver to adjust the flip-flop 17 through the third setting input 1703. The reset signal from the N outputs 202 of the main memory 2 together with the active state of the output 603 of the comparator 6 will further cause the operation of equivalent dispatcher input device to be reset. If the reverse connection is interrupted as in the case of a power failure, the transmitter 12 detects a malfunction detector whose change in output 1202 causes a fault indication in the indicator circuit 7 of the transmitter 7 through the fault input 704, the non-output indication 9 in the indicating circuit of the transmitter 7, the change in output 1202 causes the resetting of the reset signal to be reset to zero by a third reset circuit 13. At the same time, a change in the state of the output of the comparator 6 is sent, which, as well as in the case of resetting the dispatcher input device, responds to the indication circuit of the receiver 16 and the flip-flop 17. The Nulo-state detector also responds to the reset signal. receiving the receiver 19 whose output 1902 changes. This change is delayed in the delay circuit 20. If the fault lasts longer than the delay delay of the delay circuit 20, a change in output 1902 is transmitted to the first input 220 of the fourth sum circuit 21 whose output 2103 causes a fault indication 1604 to indicate a fault in the indication circuit of the receiver 16 and via the second input 2202 of the fifth non-acknowledgment circuit 22. Upon completion of the fault in the reverse direction, the reset signal is transmitted to the input 1101 of the transmitter zero reset detector 11 and the resetting of the dispatcher dispatching device is completed and then the dispatching stage entered into the input memory 1 is transmitted. the connection in a straight line is to indicate a fault in the receiver fault detector 18. Despite the fourth summing circuit 21, it causes a fault indication in the indicator circuit of the receiver 16 and further through the fifth product circuit 22 an indication of non-acknowledgment. the receiver 18 also causes the flip-flop 17 to be set via the second setting input 1702. The fault is also transmitted in the reverse direction to the N inputs 1201 of the transmitter fault detector 1201, whose output 1202 goes into active state, which through the third input 1303 of the third co-circuit 3 causes the reset of the main memory 2 and further activating the output 1202 causes a fault indication in the transmitter display indicator 7 and, via the third product circuit 9, the indication of non-acknowledgment in the transmitter 7 display ob- tain. The present invention finds use in entering dispatching stages and other password messages in large manufacturing facilities. OBJECT The dispatcher device for entering dispatchers, allowing acknowledgment, detection, and self-transmission of a pre-selected dispatcher stage after a fault, characterized in that the handling table and encoder (15) with N outputs (1501) coupled to the N inputs (101) of the input memory (1), which is connected to N inputs (201) of the main memory (2) with its N outputs (101), whose N outputs (202 ') are connected to the first N inputs (001) of the comparator (6) and At the same time, the outputs of the transmitter of the device for entering the dispatching stages are connected, which are connected to the N inputs of the receiver of the device for entering the dispatching stages, which are connected to the receiver outputs for entering dispatcher levels connected with the N input of the transmitter of the device for the entry of dispatchers connected to the second N input (002) of the comparator (6) and the output (6013) of the comparator (6) form the (N + 1) output u the transmitter of the dispatcher input device at the same time and is connected to the blocking input (702) of the transmitter indicator circuit (7), whose N inputs (701) are also connected to the N inputs of the transmitter of the dispatcher input device, the comparator invention output (603) (6) is connected to the first input (801) of the second sum circuit (8), to whose second input (802) a (N + 1) transmitter input of the device for entering dispatching stages and the output (803) of the second is connected to the second input (402) of the second product circuit (4), the output direction (1503) of the handling panel and the encoder (15) being connected to the first input (301) of the first co-circuit (3) and the output of the transmitter (15Q of the manipulation board and the encoder (15) is connected to the second input (302) of the first circuit (3), the output (30,3) of which is connected to the first input (401) of the second line circuit (4) et al it is connected to the clock input (103) of the input memory (1), the output (403) of the second circuit (4) being connected to the first input (501) of the first summation circuit (5), the output of which ( 504) is connected to the clock input (203) of the main memory (2), wherein the output (803) of the second sum circuit (8) is connected to the input (1001) of the monostable circuit (10), the output (1002) of which is the second input ( 502) of the first aggregate 1112218848 of the circuit (5), the output (1102) of the zero-resetting detector (11) whose N inputs (1101) is connected to the third input (503) of the first sum circuit (5) is connected with the inputs of the transmitter of the dispatching stage input device, the output (1102) of the transmitter (11) null state detector is also connected to the third input (1403) of the fourth product circuit (14), the first input (1401) of which is connected with the output (1503} of the manipulation pane and the encoder (15) and the output nu The handling (1504) of the handling panel and the encoder (15) is connected to the second input (1402) of the fourth product circuit (14), the output (1404) of which is connected to the second input (1302) of the third total circuit (13). the output (1304) is connected to the input (2014) of the main memory (2), the first input (13011) being connected to the input setting (104) of the input memory (1) which is connected to the start circuit of the start transmitter, the third input (1303) of the third sum circuit (13) being connected to the output (1202) of the detector of the transmitter detector (12) which is connected by its N input (1201) to the N inputs of the transmitter input device, the output (1202) of the transmitter malfunction detector (12) is also connected to the malfunction input (704) of the emitter indicator circuit (7) and is simultaneously connected to the second output (202) a third product circuit (9), the first input (901) of which is connected to sv of the second sum circuit (8), wherein the output (903) of the third product circuit (9) is coupled to the acknowledgment input (70 (3) of the transmitter indication circuit (7), with N inputs (1601) indicating The receiver circuit (16) is connected to the N inputs of the receiver of the device for entering dispatchers, which are further connected to the N. inputs (180 (1) of the receiver fault detector (18) and to the N inputs (19-1) of the receiver detector (19) Whose output (1902.) is connected to an input (2001) of a delay circuit (20) whose output (2002) is connected to the first input (, 2101) of the fourth sum circuit (21), the second input of which ( 2102 is coupled to the receiver (13) defect detector output (1802), the output (2103) of the fourth sum circuit (21) being connected to the receiver input (1604) of the indicator circuit (16) and simultaneously to the second output (2202 () of the fifth-product circuit (22) whose preamble tup (2203) is connected to the tinting input (1603) of the receiver circuitry (16), the (NU) output of the dispatcher step input device being connected to (N + 1) the receiver input a dispatching stage input control which is connected to a blocking input (1602) of the receiver circuit (16) and to the first setting input (1701) of the flip-flop (17) to whose second setting input (1702) is connected the detector (1802) detecting the deflection of the receiver (18), wherein the third adjustment input (1703) of the flip-flop (17) is connected to the start circuit of the receiver network, wherein the resetting input (1704) of the flip-flop (17) is connected to the acknowledgment button and the flip-flop output (1705) is connected to the first input (2201) of the fifth product circuit (22) and simultaneously (N + 1) outputs the receiver device to · entering dispatching levels that are e is connected to (N + 1) input of the device of the dispatcher stage. 2 sheets of drawings