RU198331U1 - Power line stand - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to the construction of power lines, grounding of supports, metal structures, lightning rods. , made in the form of two identical blocks, each of which consists of a prestressed reinforcing wire, divided into two groups, distant from each other with respect to the transverse axis of the cross-section of the rack and located symmetrically with respect to it and arranged in a row parallel to the longitudinal axis of the cross-section of the rack , which is entwined with a flat spiral, according to the utility model, the lower part of the rack is equipped with a grounding device containing a head, a tread alloy body installed in a perforated shell and connected to the ground intended for connection to the protected ground the elements of the line with an electric wire passing through the cavity of the rack, having a circular cross-section with a diameter of 3-5 cm larger than the diameter of the head of the grounding device, and the head itself has a length not less than the length of the submerged part of the grounding device, while the perforated shell is made in the form of a pipe made of electrically conductive material , the tread body is installed with a displacement inside the perforated shell from one of its ends, and a helical blade is installed on the perforated shell from the side of the blind end.

Description

The utility model relates to the field of electrical engineering, in particular to the construction of power lines, grounding poles, metal structures, lightning rods.

Known grounding device for the support of overhead power lines, containing an annular ground electrode, buried in the ground, and a vertical electrode connected to it. The earthing switch is in the form of a cylindrical spiral spiral with a varying number of turns in depth inversely proportional to the resistivity of the soil layers in the pit, and with a diameter equal to the diameter of the pit drilled in the ground for installation of the overhead power transmission line support, while the earthing switch is equipped with clamps that regulate the step between the turns and fixing their position when filling the foundation pit with earth (Patent for invention RU 2288529 C1, IPC H01R 4/66, 2006.).

The disadvantages of this grounding device is the complexity of its installation and the lack of tread protection of the support and its grounding elements.

A protector-earthing switch is also known, comprising a head, a tread alloy body installed in a perforated shell and connected to an electric wire. The perforated shell is made in the form of a pipe from an electrically conductive material, the tread body is mounted with a displacement inside the perforated shell from one end thereof, holes for installation are made on the free end of the perforated shell, and a screw blade is installed on the side of the blind end (Patent RU 2574180 C2, IPC C23F 13/16, 2016.).

The given protector-earthing is used for grounding and corrosion protection of pipelines.

The closest in technical essence to the proposed one is a power line stand made in the form of a hollow column of prestressed reinforced concrete, which has a transverse rectangular section, and the longitudinally transverse reinforcement that the stand is equipped with is made in the form of two identical blocks, each of which consists of a prestressed reinforcing wire, divided into two groups, distant from each other with respect to the transverse axis of the cross section of the rack and arranged symmetrically with respect to it and arranged in a row parallel to the longitudinal axis of the cross section of the rack, which is entwined with a flat spiral, and the above blocks are placed symmetrically relative to the longitudinal axis the cross section of the rack, a wire with a diameter of 5 mm was used as longitudinal reinforcement, and flat spirals are made of 3 mm wire. (Patent for the invention RU 2427694 C1, IPC E04H 12/12, 2011.).

The disadvantages of the prototype are the lack of grounding and tread protection of the elements of the power line, as well as the complexity of the installation.

The technical result of the utility model is to simplify the installation of the structure, as well as providing grounding and tread protection for the support and grounded elements of the power line.

To achieve a technical result, in a power line stand made in the form of a hollow column of prestressed reinforced concrete having a rectangular cross section and longitudinally transverse reinforcement made in the form of two identical blocks, each of which consists of a prestressed reinforcing wire, divided into two groups, distant from each other with respect to the transverse axis of the cross section of the rack and arranged symmetrically with respect to it and arranged in a row parallel to the longitudinal axis of the cross section of the rack, which is entwined with a flat spiral, according to a utility model, the lower part of the rack is equipped with an earthing device containing a head, the body of a tread alloy installed in a perforated shell and connected to an electric wire intended to be connected to the protected grounding elements of the line passing through the cavity of the rack, having a circular cross section with a diameter of 3-5 cm larger than the diameter of the head of the grounding mouth of the device, and the tip itself has a length not less than the length of the immersed part of the grounding device, while the perforated shell is made in the form of a pipe of electrically conductive material, the tread body is installed with a displacement inside the perforated shell from one end of it, and from the side of the blind end, a screw is installed on the perforated shell blade.

The invention is illustrated in the drawing, where figure 1 shows the lower part of the rack of the power line, and figure 2 is a transverse section of the rack.

The power line stand, made in the form of a hollow column of prestressed concrete 1, having a rectangular cross-section, and longitudinally-transverse reinforcement made in the form of two identical blocks 2, each of which consists of a prestressed reinforcing wire, divided into two groups, distant to each other from each other with respect to the transverse axis of the cross section of the rack and arranged symmetrically with respect to it and arranged in a row parallel to the longitudinal axis of the cross section of the rack, which is entwined with a flat spiral. The lower part of the rack is equipped with a grounding device containing a tip 3, a tread alloy body 4 installed in a perforated shell and connected to an electric wire 5, which is connected to the protected grounding elements of the line, passing through the cavity of the rack 6, having a round cross-section with a diameter of 3-5 cm more than the diameter of the tip 3 of the grounding device, and the tip itself has a length not less than the length of the immersed part of the grounding device. The perforated shell is made in the form of a pipe of electrically conductive material, the tread body is installed with a displacement inward of the perforated shell from one end thereof, and from the side of the blind pointed end 7, a screw blade 8 is installed on the perforated shell.

The power line rack is installed and operates as follows.

Holding the device shown in FIG. 1, in an upright position, rotate it by screwing it into the ground. The type of soil affects the screwing speed. The helical blade 8 is a cutting element, during immersion of the device with its help, the torque is converted into translational force. When installing the device, pressure is applied to the soil, soil is compacted, and the device is securely fixed. The streamlined shape of the perforated pipe contributes to the easy entry of the device into the ground. The top 1 is mounted on top of the head. As the head length is not less than the length of the immersed part of the device, the post becomes stable.

The potential of the tread alloy body is more negative than the potential of the grounded power line elements, which, therefore, are cathodes, and the tread alloy body is the anode. The device performs the function of grounding, ensuring uniform drainage of electric current into the ground. The perforated shell and the screw blade 8 are made of steel or other electrically conductive material with good load-bearing properties.

Claims (1)

The power line stand, made in the form of a hollow column of prestressed reinforced concrete, having a rectangular cross section and longitudinally transverse reinforcement made in the form of two identical blocks, each of which consists of a prestressed reinforcing wire, divided into two groups, separated from each other with respect to the transverse axis of the cross section of the rack and arranged symmetrically with respect to it and arranged in a row parallel to the longitudinal axis of the cross section of the rack, which is entwined with a flat spiral, characterized in that the lower part of the rack is equipped with an earthing device containing a head, a tread alloy body installed in perforated shell and connected to the electric wire intended to be connected to the protected grounding elements of the power line passing through the cavity of the rack having a circular cross section with a diameter of 3-5 cm larger than the diameter of the head of the grounding device, and the head itself has the length is not less than the length of the immersed part of the grounding device, while the perforated shell is made in the form of a pipe of electrically conductive material, the tread body is installed with a displacement inside the perforated shell from one end of it, and a screw blade is installed on the side of the blind end on the perforated shell.

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