RO134073A2 - Grounding electrode for buildings, with corrosion-resistant connections - Google Patents

Abstract

The invention relates to a grounding electrode for buildings, with corrosion-resistant connections. According to the invention, the electrode consists of an external metallic tube (1) and an internal metallic tube (3) joined at the bottom by welding with a steel strip (4) and at the top with a steel strip (5) with oblong wings configured as an S, so as to allow, through the ends of the steel strip (5), the welded connection with the steel strip (6) of the horizontal part of a grounding installation, the said connections being covered with bitumen, inside of some corrosion-protective containers (7), where the top part of the so obtained electrode mounting, i.e. the area of connections between the electrode steel strip (5) and the steel strip (6) of the horizontal part of the grounding installation, is located in a manhole (8), for periodical check-ups and measurements.

Description

BUILDING EARTH ELECTRODE WITH CORROSION RESISTANT CONNECTIONS

The invention relates to a grounding electrode provided with an anti-corrosion device at the horizontal connection used for the human protection installation against accidental contact voltages at the electrical construction protection installation against the effects of lightning.

Regarding the earthing electrode, the Romanian legislation provides by: Norm for the design, execution and operation of electrical installations related to buildings, indicative 17-2011, chapter 4, Protections for ensuring security, subchapter.4.1.3. the following technical measures for protection against damage (protection against indirect contact), point 4.1.3.2. are provided “Protection in the event of a defect (protection against indirect contact) shall be provided only by technical measures. These are: main technical measures: earthing of the accessible conductive parts (which could accidentally be energized) under the conditions specific to each TN, TT, IT supply system ”. in chap.5 Choice and installation of electrical equipment, subchap.5.5. Grounding systems, Fig.5.1 Grounding systems -T- earth socket (earth electrode), point.5.5.1.3. it is provided that the "Grounding system must: ... ensure robustness, mechanical protection and adequate resistance to corrosion against external influences to which it may be subjected" pt.6.2.3.11.2. The type B arrangement provides: "This type of arrangement involves a multiple earthing outside the structure (from vertical electrodes connected to each other by horizontal electrodes, or only horizontal electrodes)."

The normative regarding the protection of constructions against lightning, indicative 1202000, chap. G, p.36, Electrical connections, pt.2.3.119. Provides: similar methods. It is also allowed to make electrical connections by screws, rivets, etc., provided that measures are taken against their self-disassembly and only if they can ensure the maintenance over time of electrical, mechanical and corrosion resistance. pt.3.3.120 The connections between the band conductors or between them and the steel elements of the construction shall be made with at least two M8 screws or one M10 screw, and the connection shall be of min. 10 cm ² . chap.I, page 3 8, Protection against corrosion, point 138, provides “Electrical connections in the ground are protected by coating with a layer of bitumen”.

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The standard for tests and measurements on electrical equipment and installations, Indicative PE 116-94: page 186, point 20, Grounding installations, provides: “Verification of the degree of corrosion of earthing installations: Conditions for performing the test (method of analysis) It is carried out by digging in the part of the ground entry of the connections to the socket to a depth of 0.3-0.76 m at the grounding (artificial or natural). If more severe corrosion is found, the corroded electrodes of the sockets and their connections are replaced. "

Regarding the grounding electrode, the international legislation by BS EN / IEC 62305 Lighting protection standard provides: “A good grounding connection must have the following characteristics:

• Low electrical resistance between electrode and ground. The lower the resistance of the ground electrode, the more likely it is that the lightning current will choose to flow down that path compared to any other, allowing the current to be conducted safely and dissipated into the ground;

• Good corrosion resistance. The choice of material for the grounding electrode and its connections is of vital importance. It will be buried in the ground for many years, so it must be completely reliable

The invention is known from RO 131698 A2, which has a grounding electrode with the following disadvantages: the sharp angle profile of penetration into the ground by applying blows causes the loss of a zinc microlayer due to the effect of friction with the ground; the flange part with holes for the fixing screws of the protection circuit elements, is not protected against corrosion.

The invention ROI32124 A2 is known which relates to an earth electrode intended for the protection of electrical networks and installations. The electrode according to the invention consists of two pieces (1, 2) of angle profile having two equal wings (a, b) respectively, which are joined longitudinally by spot welding and seams (c), at the top the electrode being welded on the wings (a) a piece (1) by two welding seams (e, f), the cross-piece (3) allowing the electrode to be connected to an electrical protection circuit. The technical solution of the invention has the following disadvantages: the crossbeam welded by the wings of the part (a) through the two welding seams are not protected against corrosion; Penetration into the soil involves mounting by applying blows, which generates the loss of microns from the zinc layer that covers the electrode.

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The invention is known CN203721904 (U) which relates to a connecting device and an electrode for vertical connection to the connecting device. The connecting device includes a connecting rod. The connecting rod is connected between two grounding electrode units. The connecting rod includes connecting holes formed on the connecting rod, which extend axially along the connecting rod and threadedly connected to the units of the vertical connecting electrode. The periphery of the connecting rod is provided with reinforcing structures that strengthen the resistance of the joints between the connecting rod and the units of the vertical connecting electrode. The vertical bonding electrode units are connected through the connecting device and are joined to form the entire grounding electrode. The vertical grounding electrode is divided into a multitude of shorter units, and transportation and installation are convenient.

The invention is known DE 102010016985 (Al) which is an overvoltage discharge device, i.e. the lightning discharger, for switching between phase and zero earth conductors or mains protection, has plates aligned parallel to the electrodes and pressed together with elastic electrode. The discharge device (1) has an opening (2) and an electrical element connected in series. The electrical element consists of a component with two plate-shaped electrodes (4, 6). An electrically conductive material is arranged between the components of the electrodes so as to connect the electrodes to each other in an electrically conductive manner. The components are formed between the electrodes by several electrically conductive plates (9) which are aligned parallel to the electrodes. The electrically conductive plates are pressed together with an elastic electrode and are made of graphite.

The technical problem of the invention consists in the realization of a grounding electrode afferent to the vertical grounding installation of the constructions, which has a lower electrical resistance in contact with the ground, a connection by welding cord with a safer corrosion protection to the horizontal installation. grounding and superior fault protection in the event of lightning or indirect contact.

The grounding electrode of constructions with corrosion-resistant connections according to the invention removes the disadvantages of the known solutions in that it is connected by welded connections to the (flat strip) of the horizontal part of the installation to 2018 00757

28/09/2018 grounding of the construction. The electrode consists of concentric tubes, an outer galvanized steel tube and an inner galvanized steel tube joined at the bottom by welding with a flat band, and at the top by a flat band with elongated wings and configured in the shape of "S" so that through the ends of the flat strip to make the connections by welding with the flat strip of the horizontal earthing installation. The connections are covered with bitumen inside corrosion-resistant plastic containers and the upper part of the electrode assembly thus made, respectively the area of the connections between the electrode plate and the horizontal grounding plate is arranged in a visiting room with access for periodic checks and measurements. The outer galvanized steel tube provides at the bottom, on a limited length, at least 4 equidistant longitudinal notches to allow the reflection of the tube material so that on the said tube materialize, transversely on its axis some wings, in the form of a rosette, which defines a larger contact surface of the galvanized steel tube with the ground.

The grounding electrode of constructions with corrosion-resistant connections according to the invention has the following advantages:

• allows better contact with the ground;

• ensures, through a lower electrical resistance, a better passage and dissipation of the lightning overvoltage through the ground;

• ensures the corrosion protection at the joint parts for the flat band of the horizontal earthing installation;

• ensures a simpler assembly work so that the possibility of friction with the ground is eliminated, implicitly the loss of a zinc microlayer that covers the electrode.

An embodiment of the invention is given below in connection with the figures which represent:

Fig. 1, General scheme of earthing electrode with low electrical resistance and anti-corrosion device;

Fig. 2, Photo with corrosion protection container at the flat band welding connection of the horizontal earthing installation;

Fig. 3, Photo with bitumen corrosion protection container;

Fig. 4, Photo with low-resistance grounding electrode and anti-corrosion device in the Dry Corrosion Test Cabinet-DCTC 600;

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Fig.5, Photo with the grounding electrode provided with anti-corrosion device at the connection;

Fig.6, Photo with anti-corrosion device at the connection;

Fig.7, Photograph with the welded cross piece and (the rosette-shaped wings of the electrode) (4 equidistant longitudinal notches).

The grounding electrode of constructions with corrosion-resistant connections according to the invention consists of a galvanized steel tube (1) of predetermined length and diameter according to the soil geodetic composition and the rules corresponding to the construction for which the (earth) connection installation is made - ground. At the bottom of the galvanized steel tube (1), on a limited length, at least 4 equidistant longitudinal notches are made to allow the material of the tube to be reflected so that on said tube (1) some wings materialize transversely on its axis (2). ) in the form of a rosette defining a larger contact surface of the galvanized steel tube (1) with the ground in order to improve the conductivity in the vertical plane at the discharge of the electric discharge-atmospheric overvoltage. Inside the galvanized steel tube (1) on the cylindrical portion remaining after notching and reflection, a smaller diameter galvanized steel tube (3) is arranged concentrically which is joined to the galvanized steel tube (1), at the bottom of the rosette in the right of the wings (2), by a transverse flat strip (4) welded both to the galvanized steel tube (1) and to the galvanized steel tube (3). The concentric arrangement of the two galvanized steel tubes, (1) and (3) is necessary to obtain a lower equivalent strength, resulting from the ratio between the product and the sum of the resistances of the two galvanized steel tubes. At the top of the galvanized steel tube (1) the welded joint of the galvanized steel tube (1) with the galvanized steel tube (3) is made by a flat strip (5) with elongated and bent wings in an "S" shape. so that the ends of the flat strip (5) secure on either side in the vicinity of the concentric galvanized steel tubes (1) and (3), the areas of connection of the connections with the flat strip (6) of the horizontal part of the construction earthing installation. The ends of the horizontal part of the construction earthing installation (6) are connected with the earthing electrode constituted as described above (Fig. 1-7) by welding in the connection areas of the flat strip (5), the connection area being, protected in inside anti-corrosion plastic containers (7) inside which the connections between the horizontal part of the construction earthing installation (6) and the flat strip (5) are covered with bitumen. The upper part of the assembly thus made, respectively the area of the connections between

28/09/2018 of 2018 00757 flat strip (5) of the electrode and flat strip of the horizontal part of the construction earthing installation (6) inside the anticorrosive containers (7) is arranged in a visiting room (8) (Fig.4) with access for periodic checks and measurements. The realization of the earthing electrode through two concentric galvanized steel tubes, the outer one provided with a support rosette ensures by parallel bonding a lower equivalent resistance and better dissipation of atmospheric overvoltage in the ground, and protection of connections in anticorrosive plastic containers with accessibility for measurements and control considerably increase the reliability of the whole installation. The electrode thus constituted is easier to protect when mounting in the ground to avoid friction with the ground and implicitly the damage of the zinc microlayer that covers the electrode, it being placed in the ground after a previous excavation with the drill.

Claims (1)

Construction earth electrode with anticorrosive connections connected by welded connections to a flat strip (6) of the horizontal part of the construction ground installation characterized in that the electrode consists of concentric tubes, an outer metal tube (1) and a metal tube (3) joined at the bottom by welding with a flat strip (4) and at the top by a flat strip (5) with elongated wings and configured in an "S" shape so that through the ends of the flat strip (5) the connections by welding with the strip of the horizontal part of the earthing installation (6), the connections being covered with bitumen inside some corrosion protection containers (7) made of plastic, the upper part of the electrode assembly thus made respectively the area of the connections between the plate (5) of the electrode and the flat band of the horizontal part of the earthing installation (6) being arranged in a visiting room (8) with access for checks and measurements periodicals. Construction ground electrode with corrosion-resistant connections according to Claim 1, characterized in that the outer metal tube (1) provides at the bottom, over a limited length, at least 4 equidistant longitudinal notches to allow the material of the tube to reflect so on said tube. (1) to materialize transversely on its axis some wings (2) in the form of a rosette that defines a larger contact surface of the metal tube with the ground. Construction earth electrode with corrosion-resistant connections according to Claim 1, characterized in that the outer metal tube (1) and the inner metal tube (3) are made of galvanized steel and are mounted in holes drilled in the ground having a rosette diameter and ensuring contact with the ground by filling the holes with earth after installation. Construction ground electrode with corrosion-resistant connections according to Claim 1, characterized in that the corrosion protection containers (7) are made of plastic and provided with a lid which allows the opening and access to the bitumen-coated connection. Construction earth electrode with corrosion-resistant connections according to Claim 1, characterized in that the length of the electrode and the outer diameter of the metal tube (1) are given according to the rules according to the geodetic characteristics of the soil and the construction for which the earthing installation is carried out. .