RU177933U1 - Power transmission tower foundation - Google Patents

Abstract

The foundation of power transmission towers is designed to improve the performance of single-chain intermediate towers on flooded, swamped and other weak soils, as well as to strengthen their bearing capacity, which is reduced due to physical damage or weakening of the surrounding ground support. A useful model relates to the field of construction and repair of transmission towers The foundation in the form of a central pipe and a cross-shaped design with additional pipe anchors at the ends of the cross gives stability to the support and prevents its overturning on poor soils.

Description

The foundation of the power line support is designed to improve the performance of single-chain intermediate supports on flooded, swamped and other weak soils, as well as to strengthen their bearing capacity, reduced due to physical damage or weakening of the surrounding soil support.

The utility model relates to the field of construction and repair of power transmission towers.

Various methods are known for enhancing the bearing capacity of power transmission towers in soft soils.

In accordance with the project “Fixing reinforced concrete intermediate supports of overhead lines 10 kV in swampy soils” (project 23.0087-00 of OJSC ROSEP), the reinforced concrete support is inserted into the foundation pile from a pipe with a diameter of 377 mm buried in mineral soil at least 3 m at a depth swamps up to 9 m.

The invention is known “Support and the method of its construction” (RF patent No. 2504616), in which the support is attached to a plate buried in the ground. However, this technical solution is not acceptable for wetlands.

The known method "Temporary prefabricated and dismantled support overhead power transmission lines of 35-110 kV" (RF patent No. 2539042). According to the invention, the support is held upright by rigid braces. Braces, in turn, are attached through a special hole to a support plate, which is held on the surface by a spiral screwed into the ground.

The disadvantage of these methods is the lack of ability of structures to withstand the mobility of the soil.

In accordance with the “Departmental Building Norms for the Construction of Main and Field Pipelines of Communication and Power Transmission Lines (VSN 015-89)” (VNIIST 01/08/2009) anchor-angle supports are fixed in marshy soils by immersing a metal pipe with a diameter of 325-377 in the ground mm, installing reinforced concrete support in it and giving additional stability with the help of three equally directed and buried metal pipes with a diameter of 152 mm and connected to the support with a clamp and flexible braces. In the case of subsidence of the support into the ground, flexible braces cease to fulfill their holding functions, which may lead to a loss of stability of the support.

As a prototype of the selected "Method of strengthening the support of the power line" (RF patent No. 2435917). The claimed method is intended to repair and temporarily enhance the load-bearing capacity of existing transmission line towers on the track until replaced with a new support. According to this invention, the power line support is secured by guy wires or struts fixed at one end through a collar to the support and the other end to a screw pile buried in the ground. However, in subsidence and marshy places, the reinforced concrete support can continue to sag, while the screw piles will remain in place and, as a result, may weaken the connections between the support and screw piles, which means that the stability of the support will deteriorate. In the prototype, the support is held by two screw piles that hold the support in a perpendicular plane to the power line and do not impede the inclination of the support in the longitudinal direction. In addition, the prototype is claimed as a temporary support for a limited period of operation until major repairs of the support.

The utility model is aimed at increasing the stability of power transmission towers.

The technical result consists in the ability to install reinforced concrete supports in flooded and wetlands, swamps to a depth of 5 m, in frozen soils.

The task is achieved in that the foundation of the power line support, consisting of a reinforced concrete support, reinforcing elements, pipe anchors according to the utility model further comprises a central pipe-pile, into which a reinforced concrete support is inserted, a cross-shaped structure of pipes of a smaller diameter, which is bolted through supporting sheet to the main pipe-pile, at the ends of the cross-shaped structure, bolted joints are fixed to the ground anchors-pipes.

In FIG. 1-3 are a general view, a side view and a top view of the foundation of the support of power lines.

A reinforced concrete support is inserted into the foundation, which consists of a central pipe with a diameter of 377 × 9 mm and a length of 5 m. A cross-shaped structure of tubing pipes is bolted to the main pipe-pile through a support sheet.

Anchoring by tubing to the ground is carried out along a radius of 2.5 m, creating a bush of hanging piles. Hanging supports are placed in the surface layers of the soil. The stability of such piles is achieved in a combined way - the resistance of the suspension pile support and the friction of the walls against the soil. The load distribution in the supports of the hanging type is as follows - 65-70% of the external pressure is transmitted to the soil through the side walls of the piles, 30-35% - through the support part.

Then, using bolted joints, the anchor piles are connected to the cruciform structure.

As parts of a cruciform design and anchor piles, pipes of the NKT brand are used - tubing steel pipes that are used in the operation of oil and gas wells. The tubing pipes are made of high-leakage, cold-resistant, corrosion-resistant, which makes it possible to use them in places with higher humidity.

Processing of metal structures with anti-corrosion compounds significantly increases the service life of this structure.

The foundation in the form of a central pipe and a cross-shaped design with additional pipe anchors at the ends of the cross gives stability to the support and prevents it from tipping over on poor soils.

The advantages of such a foundation:

1. The stability of the structure from tipping over (especially in flooded areas), a large area of the support.

2. The increased bearing ability.

3. Faster foundation assembly (1-2 days).

4. Lack of "wet processes" (concrete) and welding.

5. The increased service life of this design due to the use of tubing.

6. The possibility of building power lines at low temperatures.

7. Installation of supports with the use of small-scale mechanization by forces of 3-4 people of the enterprise servicing electric networks.

The inventive design has been successfully tested in the construction of power lines in PJSC TATNEFT, which confirms the industrial applicability of the utility model.

Claims (1)

The foundation of the power line support, consisting of a reinforced concrete support, reinforcing elements, pipe anchors, characterized in that it further comprises a central pipe-pile, in which a reinforced concrete support is inserted, a cross-shaped structure of pipes of smaller diameter, which is bolted through the support sheet to the main pipe-pile, to the ends of the cross-shaped structure by means of bolted connections fixed anchors-pipes buried in the ground.

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