SU554389A1 - Towers - Google Patents

Claims (2)

The invention relates to the field of construction, in particular, to free-standing mesh metal towers m. The mesh towers are known, including, and mutually intersecting hard, straight lines and curvilinear rods that form the surface of the rotation of the w / w / i1. its considerable weight, windage due to the large number of rods of a large profile with low aerodynamic indices forming the tower’s trunk, as well as the complexity of installation without additional devices lifts for lifting the tower personnel. The closest technical solution to the present invention is the tower, which includes a central rod, cross-prestressed rods, forming a lateral mesh surface and stiffening rings located in rusami. The purpose of the invention is to reduce the metal intensity of the tower. The goal is achieved by the fact that the central rod is connected to each ring of stiffness by flexible radial connections. FIG. 1 shows a sectional tower; in fig. 2 is a view A of FIG. one; in fig. 3 and 4 sections in BB and f; 1. The tower includes a central rigid rod 1, stiffening rings 2, located in rusa and connected to the central rod by flexible radial connections 3, tensioned with prestressing, and cross rods 4, forming a lateral mesh surface. The cross bars are evenly distributed around the circumference and made prestressed. In the upper part of the tower, the rods are attached to the platform 5, in the lower part - to the ring foundation 6. At intermediate points, the rods are attached to the stiffening rings 2. At various elevations of the tower, where required by the conditions of the structure, the flexible radial connections 3 with rings l; strengths 2 can be replaced by solid solid intermediate platforms 7. The tower works as follows. The central pivot of the tower receives all vertical loads (the weight of the tower, the useful operational load, as well as the prestressing forces of the non-rectified rods). The central rod connecting points by horizontal connections with rigid or mesh-enclosed areas divide the central rod into separate sections, as a result of which the free length of the center sterl decreases accordingly, and its work on the longitudinal profile is improved. At the same time, the local stability of the lateral retina, raggedly fixed to the central shaft, increases. Lateral mesh shell perceives mainly wind loads acting on the tower. The rods are made of high-strength steel of circular cross-section, they are assembled with a preliminary stress, therefore, they do not work for longitudinal ipib, as a result of which the cross section of the rods is smaller than the cross section of unstressed shells of an ordinary tower. Accordingly, the metal intensity of the tower and the wind load on it is reduced, which is also facilitated by the fact that the rods have a circular cross section. The central rod, which is the supporting element, can be used as an elevator shaft, which is necessary for lifting the attendants to the tower. At individual elevations of the tower, flexible radial connections with stiffening rings adjacent to them are replaced with complete intermediate platforms (for placing antennas and an indoor installation aerial, as well as for using them as observation platforms). Claims of the Invention A tower comprising a central core, cross pre-stressed cores forming a side mesh surface and stiffness rings arranged in rusa, characterized in that, in order to reduce the metal intensity, the central rod is connected to each stiffness ring by flexible radial wm. Sources of information taken into account in the examination: 1.Sokolov A. G. “Gear line supports. Calculation and design, Gosstroyizdat, M., 1961, p. 76-77. 2. "Mesh bashn with a central core supporting the shell for use as a framework for the cooling towers of thermal power plants, the project TsNIIitsproekt stalkonstruktsii, arch. No. 60391-T, M., 1967.