RU2613693C2 - Barrel of television tower - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in construction of barrels of reinforced concrete television towers. Barrel of television tower of complex shape is made in form of combinations of reinforced concrete shells passing one into another with cross section in form of Reuleaux triangle. Wherein barrel of television tower is installed in plane with one angle of shells towards main vector of windrose.

EFFECT: higher stability, rigidity and degree of streamlining of wind air flows of structure of barrel of television tower.

1 cl, 3 dwg

Description

The invention relates to the construction and can be used in the construction of shafts of reinforced concrete radio television towers.

The well-known design of the barrel of a radio television reinforced concrete tower in the form of a pyramid (see Baykov V.N. and other reinforced concrete structures. Special course. M., Stroyizdat, 1981, pp. 504-506, Fig. IV.42, and).

The disadvantages of this design are relatively low stability and strength.

Of the known technical solutions closest to the claimed (prototypes) are the design of the trunks of radio television towers in the form of reinforced concrete shells, turning into one another, having cross sections in the form of a circle (see Baykov VN and other reinforced concrete structures. Special course. M ., Stroyizdat, 1981, pp. 503-505, Fig. IV.42, c, d).

The main disadvantages of the prototype structures are the relatively limited stability, rigidity and degree of streamlining of wind air currents.

The objective of the invention is to increase the stability, rigidity and degree of streamlining by wind air currents of the barrel structure of a radio television tower.

To solve this problem, in the barrel of a radio television tower of complex shape in the form of combinations of reinforced concrete shells, turning into one another, having cross sections in the form of a figure of constant width, the cross sections of the shells are made in the form of a Röhlo triangle, and the trunk of the radio television tower is installed in plan with one of the corners of the shells opposite the direction of the main wind rose vector.

The essence of the invention lies in the fact that the reinforced concrete shells of the trunk of the radio television tower have cross sections in the form of a Röhlo triangle, the barrel of the radio television tower being installed in plan with one of the corners of the shells opposite the direction of the main wind rose vector. Such a new feature as the implementation of the cross-sections of the shells of the barrel of the radio television tower in the form of a Röhlo triangle allows the proposed technical solution to acquire new properties, namely, that the outer side surface and the inner surface of the reinforced concrete barrel of the radio and television tower increase, as well as the strength of the barrel of the radio and television tower increases . The second feature, such as the installation of the trunk of a radio television tower with one of the corners of the shells opposite the direction of the main vector of the wind rose, allows us to achieve a new property, which consists in a noticeable decrease in the resistance of the structures of the barrel of the radio television tower to the movement of wind air currents.

The above new features and properties are absent in the known technical solutions and allow the proposed technical solution to achieve the effects of increasing the stability, stiffness and degree of streamlining of the barrel structure of a television tower by wind air currents. All this allows us to argue that the proposed technical solution meets the criteria of the invention of "novelty" and "significant difference".

In FIG. 1 shows a trunk of a radio television tower, side view;

In FIG. 2 shows section AA in FIG. one;

In FIG. 3 shows a section BB in FIG. one.

The trunk of the radio television tower consists of an upper reinforced concrete shell 1, having the same height in height, which goes into a lower reinforced concrete shell 2 expanding towards the bottom. A diaphragm of rigidity 3 can be installed at the boundary of the transition of the shell 1 to the shell 2. An antenna 4 is installed at the top of the tower.

Cross sections of the reinforced concrete shells of towers 1 and 2, erected in a monolithic way using interchangeable inventory and sliding formwork, are made in the form of a Ryelo figure.

The Ryelo triangle is a figure of constant width formed by the intersection of three arcs of radius a , the centers of which are at the vertices of an equilateral triangle with side a .

The circle has the same width in any direction - it is equal to the diameter of the circle. The figures with a constant width also include the Ryo triangle.

. Следовательно, при равных площадях треугольник Рёло имеет большую ширину по сравнению с кругом. По сравнению со стволом радиотелевизионной башни с круглыми поперечными сечениями оболочек, ствол радиотелевизионной башни с поперечными сечениями оболочек в виде треугольника Рёло имеет больший суммарный периметр (внешний плюс внутренний), а следовательно, большую суммарную поверхность, что имеет существенное значение для более эффективного рассеивания поверхностных механических и температурных напряжений, и повышения трещиностойкости.Of all the figures of a given constant width, the Ryelo triangle has the smallest area. If its width is equal to a , then its area is equal to

. Therefore, with equal areas, the Ryelo triangle has a larger width compared to the circle. Compared to the barrel of a radio television tower with circular cross-sections of shells, the barrel of a radio television tower with circular cross-sections of shells in the form of a Röhlo triangle has a larger total perimeter (external plus internal), and therefore a large total surface, which is essential for more efficient dispersion of surface mechanical and temperature stresses, and increase crack resistance.

The surface (external plus internal) of the trunk of a radio television tower with cross sections of shells in the form of a Röhlo triangle, compared with the trunk of a radio television tower with sections of shells in the shape of a circle, increases by more than 5%.

The Ryelo triangle, in comparison with a circle of the same area, has a 5% diameter in all directions passing through the center of gravity of the figure, with the exception of several directions where they are equal. Consequently, the stiffness of the cross-section of the shells of the barrel of the radio television tower, made in the form of a Röhlo triangle, increases.

If a reinforced concrete diaphragm of rigidity 3 is installed at the boundary of the transition of the shell 1 to the shell 2, then it is executed in plan in the form of a Ryelo figure. This also leads to an increase in the strength characteristics of the barrel design of the radio television tower.

The angles at the vertices of the Ryelo triangle are 120 °, which is more than 30% less than the angle formed by tangent intersecting lines where a circle can fit. Naturally, the streamlining of the trunk of a relay-shaped radio television tower, when installing it with one of the angles opposite the wind air flow, will be noticeably better than the streamlining of the barrel of a round radio television tower. Therefore, wind loads on the barrel of the radio television tower of the proposed design are reduced.

The technical and economic effectiveness of the proposed technical solution, compared with the prototype, is to increase the stability, rigidity and degree of streamlining of the barrel structure of a radio television tower by wind air currents.

Claims (1)

The barrel of a radio-television tower of complex shape in the form of combinations of reinforced concrete shells, turning into one another, having cross sections in the form of a figure of constant width, characterized in that the cross-sections of the shells are made in the form of a Röhlo triangle, and the trunk of the radio television tower is installed in plan with one of the corners of the shells opposite directions of the main wind rose vector.