SU1305751A1 - Method and apparatus for remote checking of cathode protection station operation - Google Patents

Abstract

The invention relates to the protection of underground structures against corrosion and can be used to control the operation of cathodic protection converters. The purpose of the invention is to increase the reliability of transmission of monitored signals by adjusting the transmission coefficient of the communication channel between the cathodic protection station and the control room. The device contains on the transmitting side 1 (for example, a cathodic protection station) a switch 2 made on the distributor 3, OR element 4 and keys 5, sensors 6 monitored and sensor 7 of the reference signals. The transmitting side is connected by a line 19 to the control room 8, which contains the synchronizer 10, the distributor 9 pulses, the adjustable amplifier 11, the first 12, the second 13 and the third 14 keys, the element OR 15, the indicator 16, the integrator 17 and the sensor 18 of the reference signal . On the transmission side, under the control of synchronizer 9, the switch periodically connects the monitored sensors and the reference signal sensors to the communication line. € CO D1 D1

Description

The signals from the false transmitter of the transmitting side and the control room are periodically compared with each other, and in the event of their difference, the integrator 17 produces a difference signal that controls the gain factor.

one

The invention relates to the protection of underground structures against corrosion and can be used to control the operation of cathodic protection converters.

The purpose of the invention is to increase the reliability of transmission of monitored signals by adjusting the transmission coefficient of the communication channel between the transmitting side (for example, a cathodic protection station) and the receiving side (for example, a control room).

The drawing shows a functional diagram of the device that implements the proposed method.

The device contains on the transmitting side 1 switch 2, made on the distributor 3 pulses, the element OR 4 and the keys 5, the sensors 6 monitored and the sensor 7 of the reference signal. At the receiving side 8 (bottom-petting station) the device contains a distributor 9 pulses, a synchronizer 10, an adjustable amplifier 11, the first 12, a second 13 and a third 14 keys, an OR 15 element, an indicator 16, an integrator 17 and a reference signal sensor 18. Communication between the transmitting 1 and the receiving 8 parties is carried out via the communication link 19.

A device that implements the proposed method works as follows.

The synchronizer 10 generates a synchronization pulse, setting the distributors 9 and 3 pulses to the initial state, simultaneously generating control pulses at one of their outputs. The control impulse at control station 8 is simultaneously supplied to the keys. 13 and 14, which becomes conductive, and on the transmitting side, a control pulse opens key 5 connected to sensor 7. Sensor 7 through a logic amplifier 11. Changing the gain allows the transmission coefficient of the sensors to remain unchanged. controlled signals with a control tower and indicator 16. 2 c.ii. f-ly, 1 ill.

The ment OR 4 is connected to the link 19 and the reference signal is fed to the input of the amplifier 11, which due to the attenuation in the line 19 has a smaller amplitude. In this case, both inputs of the integrator 17 receive signals: one from the sensor 18 of the reference signal, similar to the sensor 7 of the reference signal, and the other from the output of the amplifier 11 with an adjustable gain factor. When the input signals of the integrator 17 are not equal, the latter produces a gain adjustment signal of the amplifier 11. Thus, the signals at the input of the integrator 17 are aligned. Consequently, the signal at the output of amplifier 11 fully corresponds to the signal entering line 19 at the transmitting side (cathodic protection station), and the attenuation of line 19 is fully compensated. After the gain is adjusted, the gain of amplifier 11, i.e. After the time required for this operation, the synchronizer 10 generates the next synchronization pulse, smaller in amplitude, which does not cause the distributors 3 and 9 pulses to return to their original position, but allows the next control signal to be generated at their other outputs. In this case, the keys 13 and 14 are closed, the inputs of the integrator 17 are turned off, and at its output a signal is stored that keeps the gain factor of the amplifier 11 adjusted during the transmission of the reference signal.

The control signals generated simultaneously at the transmitting 1 and receiving 8 sides, respectively, arrive at switch 2 and the corresponding key 12. At the same time, the signal from sensors 6, which characterizes one of the monitored parameters, for example, the protective current value of the underground structure, through the OR 15 gate indicator 16.

A measurement is made similarly. the next monitored parameter, for example protective potential. After the end of the first measurement cycle of the monitored parameters, the next measurement cycle begins, analogous to

the previous one. Pulse-fo synchronization with the corresponding switch inputs, at the receiving side — the first keys that serve for switching the pulse distributors, significantly amplify the level of transmitted monitored signals in amplitude, so the latter have the second and synchronization of the pulse distributors The third key, pulse distributor, synchronizer and indicator, characterized in that, in order to increase the reliability of the transmission,

owls located on the receiving and transmitting sides. The integrator and the adjustable amplifier.

Thus, the proposed method, the first synchronizer output is connected, allows reliable di-20 to be connected to the input of the pulse distributor, the station monitoring of the cathodic protection station's work on the communication line, regardless of the amount of attenuation in the communication line.

the outputs of which are connected to the first inputs of the respective first and combined first inputs of the second and third keys, the output of the controlled

Claims (2)

1. A method for remotely monitoring the operation of a cathodic protection station, consisting in periodically transmitting synchronization signals over a communication channel from the receiving side, receiving them at the transmitting side, forming a reference signal and. controlled signals and sequentially transferring them to the primary key, the integrator output is connected to the side of which. so that, in order to increase the reliability of the transmission of the monitored signal, a reference signal is formed on the receiving side, the output of which is connected to the second input by a new and formed reference signal; the amplitudes of the monitored signals are punched to the first input of the adjustable amplifier, the second output of the synchronizer of the receiving side through the line The connection is connected to the input of the switch of the receiver-side reordered amplifier. Editor I. Shulla Compiled by V. Borodin Tehred A. Kravchuk Proofreader N. Korol Order 1457/50 Circulation 544 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Design, 4, the change in link gain. 2. A device for remote monitoring of the cathodic protection station operation, comprising on the transmitting side a switch, sensors of monitored signals, a sensor of a reference signal, outputs of sensors of monitored signals and a sensor of a reference signal are connected The second and third keys, a pulse distributor, a synchronizer and an indicator, are introduced in the receiving side, characterized in that, in order to increase the reliability of the transmission, ow, the reference signal sensor, the first output of the synchronizer is connected 20 to the input of the pulse distributor, the outputs of which are connected to the first inputs of the respective first and combined first inputs of the second and third keys, the output of the controlled thirty 5 of the amplifier is connected to the combined second inputs of the first and second keys, the outputs of the first keys are connected; With the corresponding inputs of the OR element, the output of which is connected to the indicator input, the output of the sensor of the reference signal is connected to the second input of the third key, the output of which is connected to the first input an integrator whose second input is connected to the output key, the output of the integrator of the connecting side, the output of which through the communication line is connected to the second input not the first input of the adjustable amplifier; the second output of the receiving side synchronizer is connected via a communication line to the input of the switch of the first switch; the output of the integrator of the connecting side, the output of which is connected to the second input through the communication line controlled amplifier receiving side.