SU288727A1 - AUTOMATIC INSTALLATION FOR PROTECTION AGAINST CORROSION - Google Patents

Description

This invention relates to automatic corrosion protection of steel parts, e.g. ship parts.

The known corrosion protection installations include a power source, a reference electrode, a voltage reference unit, an error signal amplifier, a phase-shifting unit, and a regulating WAX organ on the thyristors. Installations of this type make potential potential measurements and, based on the results of this measurement, control the current required for corrosion protection. Phase-shifting unit in them can be performed, for example, in the form of a magnetic amplifier.

Such installations have large dimensions, weight and insufficient range of adjustment.

The aim of the invention is to simplify the installation.

The drawing shows the scheme of the proposed installation.

The potential of the submerged part 1 is measured with the help of the measuring electrode 2. To the measured potential, there is a counter-voltage reduced by a potentiometer. The required stabilized voltage is taken from the power rectifier 4. With the help of potentiometer 3, the counter-voltage is established and

the most specified value, i.e. the operating point of the instrument. With the counter reference voltage, which is taken through potentiometer 3, the measured voltage forms the compensation circuit 5. The rectifying unit 6 consists of rectifiers 7, 8, 9, 10. The negative pole of the rectifying unit 6 is connected to the protected from corrosion details /, and the positive pole - to the protective electrodes 11, 12. To control the protective current in front of the electrode 11, the thyristor 13 is turned on, and in front of the electrode 12 there is a thyristor 14. If you need to turn on several protective electrodes, then this circuit must be expanded accordingly on. Thyristors 13, 14 are switched on when the initial pulses are shifted in time by the start and the end of the corresponding half-period of the operating current, depending on the measured potential. The time shift of the control pulses occurs due to a change in the charging time of the capacitor 15, which belongs to block 16, which is drawn from the rectifying block 17. Block 16 consists of resistances 18, 19, potentiometer 20, transistor 21 and diodes 22, 23. rectifying unit 17 consists of diodes 24-27. and transistor 21. Transistor amplifier 28 consists of transistors 29, 30, resistors 31-38, as well as diodes 39, 40. The initial pulse sensor 41 consists of transistors 42-45, resistors 46-53, capacitor 54 and diode 55. This the sensor is activated by block 16 and generates control pulses necessary for firing thyristors 13, 14. Transmitter 56 of control pulses delivers the altered pulses to thyristors 13, 14. The necessary stabilized voltage for sensor 41 of control pulses is removed from the power rectify 57. If we assume that the system is in equilibrium, then, for example, as the surface of a steel part to be protected from corrosion decreases, the potential of part 1 increases. The voltage difference caused by the compensation circuit 5 at the base of the transistor 30 is also reduced, as a result of which its conductivity is reduced. This leads to the fact that due to the amplification of the transistor amplifier 28, the 6GO signal is reduced, and thus the tactele and the transistor 21 become less conductive, i.e., its collector-emitter resistance increases. The charging time of the capacitor 15 changes, namely due to the increased collector-emitter resistance of the transistor 21, the charging time increases. The corresponding voltage is removed by a potentiometer 20. At the beginning of the half-period, a positive voltage is present at the contact 58 compared to the contact 59, and a positive signal is present at the base of the transistor 42 of the sensor 41. Due to the charging of the capacitor 15, the voltage at the contacts 58 and 59 is changed to anti-half, so that the transistor 42 receives a negative (INCOMING signal. This triggers the multivibrator, which has one stable position and consists of transistors 42, 43, and provides a control pulse a thyristor ignition sensor 41. The pulse duration is determined by a capacitor 54 and a resistance 49. The increase in the charging time of the capacitor 15 is a multivibrator with one stable ignition position There are no thyristors with a 1pp time shift of half a period, the anode current cut-off angle and the protective current decrease and counteract the potential increase. Due to the limiting of the protective current, the specified potential is kept within acceptable limits in accordance with the calculation of the parameters of the installation. a reverse process will occur, and the protective then: k will increase. With the help of diodes 22 and diodes 39, 40 preamplifier 28, temperature is stabilized. The task of the transmitter 56 impulses includes galvanic isolation of the regulating device. from protective current circuit. A diode 55 is needed to block the control devices turned off in parallel. Subject of the Invention A machine for corrosion protection of steel parts, for example, ship parts, comprising a power source, a reference electrode, a reference voltage unit connected to an error signal amplifier connected to a phase shifter controlling a pulse generator connected to a thyristor output control body characterized in that, for the sake of simplicity, the phase-shifting unit is designed as connected to a power source via a rectifier | potentiometer and a connected of the amplifier transistor capacitor mismatch signal, the capacitor and the potentiometer included but comparing circuit nanr vny L, the output of which is connected to the input of the pulse generator.

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