RU2347048C1 - Three-dimensional tower-type truss structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention concerns three-dimensional bearing structure members in the form of a tower-type truss designed in particular for installation of various wireless, TV and radio antennas, and which can be also used for other high-rise industrial structures. The three-dimensional tower-type truss structure is made in the form of a regular truncated pyramid composed of the similar shaped sections of an equal height, which are formed by multiple elongated linear elements and multiple junctions, each composed of two subsystems so that the first subsystem of elongated linear elements forms the pyramid edges and the second subsystem of elongated linear elements, which have equal length within each section and are interconnected by their ends, forms continuous zigzag elements throughout the height of each face of the pyramid, whereby the first junction subsystem is made of Y-shaped plates regularly installed on each pyramid edge in the crossing points of three elongated linear elements, one of which forms a pyramid edge and two other ones form zigzag elements of the pyramid's adjacent faces in accordance with the principle of axial symmetry of the truss structure, which meets the condition of 360°/n, where n is the number of faces of three-dimensional truss.

EFFECT: increased bearing capacity per unit mass of the structure together with simplified method of installation and logistics.

6 cl, 11 dwg

Description

The invention relates to three-dimensional supporting structures in the form of a tower-type truss, designed, in particular, to accommodate various antennas for wireless communications, television and radio broadcasting, and which can also be used for other high-rise industrial buildings.

Trusses are widely used in structural mechanics, because they can carry a large load at low material costs. The widespread use of trusses in the field of civil engineering, the development of mechanical devices, as well as in space construction is accompanied by the search for effective structures of farms, based on the requirements of their operation. Farms satisfy such requirements as a relatively low cost, ease of production and assembly, as well as reduced useless materials.

It is well known that a truss is a geometrically unchanged rod structure, namely, a structure consisting of rectilinear rods, while nodal joints are conventionally assumed to be articulated. The nodes of the farm, although they are considered hinged, in fact, have one or another degree of rigidity. Since the rods work better in compression-tension, the load on the truss should be applied in the connection node. When designing a farm, as a rule, a nodal application of external load is provided. The assumptions on the articulation of nodes and the nodal load application allow to take into account when calculating the truss only axial longitudinal forces in the rods, while uniformly distributed stresses arise in the cross sections of the rods, allowing the most efficient use of the material. The forces in the rods of statically definable flat trusses are determined from the equations of statics, three-dimensional trusses - as a rule, by breaking up into flat trusses. Limiting the analysis of truss design to two directions simplifies the process of constructing a truss, but does not take into account complex loads that require the use of three-dimensional analysis of the system.

An analysis of patent and scientific and technical documentation shows that for a long time three-dimensional trusses are used in the form of a truncated pyramid, consisting of so-called belts located along the edges of the pyramid, and rectilinear rods, the so-called braces, located between the belts in the plane of the faces of the pyramid (see, e.g. WO 98/45556; US 5651228; RU 2165505). Rectilinear rods are usually arranged in a certain sequence, which is characterized by a repetition of the lattice configuration with a certain interval along the height of the truss.

Patent RU 2101444 discloses a tower-type antenna support structure comprising a lower pyramidal part and an upper prismatic sectional part with the possibility of building it up and with belts and braces connected to each other in the interface nodes. Connecting adjacent sectional parts of the support are made of variable cross section with an increase to the top of the tower.

It is known that with a modular breakdown of the pyramidal tower, its belts have the same length, but the angles of approach of the braces in each panel are different, and there are no prerequisites for the unification of nodal joints. In towers with geometrically similar panels, the angles of inclination of the braces are the same, which makes it possible to unify the sections of the tower, however, the lengths of the elements in each section are different.

From patent RU 2052055 a three-dimensional truss sectional structure of a tower is known, formed by vertical and side rods of pipes of the same diameter. A method of manufacturing and mounting a known truss designed to accommodate radio television antennas involves the creation of an outer and inner waist net with cells identical over the entire height. A disadvantage of the known tower design is the high material consumption, since the reliability of the farm is ensured by the introduction of duplicate elements. In addition, lateral rods that do not absorb the weight of the structure and provide only a connection between the vertical rods, can have a smaller diameter compared to vertical rods.

RU 2178050 discloses a method for manufacturing and installing a lattice metal tower, including forming in the ground at the installation site of the tower its foundation with anchor posts, pre-fabricating individual sections of the tower with support posts and side tie rods, subsequent transportation of the sections to the tower mounting site and its implementation assembly by bolting the lower section of the tower to the anchor racks of the foundation.

The three-dimensional truss structure of the tower type, disclosed in patent RU 2165505, is made in the form of a regular truncated pyramid, consisting of sections similar to it in shape, formed by many elongated rectilinear elements and mating nodes. In a known construction, a panel having the same lengths of belts as in the bottom panel of a similar pair is adjacent to a pair of adjacent geometrically similar panels from below, and a panel having the same lengths of belts as in the top panel of a similar pair is on top.

In the known structures of the truss tower, there is a redundancy in the use of the material of the structural elements, as well as the complexity of the logistics.

In the framework of this application, the task of developing such a three-dimensional truss structure of a tower type, suitable, in particular, for installing antenna devices, which has an increased load-bearing capacity of the truss structure per unit mass of the structure while simplifying the method of its assembly, is solved. The problem of reducing material costs and time in the manufacture of the truss structure and simplifying logistics is also being solved. There is a need to gain the required tower height using sections of the same type that are joined together, so that any section has the ability to be support.

The problem is solved according to the invention in that the three-dimensional truss structure of the tower type is made in the form of a regular truncated pyramid, consisting of sections of the same height similar in shape to it, formed by many elongated rectilinear elements and many mating nodes, each of which consists of two subsystems, so the first subsystem of elongated rectilinear elements forms the edges of the pyramid, and the second subsystem of elongated rectilinear elements having an equal length within each section and interconnected by their ends, forms zigzag elements continuous in height along each side of the pyramid, with the first subsystem of the interface nodes made in the form of Y-shaped plates periodically located on each edge of the pyramid at the intersection of three elongated rectilinear elements, one of which forms the edge of the pyramid, and the other two form zigzag elements of its neighboring faces, observing the principle of axial symmetry of the truss structure, satisfying the condition 360 ° / n, where n is the number of faces of three Noah farm.

In addition, the elongated rectilinear elements of the first subsystem, forming the ribs of the sections, are made of metal pipes, both ends of which are equipped with flange joints forming the interface nodes of the second subsystem.

In a preferred embodiment, the elongated rectilinear elements of the second subsystem forming zigzag elements are made of metal pipes, both ends of which are flattened by pressure and provided with at least one hole. In this case, the two ends of the Y-shaped plates of the first subsystem of the truss structure interface nodes are provided with at least one hole.

It is advisable that the zigzag elements of the lower sections of the truss structure, consisting of three elongated rectilinear elements, have a configuration in the plane of each face with a repetition period equal to the double height of the section.

In addition, in the upper part, the three-dimensional truss structure of the tower type is additionally provided with at least one truss section having the shape of a prism.

The invention is illustrated by graphic material, including the following drawings:

figure 1 is a General view of a preferred embodiment of a three-dimensional truss structure of the tower in isometry,

figure 2 is a front view of a preferred embodiment of a three-dimensional truss structure of a tower,

figure 3 is a view of a section of a three-dimensional truss structure having three elongated rectilinear elements on each of its faces,

4 is a view of the edge of the section with a zigzag element formed by elongated rectilinear elements,

5 is a transverse section aa of the three-dimensional truss structure of the tower at the connection level of the sections,

6 is a view of the interface node of three elongated rectilinear elements,

Fig.7 is a section bB of the interface node of three elongated rectilinear elements,

Fig.8 is a view of a Y-shaped plate,

Fig.9 is a view of the embedded parts for connecting the foundation and the three-dimensional truss structure of the tower,

figure 10 is a view of the supporting flange of the embedded parts,

11 is a view of the anchor plate embedded parts.

To disclose the invention, the following notation is introduced in the drawings: 1 — elongated rectilinear elements forming the ribs of a three-dimensional truss structure; 2 - elongated rectilinear truss elements forming zigzag elements; 3 - Y-shaped plate; 4 - flange embedded parts of the foundation of a three-dimensional farm; 5 - rack embedded parts of the foundation of a three-dimensional farm; 6 - anchor plate of the embedded parts of the foundation.

As shown in FIG. 1, the structure of a three-dimensional tower-type truss in the form of a truncated regular pyramid compositionally consists of many elongated rectilinear elements 1 and 2, interconnected in each section of the truss by means of interface nodes in the form of Y-shaped plates 3 (see FIG. .8) located with a certain periodicity along the vertical axis of the truss and in compliance with the principle of axial symmetry of the truss structure satisfying the condition 360 ° / n, where n is the number of faces of the three-dimensional truss. The interface node of each section of the farm is located where three elongated rectilinear elements intersect, one of which forms the edge of the farm, and the other two form zigzag elements on its face (see figure 3). Thus, using the interface node in the form of Y-shaped plates 3 are interconnected three elongated rectilinear elements of the spatial truss. All sections of the farm have the same height L (see figure 2) and within each section the same size L _{1 of} elongated rectilinear elements 2, forming a zigzag element (see figure 4). Moreover, the elongated rectilinear elements 1 and 2 of the lower sections, forming respectively the edges of the truss and zigzag elements, are larger than the dimensions of their corresponding rectilinear elements of the upper sections with the formation of a pyramidal shape of the structure. The zigzag elements of each face of the three-dimensional truss structure, made in the form of a regular truncated pyramid, have a similar periodic configuration, but they are only rotated relative to each other around the vertical axis of the truss by an angle of 360 ° / n, where n is the number of faces of the pyramid.

All rectilinear elements of a three-dimensional truss are made of pipes, and the rectilinear elements 1 forming the edges of the truss are provided with flange joints at the ends (see Fig. 5). The use of pipes in the manufacture of truss sections provides structural integrity, the required rigidity and stability. In order to protect the material of the pipes of the elongated rectilinear elements, the pipes may be coated with a protective layer.

Assembling a three-dimensional shaped structure in the form of a pyramidal tower of this design is as follows. The base of the Y-shaped plates 3 is welded to the elongated rectilinear elements 1 forming the edges of the truss sections made of metal pipes, both ends of which are provided with flange joints. After that, to the other two ends of the Y-shaped plates 3 through the openings on them are fastened with bolted joints elongated rectilinear rods 2 having within each section the same length L ₁ and made of metal pipes with tapered ends (see Fig.6) which form a continuous zigzag section element (see FIG. 3). Then connect the ribs of one section (see figure 4). After that, the truss sections are connected to each other (see Fig. 3) due to the bolt flange connections of the elongated rectilinear elements 1, forming the edges of the pyramid, with the formation of a three-dimensional truss structure, which is connected through the flange of the rib of the lower section to the flange 4 of the foundation embedded part ( Fig. 8). Joining the sections with each other can be done in their vertical or horizontal position with the centering of the sections relative to the vertical axis of the pyramidal tower.

The ability to change the height of the tower using a set of sections of the same type is achieved by the fact that each edge of the lower section of the tower is supported by a embedded foundation element having a flange connection that allows it to be connected to the rib flange, as well as the rack 5 of the embedded part and the anchor plate 6, while any section has the ability to be support. The system of elongated rectilinear elements, their relationship with the help of the mating nodes and the relative position according to the invention increase the bearing capacity of the tower-type truss per unit mass of the structure.

The invention can be used in the manufacture of tower tower antenna supports, as well as for other truss structures with other end use. The invention provides for the manufacture of uniform shaped sections of the same height, the structure of which reduces the metal consumption of the target product, characterized by optimal strength characteristics, and also allows to simplify the logistics. This leads to a number of commercial advantages, including reducing the complexity of manufacturing and installing the truss with the ability to adjust the height of the tower.

Claims (6)

1. The three-dimensional truss structure of the tower type, made in the form of a regular truncated pyramid, consisting of sections of the same height similar in shape to it, formed by many elongated rectilinear elements and many mating nodes, each of which consists of two subsystems, so that the first subsystem of elongated rectilinear elements forms the edges of the pyramid, and the second subsystem of elongated rectilinear elements having an equal length within each section and interconnected by their ends, forms on to Each face has zigzag elements that are continuous in height of the pyramid, while the first subsystem of the interface nodes is made in the form of Y-shaped plates periodically located on each edge of the pyramid at the intersection of three elongated rectilinear elements, one of which forms the edge of the pyramid, and the other two form zigzag elements of its neighboring faces in compliance with the principle of axial symmetry of the truss structure satisfying the condition 360 ° / n, where n is the number of faces of the three-dimensional truss. 2. The device according to claim 1, characterized in that the elongated rectilinear elements of the first subsystem, forming the ribs of the sections, are made of metal pipes, both ends of which are equipped with flange joints forming the interface nodes of the second subsystem. 3. The device according to claim 1, characterized in that the elongated rectilinear elements of the second subsystem, forming zigzag elements, are made of metal pipes, both ends of which are flattened by pressure and provided with at least one hole. 4. The device according to claim 1, characterized in that the two ends of the Y-shaped plates are provided with at least one hole. 5. The device according to claim 1, characterized in that the zigzag elements of the lower sections of the truss, consisting of three elongated rectilinear elements, have a configuration in the plane of each face with a repetition period equal to the double height of the section. 6. The device according to claim 1, characterized in that in the upper part it is additionally equipped with at least one truss section having the shape of a prism.

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