CS197929B1 - Connection for the automatic regulation of protecting current of rectifier for the cathodic or drainage protection of buried devices - Google Patents

Description

The invention relates to a circuit for automatic control of the protective current magnitude controlled by the cathodic or drainage protection of metallic storage devices, in particular exposed to stray currents, to control the voltage required to protect the storage device according to the potential between the reference electrode and the storage device.

Automatically controlled leveling devices for cathodic or drainage bends and are mainly used in stray current recovery areas, ie for electrified DC lane lines. In these locations and on the storage devices, they use rectifiers that use elements and half control capabilities (thyristors, triacs, etc.) for control. However, these elements are a source of radio or telephone interference.

Therefore, they must be equipped with an interference suppression device - filter culverts that limit the propagation of interfering frequencies below the standard limits. So far, connections are known which reduce the magnitude of interfering voltages by means of primary and secondary interference suppression filters, e.g. These connections are particularly disadvantageous due to the high weight of the secondary interference filter filters and the size of the entire device.

The deficiencies are largely eliminated and connected according to the invention, its! It is based on the fact that a block consisting of at least one semiconductor element and a half conductor of a propulsion is connected and a second filter pass, the output of which is connected and a transformer which is

197 929 longer connected by a rectifier, the positive pole of which is connected by the grounding anode 'and the negative pole and the protected device and the regulator, which is connected by the reference electrode, by the block consisting of at least one semiconductor element and

The connection according to the invention reduces the weight and the size of the entire device by 100%, because there is no need to use a secondary filter suppression filter. It saves at least 8 kg of copper and 10 kg of steel per rectifier, making the whole system simpler to manufacture, less expensive and less labor intensive.

The advantage of the wiring and capacitor lies primarily in a further simplification in the production of the automatically controlled rectifier, in particular the need to use shielded conductors.

The circuit according to the invention is shown in the drawing, Fig. 1 and Fig. 2.

In FIG. 1, a block is connected to the mains supply voltage 1 via a first filter pass 2 which is further connected and a second filter pass 6. The transformer 6 is connected to the second filter switch 6 and connected to the rectifier 6. The positive pole of the rectifier 4 is connected by an anode ground 2, the negative pole is connected to the line 8. The controller 10 is not connected to line 8 and the reference electrode. It is also connected by the block J and the outlet of the first filter pass.

In Fig. 2, the marking is the same and that a capacitor 11 is connected between the negative pole of the rectifier 6 and the positive pole of the rectifier 6.

Claims (2)

SUBJECT OF THE INVENTION 1. Wiring for the automatic control of the protective current of a controlled rectifier of cathodic or drainage protection of storage devices, regulating the voltage needed to protect the storage device according to the potential between the reference electrode and the storage device in which a block formed by the first filter pass is connected at least one semiconductor element e with half control capability, characterized in that the block (3) consisting of at least one semiconductor element and half control capability is connected to a second / filter pass (4), the outlet of which is connected to a transformer (5) which is further connected by a β rectifier (6), the positive pole of which is connected by the grounding anode (7) and the negative pole of the protected device (8) and the controller (10), which is connected by the β reference electrode (9) and the block (3) comprising at least one semiconductor element e a half control and through the output of the first filter pass. Connection according to Claim 1, characterized in that a capacitor (11) is connected between the negative pole of the rectifier (6) and the positive pole of the rectifier (6).