SU1100667A1 - Well anode earthing conductor - Google Patents

Abstract

1. BOTTOM ANODE GROUNDER, containing hollow electrodes, electrically interconnected by means of interelectrode connectors with vertical channels, made with moisture-proof current leads, and conductors, characterized in that, in order to simplify manufacturing and installation technology, interelectrode connectors are made with an internal cavity, communicating with the lower cavity, relative to this electrode connector, and the current leads are located in the upper part of the said cavities. 2. Grounding device according to claim 1, about t l isch. The fact that the interelectrode connectors are made on the outer diameter of two-stage, and the larger diameter steps are rigidly fixed at the lower ends of the electrodes, and the smaller diameters (L meter are located with a gap in the upper ends of the lower electrodes.

Description

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The invention relates to the cathodic protection of underground structures against corrosion and the transfer of electric power from direct current through a system of conduct of earth, namely, to a positive polarity direct current earthing device, and can be used in many industries. The anode earthing is known with hollow electrodes interconnected by connecting - current leads, the junction points of which with the conductor are insulated from the environment by rings filled with an anticorrosive compound l}. The disadvantages of the known earthing device are low service life due to the difficulty of high-quality insulation in difficult weather conditions and. the complexity of installation associated with the need to insulate the compound of each current lead. Closest to the proposed is a borehole anode earthing, containing hollow electrodes, electrically connected to each other by means of interelectrode connectors with vertical channels, made with moisture-proof TOKO water, and conductors. The current leads are located in insulating shells, made in the form of caps, mounted on interelectrode connectors, the caps filled with a water-insoluble liquid lighter than water from the tank located at the bottom of the grounding. Gel 2J The disadvantages of this earthing are the laboriousness of manufacturing caps and interelectrode connectors with a ledge, requiring milling, and installation complexity, since it requires fastening of each cap to the connector. The purpose of the invention is to simplify the technology of manufacturing and installation of the earthing switch. The goal is achieved by the fact that in a downhole anode emitter containing hollow electrodes electrically connected to one another by means of interelectrode connectors with vertical channels, you are filled with moisture-proof current leads, and hoque pipes, interelectrode connectors are made with an internal cavity communicating with the lower cavity along with respect to this electrode connector, and the current leads are located in the upper core of these cavities. The interelectrode connectors can be made on the outer diameter of two-stage, and the larger diameter steps are rigidly fixed to the lower ends of the ejectrodes, and the smaller diameter steps are located with a gap in the upper ends of the lower electrodes. The drawing shows the proposed earthing, longitudinal section. The earthing switch consists of hollow electrodes 1, which are electrically interconnected by means of a conductor 2 and interelectrode connectors 3 made with an internal cavity 4 communicating with a lower cavity with respect to this electrode connector. - The current lead is connected to an interelectrode connector inside cavity 4 by means of a bolt 5, playing the role of current lead. The interelectrode connectors are made in two-step diameters, with a step of a larger diameter each, the connector is rigidly fixed by means of a thread, fixed on the bottom KOHiie electrodes, and a step of a smaller diameter is located with a gap at the top end of the bottom. electrode. At the bottom, the earthing switch is provided with a guide head 6 with a hole of 7 dl. cable grommets. The earthing switch is lowered into a vertical well 8, filled with mud or water 9. The earthing switch works as follows. I When turning on the current source that supplies the earthing switch, the current flowing through the conductor through the current leads and the interelectrode connectors flows into the electrodes and from the latter flows into the surrounding ground. Since the electrodes are made of an inert material (for example, graphite), the flowing current has a slight electrolytic dissolution of the electrodes. However, the weak node in the earthing is the junction of the conductor with the current lead, since both the conductor cores and fasteners made of active metals, in case of contact with the aqueous medium, undergo electrolytic dissolution by the flowing current, which leads to premature release of the entire earthing switch . In the proposed earthing, the current lead is placed in the cavity in the body of the interelectrode connector, which plays the same role as the cap in the prototype. Inside this cavity, during the descent of the grounding conductor, air is contained in the well, which, being lighter than water, prevents water from entering the joint. In the proposed earthing no caps, which are laborious. In addition, the interelectrode connectors themselves have a simple configuration — there is no shaped ledge, which requires milling operations. Moreover, because the connectors are made in two steps, the need for threading at both ends of the electrodes is eliminated. Such a design greatly simplifies the installation process, since the individual electrodes are not interconnected by means of the thread, so that the exact alignment of the electrodes is eliminated at baiting thread. In addition, such a specimen as a whole is not a rigid construction, so it can be lowered into curved (which often happens in practice) wells.

The economic effect of introducing the proposed earthing switch in the national economy is ensured by reducing the cost of manufacturing and

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earthing installation

Claims (2)

1. A downhole anode grounding conductor, comprising hollow electrodes electrically connected to each other by means of interelectrode interelectrode interconnected by an internal cavity and a lower cavity, to this current lead connector are placed connectors with vertical channels made with moisture proof current leads, and current conductors, characterized in that, with the purpose of simplifying the manufacturing and installation technology, whether made communicating in relation to the electrode, and in the upper part of these cavities. 2. Earthing switch by π. ^ characterized in that the interelectrode connectors are made in two-stage outer diameters, with steps of a larger diameter rigidly fixed to the lower ends of the electrodes, and steps of a smaller diameter located with a gap in the upper ends of the lower electrodes. Q