RU2223582C2 - Vertical monopole - Google Patents

Abstract

FIELD: vertical monopoles. SUBSTANCE: proposed vertical monopole is built of two parts: bottom foundation pole and top pole, both being braced together by means of additional bracket coupled on one end with bottom pole and on other one, with top pole through clip. Provision is made for correcting vertical axis of monopole. EFFECT: enhanced reliability of permanently holding monopole in vertical position. 1 cl, 5 dwg

Description

 The invention relates to the field of overhead power lines, "Single vertical support."

 Well-known single vertical supports: monolithic wooden, wooden supports for increasing the service life, mounted on metal or reinforced concrete stepsons, connected with wire or bolt clamps.

The disadvantages of the above supports are:
- inherent in the process of operation random (in any direction around the circle) the deviation of the support from the vertical axis by an angle α from 0 to 6 ^o (deviation of a single vertical support at an angle of more than 6 ^o around the circumference is critical and leads to its complete destruction);
- the inability to eliminate such a deviation of the support is not otherwise than removing the support from the ground;
- erratic deviation of the support from the vertical axis at an angle from 0 to 6 ^o leads to over-calculated tension of the wires, up to the gap, and also grossly violates the architectural ensemble of telecommunication and power lines;
- the impossibility (lack of possibility) of eliminating the deviation other than by removing the support from the pound with the destruction of its foundation and, accordingly, many other communications.

The deviation of the support from the vertical can occur for a number of reasons:
- Departure from the technology of the Installation Rules;
- difficult terrain: mountainous areas with steep slopes, wetlands and sandy areas with weak soil connections.

The deviation of the support from the vertical axis by an angle α from 0 to 6 ^o , especially if it is a reinforced concrete support, the application of additional extra-calculated force to this support to return it to a strictly vertical position leads to the destruction of the support.

For example: at a height of H = 8 m, when the angle of deviation from the vertical axis of the support is α = 6 ^{o, the} distance between the top points z and z _{1 of} Fig. 1 along the chord will be 0.84 m (84 cm) - this is very large and dangerous destructive deviation.

The random deviation of the support from the vertical axis by an angle α from 0 to 6 ^o grossly violates the architectural ensemble of city streets and other settlements, as well as all kinds of power lines.

 The technical result of the "single vertical support" is to ensure that the strictly vertical position of the upper strut is constantly maintained from the moment of installation and throughout the entire life cycle by correcting its vertical axis.

 An analog of the claimed design is A. with. SU 741360 - a support of an overhead power line.

 The task in the "Single vertical support" is achieved by the fact that it consists of two parts: the lower - the base stand and the upper stand (wooden pole or asbestos-cement pipe), interconnected by means of a flange-bolt connection having a vertical axis corrector in the flange-bolt connection, an expansion bolt between the flanges, a bracket, the lower end through a flange-bolt connection connected to the lower rack, and the upper end of the bracket using two bolt clamps connected to the upper rack (wooden Post or asbestos cement pipe).

Using the corrector installed in the flange connection, the upper rack through the bracket is constantly adjusted for any angle of deviation of the support from the vertical axis in the range from 0 to 6 ^o , around the vertical axis at an angle of 360 ^o , this solution will eliminate the listed disadvantages:
- random (in any direction around the circumference) deviation from the vertical axis by an angle from 0 to 6 ^o ;
- when replacing the upper rack for wear or as a result of an accident, it is not necessary to remove the foundation rack from the ground, thereby destroying communications (electrical cables, etc.). The upper rack is replaced in a short time due to the shortened length, the upper rack can be made in a more improved, attractive, beautiful shape and color (avoiding the dirty gray gravestone of the same shape: hexagonal or tetrahedral);
- does not violate, but decorates the architectural ensemble of city streets and other settlements, telecommunication lines and power lines.

List of drawings
Figure 1 shows a well-known monolithic support, analogue;
in FIG. 2, the upper strut 1 is connected using two clamps to the lower strut 2, prototype;
3-5 show the declared support, upper strut 1, lower strut 2, bracket 3, axial corrector 4, bracket flange 5, flange of lower strut 6, bolt with nut connecting flanges 7 and 8, expansion bolt 9, clamp, connecting the upper rack with the foundation 10, 11, 12, a protective casing 13.

 Top rack 1 - monolithic wooden post (asbestos-cement pipe).

 The lower strut 2 has a flange 6 connected to the pipe and stiffeners with reinforced concrete part of the lower strut.

 The bracket 3 includes a flange 5, connecting to the lower rack 2.

Axial corrector 4 includes in the upper ring 1 lower ring 2, two rings connected to the block have a common correction angle of ≈6 ^o .

 The bolt 7 and nut 8 are designed to connect the flanges of the upper and lower racks, between which an axial corrector 4 is installed.

 Bolt 9 - expandable.

 Clamp 10 connects the upper rack to the bracket.

 Bolt 11 and nut 12 are used to connect the clamp to the bracket.

 The protective casing 13 consists of two half-cylinders connected and bolted.

 Installation and assembly of the support is as follows.

First: on the flange 6 of the lower rack 2, the suspension is fixed using bolts (Fig. 5) (hoisting-and-transport). The suspension of FIG. 5 is connected to the flange 6 of the lower strut 2 by bolts (made strictly aligned with the lower strut). Then the suspension in FIG. 5 with the bottom rack 2 is hung on the hook of the truck crane (lifting machine) and lowered by a truck crane into the prepared hole in the ground to the depth of the level mark established by the relay, at the same time, soil should be put into the hole to a small rack height ~ 0.5-0.8 m, tamp it, check the vertical position of the strut 2 with a plumb line built into the suspension frame of FIG. 5, checking it according to the installed rails along the axis of the support line, and when turning the frame with a plumb 90 ^° around the axis of the suspension strut, check the exact distance between the supports and the axis of the lower strut 2 vertically in cross section perpendicular to the axis of the support line. Then, the pit around the rack is covered with soil to the level of the earth's surface and rammed.

 Second: install corrector 4 on the flange 6 of the lower strut 2.

 Third: install the bracket 3 connected to the upper strut 1 onto the corrector 4 of the flange 6 of the lower strut 2 using a truck crane, connect the flanges 5 and 6 with bolts 7 and 8 to the nuts, perform a check correction of the vertical axis of the upper strut 1, check the vertical axis of it level and, if the axis of the upper rack 1 is strictly vertical, install the electrical wires.

Correction of the axis axis of the vertical strut 1
To eliminate random deviations from the vertical axis of the upper strut 1 at an angle of 1 ^o to 6 ^o , 360 ^o around the axis O ₁ -Z ₂ and return it to a strictly vertical position, it is necessary to gradually unscrew the nuts 8 on the bolts 7 connecting the flanges 5 and 6 At the same time, tighten and evenly raise the flange 5 of the upper strut 1 using the expansion bolts 9 until a free clearance (clearance) of ≈6-8 mm is created between the lower plane of the upper flange 5 and the upper plane of the corrector 4. Install the upper rack 1 in a strictly vertical position on the level. The gap created between the planes of the flange 5 and the corrector 4 will be uneven: on one side of the diameter of the ring, the height of the gap will be approximately 4 mm, and on the other, 8 mm. Then, moving around the circumference in any direction of each corrector ring, establish a uniform clearance of ≈6 mm. The movement of the rings separately and the corrector block is performed by two flat screwdrivers L≈l40-160 mm. According to the transverse notches applied to the outer surface of the corrector rings, the ring is held in place by one screwdriver in a static state, and the second screwdriver moves one ring or two rings together. After setting the uniform gap, the rings of the expansion bolts 9 are untwisted and the flange 5 of the upper rack 1 is gradually lowered. At the same time, the nuts 8 on the fastening bolts 7 are tightened until the flanges are fully connected to the corrector unit, then the vertical axis 1 of the upper rack is checked for verification according to the level, if the axis of the upper rack 1 is strictly vertical, then the correction is completed.

 The use of the bracket 3 for fixing the upper rack 1 with a flange-bolt connection (with corrector 4) for fixing the lower rack 2, in comparison with the manufacture of reinforced concrete timber with a size of 20 • 20 cm, l = 4 m, will increase the cost of the new construction of the support as a whole by 2 or more times.

 As a result of the introduction of the bracket with a flange-bolt assembly, the lower strut 2 is fastened to the bracket during simple replacement by wear of the upper strut 1 and more than once. The long-term operation of the lower rack 2 with the constant correction of the upper rack 1 will significantly increase the life of a single support as a whole, as well as improve the harmony of the architectural ensemble of the streets of settlements, power lines and telecommunications.

Claims (1)

A single vertical support, consisting of two racks located one above the other, the lower - foundation and upper racks connected by an additional bracket, characterized in that the racks are connected by means of a flange bolt equipped with a vertical axis corrector containing an upper and lower ring connected to a common unit with a correcting angle of ≈6 ° and an expanding bolt, connections, an additional bracket is connected at one end to the lower strut, and at the other end, with a clamp, to the upper strut.

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