CS233759B1 - Connection of cathodic protection rectifier - Google Patents

Abstract

The invention relates to the connection of a cathodic protection rectifier suitable in particular for rectifiers fitted with semiconductor components. The invention solves the problem of a suitable design of a rectifier which enables easy performance of corrosion measurements by one person without the help of another person. The essence of the invention consists in that control circuits are connected to the power supply network, which are connected to power circuits, which are connected to the pipeline and anode grounding, the control circuits are further connected to a multivibrator, which is connected to the power supply network. The invention can be used in all fields where cathodic protection is used, i.e. for example, gas, water and petrochemical industries.

Description

BACKGROUND OF THE INVENTION The present invention relates to the connection of a cathodic protection rectifier particularly suitable for rectangular rectangles equipped with semiconductor devices.

The prior art cathodic protection rectifiers are not equipped with a device which would enable periodically to switch the output voltage on and off with periods that can be set from 1 to about 120 seconds. Currently, there are a number of measurement methods where the output voltage of the rectifier needs to be periodically switched on and off. These are mainly measurements of insulation quality by direct current methods and furthermore a method of ensuring the reach of cathodic protection stations, which is advantageously applicable especially in areas with stray currents.

In order to perform these measurements, one worker at the kiosk of the cathodic protection station must, on the basis of the corrosion measurement worker's instructions, manually turn the rectifier on and off. The big loss of manually turning the rectifier on and off is the need to employ a qualified worker by simply operating the rectifier, while performing much more important tasks. Corrosion measurements are often made up to 10 km from the cathodic protection station kiosk in a variety of terrain profiles. In some cases, it is very difficult to connect both workers with portable radios over longer distances, which further complicates the measurement.

Manually switching the rectifier on and off again has a number of disadvantages. Too frequent switching on and off of the inductive load represented by the power transformer together with the pipeline leads to excessive burning of the switch contacts and thus to a reduction of its service life and consequently to an unnecessary rectifier failure.

Another drawback that occurs when the rectifier is switched on is the failure of the circuit breaker, which is caused by the high starting current of the power transformer. This fault can only be eliminated by a larger sizing of the circuit breaker, which is not always feasible in practice.

These drawbacks are overcome by the object of the invention that control circuits are connected to the power supply network which are connected to power circuits which are connected to the pipeline and anode ground, the control circuits are further connected to a multivibrator which is connected to the power supply. sewing.

The main advantage of the invention is the saving of the otherwise necessary one labor force when performing corrosion measurements. An operator who performs measurements on the rectifier, using the controls, sets the on / off time of the rectifier, the desired output voltage or current, switches the rectifier to intermittent operation, and can measure without requiring interaction with another operator.

Most current rectifiers are equipped with electronic output voltage control. Using these circuits and an additional built-in multivibrator, the output voltage of the rectifier is switched on and off purely electronically, without any wear of any component. Also, the failure of the circuit breaker, which is caused by the transformer start-up current, can be easily eliminated in most rectifiers with electronic output voltage control by using a suitable circuit.

An exemplary embodiment of the present invention is shown in the accompanying drawing which illustrates an embodiment of a rectifier and automatically switching off and on the output current.

The rectifier consists of control circuits 2, power circuits J and a multivibrator 6. The rectifier is connected to the mains supply J., protected by a structure 4 ⁸ anode grounding

The principle of operation of the rectifier according to the figure is as follows. The power voltage from the power distribution line J is applied to the control circuits 2 and at the same time supplies the multivibrator (i, which generates a rectangular voltage with periods of arbitrarily adjustable from 0 to 120 seconds. In intermittent operation, the power from the multivibrator controls the power semiconductor element, which turns the power to and from the power circuits on and off.

The invention can be used in all fields where cathodic protection is used, e.g., gas, water and petrochemistry.

Claims (1)

Cathodic protection rectifier circuit, characterized in that control circuits (2) connected to power circuits (3), which are connected to piping (4) and anode ground (5), control circuits (2), are connected to the supply network (1). (2) are further coupled to a multivibrator (6) which is connected to the power supply (1).