RU46266U1 - DEVICE FOR REMOTE CONTROL OF PARAMETERS OF INSTALLATIONS OF CATHODE PROTECTION OF MAIN PIPELINES - Google Patents

Abstract

The invention relates to devices for transmitting electrical signals and is intended to provide continuous monitoring of the parameters of the cathodic protection of trunk pipelines. The technical result is expressed in eliminating the influence of interference and changes in the value of current in the line on the value of the monitored and transmitted parameters. A device for remote monitoring of parameters of cathodic protection installations of trunk pipelines, comprises a receiving part including a line current sensor, an indicator, and one or more transmitting parts including a modulator unit, a measurement unit, a control unit. The receiving part is equipped with a matching unit, receiver, processor, control panel, while the input of the matching unit is connected to the line current sensor, the output of the matching unit to the input of the receiver, the output of the receiver is connected to the processor, to the second input of which the control unit is connected. The processor output is connected to the indicator. The transmitting part is equipped with a controller, a synchronization unit, an address plug, while the inputs of the measurement unit are connected to a current sensor, an earthing switch, electrodes for comparing the cathodic protection of the main pipeline and to the main pipeline itself. The output of the measurement unit is connected to the first input of the controller, to the second and third inputs of which the outputs of the synchronization unit and the address stub are connected, respectively. The controller output is connected to the input of the control unit, the output of which is connected to the input of the modulator block.

Description

The invention relates to devices for transmitting electrical signals and is intended to provide continuous monitoring of the parameters of the cathodic protection of trunk pipelines.

The closest analogue is a device for monitoring the operation of an object protected from corrosion, containing a receiving part, including a line current sensor, an indicator, and one or more transmitting parts, including a modulator unit, a measurement unit, a control unit (description to auth. St. USSR No. 910847, M. Cl. 3 C 23 F 13/00, publication date 07.03.82).

The specified device has the following disadvantages:

1. Low reliability of the transmitted data.

2. A change in the current in the network affects the transmitted parameters of the cathodic protection installations.

3. A limited number of monitored cathodic protection installations.

4. Low reliability of the modulator due to counter-parallel connection of thyristors with inductance.

5. Violation of the thyristor regulator installation of cathodic protection due to the inductance in the modulator, which leads to a phase shift of the current.

The objective of the utility model is to increase the reliability of the device and increase the volume and reliability of the transmitted information.

The technical result is expressed in eliminating the influence of interference and changes in the value of current in the line on the value of the monitored and transmitted parameters.

The essence of the utility model is characterized by a combination of essential features common with the closest analogue: the receiving part, including the line current sensor, indicator, and one or more one transmitting part, including the modulator unit, measurement unit, control unit, and features that are distinctive from the closest analogue: receiving part equipped with a matching unit, receiver, processor, control panel, while the input of the matching unit is connected to the line current sensor, the output of the matching unit to the input of the receiver, the output of the receiver is connected nen to the processor, to the second input of which is connected a control unit,

processor output is connected to the indicator; the transmitting part is equipped with a controller, a synchronization unit, an address plug, while the inputs of the measurement unit are connected to a current sensor, an earthing switch, a reference electrode, and a trunk pipeline; the output of the measurement unit is connected to the first input of the controller, to the second and third inputs of which the outputs of the synchronization unit and the address stub are connected, respectively; the controller output is connected to the input of the control unit, the output of which is connected to the input of the modulator block.

The essence of the utility model is illustrated in the drawing, where Fig. 1 shows a structural diagram of a device for remote monitoring of the parameters of the cathodic protection of trunk pipelines.

A device for remote monitoring of the parameters of the cathodic protection of trunk pipelines contains one or more transmitting parts and one receiving part.

The transmitting part of the device contains a modulator 19, a synchronization unit 14, a measurement unit 15, an address plug 16, a controller 17, a control unit 18. In this case, the inputs of the measurement unit 15 are connected to a current sensor 13, an earthing switch 10, a comparison electrode 12 and a main pipeline 11. Output measurement unit 15 is connected to the first input of the controller 17, to the second and third inputs of which the outputs of the synchronization unit 14 and the address plug 16 are connected, respectively. If it is necessary to carry out an additional security function, the security sensor 20 can It can be connected to the measuring unit 15 through its additional input. The output of the controller 17 is connected through the control unit 18 to the input of the modulator block 19, which has a circuit connected in parallel to the output of the modulator block 19, from a thyristor and a load resistance connected in series. The output of the modulator 19 is connected to the secondary circuit of the transformer 8, which feeds the cathodic protection of the main pipeline from the AC source from line 1. In parallel with the output of the modulator 19, the input of the synchronization unit 14 is connected.

If there are several cathodic protection installations of the main pipelines, a separate transmitting part of the claimed utility model is placed with each of them.

The receiving part of the device for remote monitoring of the parameters of the cathodic protection of trunk pipelines contains a current sensor line 2, matching unit 3 connected to the receiver 4, processor 5, indicator 6, control panel 7. The output of the receiver 4 is connected to the first input of the processor 5. Panel

control 7 is connected to the second input of the processor 5. The indicator 6 is connected to the output of the processor 5. The current sensor 2 is connected to line 1 of the AC network at the beginning of it between the alternating voltage generating station and the connection points of the cathodic protection stations to line 1.

The operation of the device for remote monitoring of the installation parameters of the cathodic protection of trunk pipelines is shown below on the example of monitoring one installation of cathodic protection and is carried out as follows.

The AC voltage from the AC network through line 1, through the transformer 8, is supplied to the cathodic protection unit and to the transmitting part of the remote control device for the cathodic protection installation parameters of the main pipelines. The parameters (and, if necessary, the safety) of the cathodic protection installation are monitored using the measurement unit 15. Measurement unit 15 performs: measuring the current of the cathodic protection installation using the current sensor 13, measuring the voltage at the ground electrode 10 and the reference electrode 12. In addition, the measuring unit 15 receives a signal from the security sensor 20 when installing it if necessary. The controller 17 at each turn-on reads from the address stub 16 the address of the device. At the device address, the controller 17 determines the sequence and time of issuing the codogram. Upon reaching the specified time, the controller 17 generates a codogram consisting of synchronizing pulses received by the synchronization unit 14, the device address, data received from the measurement unit 15 and the security code. The codogram is synchronized with a frequency of 50 Hz by the synchronization unit 14. The codogram from the output of the controller 17 is supplied to the modulator 19 through the control unit 18. The modulator 19 consumes the current modulated by the codogram from the AC 1 through transformer 8 without changing the phase.

At the same time, the current modulated by the codogram through the current sensor of line 2 enters the receiving part of the device for remote monitoring of the cathodic protection settings of the main pipelines to the matching unit 3, where it is converted from current to voltage and fed to the input of receiver 4. Receiver 4 converts the analog signal to a digital signal and delivers to the input of processor 5. Processor 5 processes the received signals, generates a codogram from them, and checks the security code. When the security code matches, the information is recorded in the processor 5. The received information is viewed on the indicator 6 using the control panel 7.

When connecting the security sensor 20 (connected, if necessary, to protect the cathodic protection installation 9) to the measuring unit 15 and triggering it by the controller 17, an extraordinary codogram is generated containing synchronizing pulses, the device address, data with a sign of violation of protection and a security code.

There can be more than one transmitting parts in the claimed utility model, their number is not limited, only the time period between transmissions of the codograms of the transmitting part only increases. The transmission of codograms by each transmitting unit and their reception by the receiving part is carried out similarly to the above described work of the utility model. The synchronization of the work of all the transmitting parts relative to each other is carried out when the AC voltage is turned on to line 1. This ensures restoration of the synchronization of the parts of the device during an emergency disconnection of voltage from line 1 and its subsequent switching on after eliminating the accident.

The technical result is achieved due to the fact that the modulator has a parallel circuit connected to the output of the modulator block 19 of the thyristor and load resistance connected in series, the formation of a protective code by the controller 17 provides noise immunity of the transmitted information. With the specified operation of the device for remote monitoring of the installation parameters of the cathodic protection of trunk pipelines, the influence of interference and changes in the current value in line 1 on the transmitted information is eliminated.

Claims (1)

A device for remote monitoring of parameters of cathodic protection installations of trunk pipelines, comprising a receiving part including a line current sensor, an indicator, and one or more one transmitting part including a modulator unit, a measurement unit, a control unit, characterized in that the receiving part is equipped with a matching unit, a receiver , processor, control panel, while the input of the matching unit is connected to the line current sensor, the output of the matching unit to the input of the receiver, the output of the receiver is connected to the processor, w rum input of which is connected a control unit processor connected to the indicator output; the transmitting part is equipped with a controller, a synchronization unit, an address plug, while the inputs of the measurement unit are connected to a current sensor, an earthing switch, electrodes for comparing the cathodic protection of the main pipeline and to the main pipeline itself; the output of the measurement unit is connected to the first input of the controller, to the second and third inputs of which the outputs of the synchronization unit and the address stub are connected, respectively; the controller output is connected to the input of the control unit, the output of which is connected to the input of the modulator block.