RU186906U1 - MAST - Google Patents

Abstract

The utility model relates to construction, namely to masts that allow you to place any equipment at a considerable height, such as antennas or spotlights, which allows you to illuminate vast areas of energy, industrial or transport enterprises, sports facilities, various protected areas and the like. The model consists in increasing the stability of the mast by increasing the strength of the mast trunk in sections adjacent to the zones of attachment of stretch marks. The problem is solved until By completing the prototype design with stiffeners, with their location inside the hollow barrel, so as to create a rigid connection between the corners and the opposite sides of the Ryelo triangle, in sections adjacent to the attachment points of the stretch marks. One of the possible embodiments of the power element is a plate in the form of a Ryelo triangle with dimensions corresponding to the dimensions of the inner wall of the mast in the corresponding section of the wall. A hole may be provided in the plate for passing electric cables.

Description

The utility model relates to construction, namely to masts that allow you to place any equipment at a considerable height, such as antennas or spotlights, which allows you to illuminate vast areas of energy, industrial or transport enterprises, sports facilities, various protected areas and the like.

A mast is known (RF patent No. 2613694), selected as a prototype, consisting of a hollow barrel in the shape, a Röhlo triangle resting on a central foundation, and guy wires fixed in anchor foundations, in which guy rods are attached to the mast shaft in areas of the angles of the Röhlo triangle, moreover the mast shaft in the plan is set by one of the corners of the Ryelo triangle opposite the direction of the main wind rose vector. Compared to a hollow mast shaft with a circular cross-section, a hollow mast shaft with a Ryölo triangle cross-section has a large sum of perimeters (external plus internal), a large total surface of the mast trunk, which is essential for more efficient dispersion of surface mechanical and temperature stresses and increase crack resistance.

A disadvantage of the known mast is the low rigidity of the trunk in cross sections of stretch marks adjacent to the attachment points, in which the wind load, with significant trunk dimensions, creates tensile forces that straighten the curved contours of the Ryelo triangle. The triangle straightens, which leads to a weakening of the tension of the stretch marks and the appearance of backlash leading to an increase in the amplitude of the buildup, which in turn leads to the appearance of dynamic forces applied to the fastening zones of the stretch marks on the side of the stretch marks. Dynamic forces superior to static ones lead to a further deformation of the Roelot triangle and a further increase in the mast buildup amplitude.

The objective of the utility model is to increase the stability of the mast, by increasing the strength of the mast trunk in sections adjacent to the zones of attachment of stretch marks.

The problem is solved by supplementing the prototype design with stiffeners, with their location inside the hollow barrel, so as to create a rigid connection between the corners and the opposite sides of the Ryelo triangle, in sections adjacent to the attachment points of the stretch marks.

The problem was solved by creating a mast structure consisting of a hollow trunk with a cross-section in the form of a Röhlo triangle resting on a central foundation, and stretch marks fixed in anchor foundations attached to the mast shaft in the areas of the corners of the Röhlo triangle, installed in the plan by one of the corners of the Röhlo triangle opposite the direction of the main vector of the wind rose, additionally equipped with power elements located inside the trunk in the areas of attachment of stretch marks, so that the power elements are rigidly connected to every corner of the Ryelo triangle with its opposite side. The power element can be made, for example, in the form of a plate in the form of a Röhlo triangle with dimensions corresponding to the dimensions of the inner wall of the mast in the corresponding section of the wall. A hole may be provided in the plate for passing electric cables.

The technical result of the utility model is to increase the stability of the mast and the strength of the mast trunk in sections adjacent to the zones of attachment of the stretch marks.

The utility model is as follows. The mast trunk is, for example, all-welded. Separate sections of the mast shaft, for example, 6 m long, with elements of platforms, stairs and other elements are manufactured in the factory. The power element inside the mast shaft is also installed in the factory, for example by welding. The sections of the trunk are transported to the installation site in a finished form and welded together in a working position with a horizontal seam each time after lifting the next section of the mast shaft. It is possible to connect sections to each other with bolts. In the corner zones of the mast shaft, extensions are fixed, which are secured with the second end to the anchor foundations. The trunk of 1 mast, based on the foundation.

One of the corners of the mast-shaped mast trunk is set in the direction of the direction of the main wind rose vector established for the mast construction area.

The wind load, perceived by the mast, is transmitted to the stretch marks, which create tensile forces in the mast section, near the attachment zone of the stretch marks, compensated by a power element that rigidly connects each of the corners of the triangle with the opposite side and has greater strength than the hollow mast shaft. As a result, the mast section, near the zone of attachment of the extensions, retains its shape and design dimensions, the tension of the extensions does not weaken, which prevents the growth of the amplitude of oscillations and leaves no room for the growth of dynamic loads in the trunk from the extensions.

Claims (1)

A mast consisting of a hollow trunk with a cross-section in the shape of a Ryo triangle, supported by a central foundation, and stretch marks fixed in anchor foundations attached to the mast shaft in the areas of the corners of the Ryo triangle, installed in plan by one of the corners of the Ryo triangle opposite the direction of the main rose vector winds, characterized in that inside the trunk in the areas of attachment of stretch marks there are power elements that rigidly connect each corner of the Ryelo triangle with the opposite side.