RU52055U1 - TOWER CONSTRUCTION - Google Patents

Abstract

The alleged invention relates to the field of structures of tower structures. The most common species. tower structures are made in the form of pyramids. Each face of the pyramid is a flat multi-tiered lattice structure consisting of belts, ties between the belts (struts, braces), as well as a multi-tiered system of horizontal transverse connections (diaphragms). For example: Trihedral radio tower 202 m high. See: “Metal structures”. Posted by: prof. Streletsky N.S., 1961, page 110, Fig. XXIII. This design has a number of significant drawbacks: 1. The high complexity in manufacturing. The constructive variety of elements and connection nodes of the elements leads to a rise in price and lengthening the production time. 2. The technology for erecting such a tower structure is complex and requires, in each case, a particular type of mounting mechanism, depending on the accepted mounting method. For example: a self-elevating crane, a mounting boom on braces, a ground crane, a special rotary chevron with rigging equipment (ropes, blocks, winches, anchors) or a special weighted structural solution of the tower with rigging for mounting by the growing method. To address these shortcomings, a new tower design is proposed, which is a multi-tiered system of prisms, the geometric dimensions of the cross sections that are reduced to the apex, and each face of the prism is a flat multi-layer lattice structure consisting of the same rod elements: racks, struts, braces, forming The cross section of the tower is a closed farm. The transition from one geometric section to another is carried out due to the same typical elements. The installation of such towers is carried out manually by individual elements in tiers, using the assembled tier below to assemble the overlying one. Advantages: 1. Uniformity and constructive simplicity significantly reduces the cost of their manufacture. 2. For the construction of the building does not require mounting mechanisms. 3. Transportation in special containers ensures the efficient use of vehicles and, thus, reduces transportation costs. The tower structure, which includes a supporting frame, consisting of compressed-stretched rod elements, is characterized in that for the purpose of its design universality, as well as its assembly without the use of mounting mechanisms, it is made in the form of a multi-tiered prism system, the geometric dimensions of the cross section of each tier to the top are reduced, each face of the prisms is a flat multi-layered spatial structure, consisting of the same rod elements, forming closed trusses in the cross section of the tower.

Description

The proposed image relates to the field of tower structures.

The most common types of tower structures are made in the form of pyramids. Each face of the pyramid is a flat multi-tiered lattice structure consisting of belts, ties between the belts (struts, braces), as well as a multi-tiered system of horizontal transverse connections (diaphragms).

For example:

Three-sided radio tower 202 m high. See: “Metal structures”. Author: prof. Streletsky N.S. 1961, page 110, fig. XXIII.

This design has a number of significant disadvantages:

1. The great complexity in manufacturing. The constructive variety of elements and connection nodes of the elements leads to a rise in price and lengthening the production time.

2. The technology for erecting such a tower structure is complex and requires, in each case, a particular type of mounting mechanism, depending on the accepted mounting method.

For example: a self-elevating crane, a mounting boom on braces, a ground crane, a special rotary chevron with rigging equipment (ropes, blocks, winches, anchors) or a special weighted structural solution of the tower with rigging for mounting by the growing method.

To address these shortcomings, a new tower design is proposed, which is a multi-tiered system of prisms 1, the geometric dimensions of the cross sections of which are reduced to the top, and each face of prism 1 is a flat multilayer lattice structure consisting of the same rod elements: posts 2, struts 3, braces 4, forming closed farms in the cross section of the tower 5. The transition from one geometric section to another is carried out due to the same typical elements 2; 3; four.

The installation of such towers is carried out manually by individual elements 2; 3; 4 tier, using the assembled tier below to assemble the overlying one.

Benefits:

1. The uniformity and constructive simplicity significantly reduces the cost of their manufacture.

2. For the construction of the building does not require mounting mechanisms.

3. Transportation in special containers ensures the efficient use of vehicles and, thus, reduces transportation costs.

The drawing shows:

a) General views and sections of two towers of different heights, consisting of a multi-tiered system of prisms 1, made of the same elements 2; 3; four.

b) Cross sections of the tower are closed trusses 5 and consisting of the same elements of the same type 2; 3; four)

c) A flat fragment of the head frame (node I).

Claims (1)

The tower structure, which includes a supporting frame, consisting of compressed-stretched rod elements, characterized in that, for the purpose of its design universality, as well as its assembly without the use of mounting mechanisms, it is made in the form of a multi-tiered prism system, the geometric dimensions of the cross section of each tier to the top are reduced, each face of the prisms is a flat multilayer spatial structure consisting of the same type of core elements forming closed cross-sections in the tower cross section s.