RU2054815C1 - System for control of units with automatic operations by phone line - Google Patents

Abstract

FIELD: electric communications. SUBSTANCE: device has two phone sets 1 and 3, exchange station 2, dial-up imitation unit 4, control unit 5, automatic calling unit 6, oscillator 7, request acknowledge unit 8, first unit 9 for call reception, controlled unit 10, continuous monitoring unit 11, program-controlled breaker 12, second unit 13 for call reception, shift register 14, indication unit 15. EFFECT: increased reliability of sending remote control information. 4 dwg

Description

 The invention relates to telecommunications and can be used in systems that provide continuous remote monitoring from a control room over the parameters of individual units and devices of automated objects, in particular in a multi-program broadcasting system over telephone communication lines (MTWT), the terminal units of which are duplicated and have automatic switching to reserve.

 The availability of automatic switching to the reserve during remote monitoring eliminates the need to send control commands from the control room, so the control system via telephone lines should provide information on the type of failure and the object number to the control center when a failure occurs in the equipment at each of the controlled objects.

 In addition, to increase the reliability of the information received, the dispatcher should be able to double-check the received signaling commands.

 Existing control and monitoring systems for transmitting commands over telephone lines to form a channel use subscriber telephone sets (TAs) located at the control room and automated facility. When a conversation loop (line) is established between two SLTs, a transmitter and a receiver of telemechanical information are connected to the latter. The transmitter generates and transmits coded messages over a telephone line with signals other than those used in telephony. This leads to interference in the lines.

 The introduction of devices that implement additional functions (push-button dialers with memory numbers, caller ID) to TAs and the use of these devices in control and monitoring systems make it possible to simplify the latter and use automatic telephone exchange tones.

 Closest to the technical nature of the proposed system is a command and control system for transmitting commands over telephone lines, containing a first control unit, a switching unit, an answering machine, a subscriber TA, ATS, a dispatcher TA, a call receiving unit, a handset lifting simulator, a line disconnect unit , ring simulator, power supply, generator, second control unit.

 The system operates as follows.

 The dispatcher on the TA dials the subscriber number of the TA, the PBX, using the inductor, sends to the TA the signal "Make Call", which receives the call receiving unit, and that includes the block of handset simulation. In this case, the inductor is turned off, a line is formed between the TAs. The call receiving unit includes a line disconnect unit, which, after 30 s, disconnects the call receiving unit from the line.

 The dispatcher using the second control unit includes a power supply and a generator, the latter generates and transmits to the communication line for 6-7 s a control signal with a frequency f 2000 Hz. This signal enters the switching unit, after five seconds the answering machine supplies power to the contactor, which includes the actuator. An answering machine sends a signal to the dispatcher's TA through the communication line, and the dispatcher by the signal frequency records the fact that the mechanism has been turned on (frequent turning on, turning off rare signals).

 The block disconnecting from the line 30 s after turning on the call receiving block disconnects it from the line, the PBX "destroys" the created channel, the system is restored to its original state. The switching unit supplies voltage to the contactor.

 To disable the mechanism, the dispatcher generates a second command, which is transmitted, received and executed similarly to the first, except that the switching unit stops supplying power to the contactor.

 In order to monitor the state of the mechanism, the dispatcher generates a control command lasting 1-2 s. It provides the inclusion of only an answering machine that transmits frequent or rare signals to the dispatcher.

 The system has the following disadvantages: it controls and monitors the transfer of one command to only one actuator; not able to form a channel from the side of the control object; It uses special signals to transmit information, which introduces additional distortion into the telephone line.

 The aim of the invention is to increase the reliability of the transmission over telephone lines of telemechanical information from automated objects by using tonal signals generated by the ATS inductor.

 This is achieved by the fact that in the control system of automated objects via telephone lines, containing the first and second telephone sets connected to an automatic telephone exchange, a control unit, a tube pickup simulation unit, a pulse generator, a first call receiving unit and an automated object, are introduced at the control room a second call receiving unit, a shift register and an indication circuit, and on the monitored side, a call confirmation receiving unit, a programmable interrupter, automatic dialer are entered a device and a continuous monitoring circuit, while the input of the second call receiving unit is connected to the first telephone, and the output through the shift register is connected to the input of the display circuit, the first and second inputs of the second telephone are connected respectively to the first output of the automatic dialer and to the output of the lifting simulator handset, and the first output is connected to the input of the call confirmation reception, the first output of which is connected to the first input of the automatic dialer, the second input and the second output of which inens, respectively, with the output and the first input of the pulse generator, the second output of the second telephone is connected to the input of the call receiving unit and the first input of the control unit, the first and second outputs of which are connected respectively to the input of the tube lifting simulation unit and to the second input of the pulse generator, and the second input the control unit is connected to the output of the programmable chopper, the inputs of which from the first to the third are respectively connected to the outputs of the continuous monitoring circuit, the call acknowledgment reception unit and bl an eye for receiving a call, the output of the automated object being connected to the input of a continuous monitoring circuit, the second output of which is connected to the third input of the control unit, with the first telephone set with a caller ID and the second telephone with a keypad.

 Comparative analysis with the prototype shows that the claimed system is characterized by the presence of fundamentally new blocks: an automated dialer, a block for receiving a call confirmation, a programmable interrupter, which together with telephones with the implementation of additional new functions and new connections with other elements of the circuit allows us to confirm compliance inventions by the criterion of "novelty."

 A comparison of the claimed system with systems of a similar class shows that in the practice of remote control and monitoring there are no technical solutions for transmitting discrete telemechanical information via telephone channels with signals generated by the ATS inductor.

 In FIG. 1 shows a structural diagram of a system for monitoring automated objects over telephone lines; figure 2 is a functional diagram of continuous monitoring and a functional diagram of a programmable chopper; in FIG. 3 voltage plots formed by the ATS inductor; figure 4 functional diagram of the dialer.

 The control system of automated objects via telephone lines contains a first telephone set (TA) 1 with a caller ID, which is connected through an automatic telephone exchange (PBX) 2 to a second TA 3 located on the automated object. In addition to TA 3, the automated object includes a tube lifting simulation block 4, a control unit 5, an automatic dialer 6, a generator 7, a call confirmation receiving unit 8, a first call receiving unit 9, an automated object 10, a continuous monitoring circuit 11, a programmable chopper 12. The first The TA 1 is connected to the second call receiving unit 13, to which the shift register 14 and the indication circuit 15 are connected in series. In this case, the first and second inputs of the second TA 3 are connected respectively to the first output of the automatic dialer 6 and the output of the handset lifting simulation unit 4, and the first and second outputs of the second TA 3 are connected respectively to the input of the call acknowledgment block 8 and the input of the call reception block 9, also connected to the first input of the control unit 5, the second input of which is connected to the output of the programmable switch 12, and the first output to the input of the unit 4. The first and second inputs of the automatic dialer 6 are connected respectively on the first output of the block 8 and output of the generator 7, the first and second inputs connected respectively to the second output of the automatic dialer 6 and to the second output of the control unit 5. The inputs of the programmable chopper 12 from the first to the third are connected respectively to the first input of the continuous monitoring circuit 11, the second output of the block 8 and the output of the block 9. The input and the second output of the circuit 11 are connected respectively to the output of the automated object 10 and to the third input of the control block 8.

The continuous monitoring circuit 11 (see FIG. 2) for six control points contains six electronic keys K ₁ K ₆ , six RS-triggers T ₁ -T ₆ and an OR circuit. Inputs 1-6 are connected to the signal outputs of the control units of the equipment. If the unit fails, a high level signal is sent to the input X of the corresponding key, the keys are open, since T ₁ T _{6 is} in the zero state, and from the inverse outputs to the control inputs of the V keys, single signals are sent. In the event of a failure, one of the triggers is set to a single state, closes the key, disabling the control output from the continuous monitoring circuit until the fault is eliminated, and through the OR circuit sends a signal to the control unit 5 to turn on the system.

 Programmable chopper 12 provides the shutdown of the inductor when it generates a programmable number of sending tonal signals (see figure 3).

Programmable chopper 12 includes (see figure 2) an OR ₁ circuit for two inputs, a shift register RG, keys K ₁₁ K ₁₈ , OR circuit ₂ ; time delay circuit Δ t. Signals are either sent to the shift input C of the register either from the call confirmation receiving unit 11 (contact of the RPPV relay) or from the call receiving unit 12 (contact of the RPV relay). A single signal recorded in RG through input D will shift and appear alternately at outputs 2,3.6,7, as well as at the inputs of the K ₁₁ K ₁₆ keys.

If the input key K ₆ continuous control circuit unit signal appeared, the open key ₁₆ K by installing trigger T ₆ in one state. Key K ₆ will be closed, which will ensure that the sixth control point is turned off from the continuous monitoring circuit 11.

After establishing communication with the control room, the ATS 2 inductor will start sending calls to TA 1, and call confirmation sendings to TA 3. When seven call packages are received, a single signal will appear on the 7th output of RG, which through the unopened key K ₁₆ , OR ₂ circuit, time delay and public key K ₁₈ will be supplied to the control unit 5 for laying the handset using unit 4, which will result in to the termination of the inductor.

Similarly, the chopper 12 operates when receiving a request for confirmation of the transmitted information. Received from the PBX 2 call in the amount of seven pieces through the RPV will ensure the formation at the output K _{17 of the} signal, which through block 5 and block 4 will interrupt the operation of the inductor with the help of "removal" and the subsequent "laying" of the handset.

Automatic dialer 6 (see Fig. 4) is intended for automatic dialing of the subscriber number of the control room, includes shift register RG, four circuits OR ₁ -OR ₄ , two counters CT ₁ , CT ₂ , RS-trigger T, key K ₆ encoding insertion.

 When the equipment is turned on, a single signal is recorded through the input D in RG and the 7 pulse generator starts with a frequency of f 1 Hz. The pulses from the generator are fed to the bias input C RG, providing a consistent appearance of the signal at all 24 outputs.

The first seven outputs through the coding insert are connected to the buttons of the TA 3 keyboard, which provides simulated button presses and the formation of a seven-digit subscriber number for the control room (for example, 212.03). In the zero position RG, the trigger T is set to zero through the OR ₄ circuit, closing the key K. In the seventh position RG through the input 5, the trigger T is set to a single state, the key K will be open. If the subscriber number is free, then the PBX 2 will send TA 3 confirmation signals to the call using its inductor, which will be received by the call sending reception unit presented in this system by a high-resistance RPPV relay connected in parallel with the TA 3 telephone (see figure 4). The RPPV relay contact connects the generator output through the input of the key K to the input of the CT ₂ counter. The key is open for 5 s (7 12 RG outputs). If during this time the RPPV relay is de-energized for 4 s (see Fig. 3), then at least two pulses will be applied to ST ₂ , which will ensure the appearance of a single signal at its output 2 ^о , which will stop the generator through the OR ₂ circuit. If the subscriber number is busy, then in position 12 the key K will be closed, and the RPPV relay will be in the activated state all this time under the influence of the busy signals.

The pulses from the 7 pulse generator continue to shift a single signal in RG, in the 24th position AG will be set to zero through the OR ₁ circuit, the unit will be written to the register, the counter CT _{1 will} fix one cycle. Cycles will be repeated up to 16 times. In each cycle in the 13th position by simulating pressing the "Zh" button on the TA keypad, the subscriber number is terminated at the PBX.

The duration of the cycle is determined by the capacity of RG, the number of cycles by the capacity of CT ₁ . In the case of using subscriber numbers with a value of less than 7, the coding insert is connected not to the first but to the subsequent outputs (six-digit 2-7, five-digit 3-7, etc.).

 As the block 8 for receiving confirmation of a call, the system uses a low-resistance relay (RPV) with a release delay, included in the TA electric bell circuit (see Fig. 4).

 Indication circuit 15 can be implemented on LEDs connected to the outputs of register 9, to the bias input of which signals from PV 13 are received by analogy with RG in FIG. 2.

 The control system of automated objects over telephone lines operates in two modes: the transmission mode of alarm signaling commands for controlled equipment; validation mode of the received information.

 System operation in signaling command transmission mode.

 In the initial state, at the control station TA 1 and at the object TA 3, the subscriber lines are connected to the PBX 2 TA 3 (see figure 1). All units and devices of the system at the managed facility are de-energized and do not respond to ringing signals received at TA 3, if the latter operates in the mode of a regular telephone set.

 When a failure occurs in the controlled equipment at one of its outputs (for example, the sixth), a high level signal will appear, which will provide a signal to the continuous monitoring circuit 11, which encodes a programmable chopper 12 to receive seven signals, confirms the sending of a call, sends a signal to the control unit 5 which turns on the monitoring system, sends a signal to start the generator 7 and through the block 6 "picks up" the tube from the TA 3. The generator 7 generates and sends pulses with a frequency of 1 Hz to the automatic dialer 6, which using the TA 3 sends and transfers to the PBX 2 the subscriber number of the control center, if the subscriber is free, this fact is fixed by the automatic dialer 6, which will stop the generator 7. If the subscriber is busy, the automatic dialer 6 starts to supply the subscriber number in cycles until it is received by reception unit 8 confirm the call, after which the automatic dialer 6 will stop the generator 7.

 The PBX inductor 2 sends seven call messages to TA 1, and seven call confirmation signals to TA 3, which receive block 13 at the control room and block 8 at the facility.

 Programmable chopper 12 after receiving unit 8 of seven signals through control unit 5 and unit 4 "lay" the TA 3 handset, which will interrupt the operation of the PBX inductor 2. By this time, TA 1 will fix its subscriber number using the caller’s number identifier, and register 9 will be established in the seventh position, which will provide illumination on the panel of the circuit 12 of the LED indication 6. The dispatcher will record the number of the failure and the number of the object where the failure occurred.

 The system works in the mode of checking the reliability of the received information.

 The dispatcher, to verify the reliability of the received information, dials the subscriber number of this object after the formation of the exchange ATS 2, using the inductor will feed TA 3 series of signals to make a call, and TA 1 signals to confirm the call. At the object, the first signal is fixed by block 5, which turns on the system. Block 9 after receiving seven signals through a programmable chopper using block 5 and block 4 "picks up" and then "puts" the handset TA 3, which will ensure the termination of the inductor and the installation of the equipment in its original state. The dispatcher for the number of long beeps (in this case seven) will receive confirmation of the correctness of the received information.

 Thus, the control system of automated objects via telephone lines, using telephone sets as a necessary accessory of the control room and control objects, with the greatest material costs for creating additional devices using tonal signals generated by the ATS inductor, ensures the transmission of telemechanical control information with high reliability.

 The control center can monitor a significant number of automated objects (10 15), which are connected to it through one or several series-connected automatic telephone exchanges.

Claims (1)

 CONTROL SYSTEM FOR AUTOMATED OBJECTS BY TELEPHONE LINES, comprising two telephone sets connected respectively to an automatic telephone exchange, a control unit, a tube pickup simulation unit, a pulse generator and a first call receiving unit, characterized in that a second call receiving unit is connected in series , the input of which is connected to the output of the first telephone set made with the caller ID, shift register and indicator, the unit is connected in series continuously o control, the input of which is the signal input from the output of the monitored object, and a software chopper, the output of which is connected to the first input of the control unit, the second input of which is connected to the second output of the continuous monitoring unit, and the third input is connected to the corresponding output of the second telephone set, which is made with a push-button dialer, and the input of the first call receiving unit, the first output of the control unit is connected to the first input of the pulse generator, and the second input through the simulation unit of lifting the tube to the corresponding the corresponding input of the second telephone set, the call confirmation receiving unit, the input of which is connected to the corresponding output of the second telephone set, and the automatic dialer, the first output of which is connected to the corresponding input of the second telephone set, and the second output to the second input of the pulse generator, the output of which is connected to the second input of the automatic dialer, the second output of the call confirmation receiving unit and the output of the first call receiving unit are connected respectively to the second and third inputs of the circuit breaker program.

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