RU2471947C1 - Support stand - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: support stand comprises at least one section comprising faces arranged in the form of welded flat trusses formed by belts and elements of a grid. Belts are made of an angle, faces are attached to each other with the help of fastening plates arranged on the outer side of belts of fastening plates; and belts attached to each other in adjacent faces form a composite belt, comprising an X-shape form in plan.

EFFECT: increased service life, higher resistance to vertical loads.

2 cl, 5 dwg

Description

The support stand relates to construction, namely to long-length bearing structures, and can be used in the construction of power lines, antenna radio supports and other supports.

Known "LONG-LENGTH STEEL STAND WITH ADDITIONAL HORIZONTAL STRUCTURES" according to patent RU 86970 of 05.21.2009, publ. 09/20/2009, IPC E04H 12/00, containing at least part of its height sections in series connected to each other in the vertical direction, each of which is made in the form of a spatial truss in the form of a parallelepiped having a rectangular upper and lower plan bases, which are bearing sections, interconnected at the corners of the beams, which are interconnected on the side of each side of the section by braces to form a lattice, characterized in that each section in which the angle of inclination p Askos made more than 30 ° with a half-step of the lattice more than 0.6 m, is equipped with additional horizontally directed spacers fixed between each two adjacent braces on the side of at least one face of the section.

The closest in technical essence is the “RACK SUPPORT OF THE ELECTRIC TRANSMISSION LINE” according to the patent RU 2330925 of 09.01.2007, publ. 08/10/2008, IPC E04H 12/08, made in the form of a spatial lattice structure, which consists of at least one section containing belts and lattices forming its faces, characterized in that the sections are assembled from welded flat trusses, the belts of adjacent welded flat trusses in the section are located with respect to their gratings so that the composite belt of the section formed by these belts has the shape of a rectangular pipe.

The presence of leaky closed cavities when making belts in the form of a rectangular pipe from two angles connected by bolts leads to intense corrosion of their internal surfaces and makes it impossible to restore the anti-corrosion coating during dismantling without dismantling the structure.

The connection of the belts of the adjacent faces of the section to the formation of a rectangular pipe using bolts passing through the shelves of the joined belts is technologically difficult, since it requires increased accuracy in the formation of holes in the belts to achieve their alignment. Violation of the alignment of the holes for the bolts, firstly, complicates the installation of bolts and, secondly, makes it possible to offset in the horizontal plane of the belts of adjacent planes relative to each other, which may require additional labor for reliable fixing of the joint of the belts, for example, welding them along the joint line . For the same reason, the node connecting the sections of the belts to each other is complicated.

The bolt connection of the belts of adjacent planes is not rigid due to the large distance between the elements connected by bolts. Therefore, with a vertical load on any plane of the section, it is possible to displace this plane relative to adjacent planes and, as a result of this, bend or breakage of the bolts connecting the belts.

When implementing projects involving the construction of support pillars in areas with different meteorological conditions, it becomes necessary to use various types of long structures with different resistance to wind and vertical loads. The size and configuration of the support racks may vary depending on the weight and composition of the equipment hung on the rack. One of the ways to increase the stability of the support column to wind and vertical loads is to increase the number of faces in the section.

When changing the number of faces in the section, the angle between these faces changes, for example, in the trihedral section of the support column, the angle between the faces is 120 °, in the tetrahedral 90 °, etc. Changing the angle between the faces in the section is realized either by changing the mounting of the faces between themselves, or by changing the design of the faces themselves, namely the position of the fasteners with respect to the plane of the face. In the prototype, the angle between the belt of faces and the elements of their lattices is fixed, which means that the composite belt will have the shape of a rectangular pipe, only subject to a certain angle specified in the design and production of the angle between the faces in the section. The arrangement of the belts described in the prototype relative to the faces containing them and the shape of the composite belts determines the number of faces in the section at the design and manufacturing stage of the faces, made in the form of welded flat trusses and which are the assembly elements of the support stand.

The objective of the proposed technical solution is to create a rack that is easy to install, with a variable number of faces in sections consisting of unified assembly elements, with an extended service life, good maintainability and increased resistance to vertical loads.

The problem is solved due to the support strut containing at least one section, in the form of a spatial lattice structure, including belts and lattice elements forming its faces, each belt being made from a corner, the shelves of which are turned with their inner planes to the elements containing its facets.

The execution of the section belts from the corner, the shelves of which with their internal planes are turned to the elements of the face containing it, eliminates the presence of leaky closed cavities in the composite racks of the rack. This arrangement of the belts and, as a consequence, the shape of the composite belts significantly increase the convenience of operation and maintenance of the support rack, reduce the corrosion rate of the belts and make it possible to restore the anti-corrosion coating during operation of the support rack without dismantling the structure.

This arrangement of the section belts allows you to apply various options for joining faces together. When using a bolted connection using mounting plates, a minimum distance between the elements of fastened bolts is achieved, which simplifies the execution of coaxial holes, the installation of bolts, facilitates the installation of a support stand and eliminates the possibility of displacement of the belts of adjacent faces relative to each other in a horizontal plane.

With this arrangement of belts, the distance between the elements connected by bolts is minimal, which ensures high rigidity of the connection of adjacent faces. This significantly reduces the possibility of displacement of the belts of adjacent faces relative to each other in the vertical plane and, as a result of this, avoids bending or breakage of fasteners, for example, bolts connecting adjacent belts. When using other methods of joining faces, the advantages of such a shape and such arrangement of belts are preserved.

If it is necessary to increase or decrease the number of faces in the support post, the proposed arrangement of belts allows you to vary the number of faces in sections of the support post from three or more when using the same unified assembly elements, namely faces, without changing their design.

The essence of the technical solution is illustrated by drawings, where in Fig. 1 is a support post, in Fig. 2 is a support post in parsing, Fig. 3 is a support post with four faces in a section in plan; figure 4 - support post with six faces in the section in the plan; 5 is a support stand with three faces in a section in the plan.

Figure 1, 2, 3, 4, 5 shows the support stand, where the support stand 1, section 2, face 3, composite belt 4, lattice elements 5, belt 6, shelf 7; mounting plates 8, holes 9, mounting elements 10.

The support stand is made as follows.

Support post 1 consists of at least one section 2, made in the form of a spatial lattice structure. Section 2 consists of at least three faces 3 made in the form of welded flat trusses, each of which consists of lattice elements 5 and belts 6 located along the edges of the faces 3. Belts 6 are made of a corner, shelves 7 of which are provided with their inner planes are turned to the elements of the lattice 5 of that face 3, which contains the given belt 6. The faces 3 are fastened to each other by any known method, for example, by bolting with the help of the fastening plates 8, holes 9 and fasteners 10 located on the outside of the belts. 10. Fastened between Belts 6 of adjacent faces 3 form a composite belt 4 having an X-shaped plan. The angle between the faces 3 in section 2, and therefore the number of faces 3 in section 2, is set by changing their connection, for example, by changing the bending angle of the mounting plates 8. The bending angle of the mounting plates 8 can be set directly at the installation site of the support column 1 or production. In the case of using fixing plates 8 for fastening the faces 3 to each other, one part of the fixing plate 8 is welded to the belt 6 of one of the abutting adjacent faces 3, namely to the outer plane of the flange 7 of the corner, and the other part of the fixing plate 8 is fastened through the holes 9 with fasteners 10 with a second abutting adjacent face 3.

The technical effect of the proposed technical solution is the creation of a support stand, easy to install, with a variable number of faces in sections consisting of unified assembly elements, with an extended service life, good maintainability and increased resistance to vertical loads due to the fact that each belt is made from a corner, whose shelves are turned with their inner planes to the elements of the face containing it.

Claims (2)

1. Supporting stand, comprising at least one section, consisting of faces made in the form of welded flat trusses, formed by belts and lattice elements, characterized in that the belts are made of a corner, the faces are fastened together using those located on the outside the belts of the mounting plates, and the belts of adjacent faces bonded to each other form a composite belt having an X-shaped plan. 2. The support stand according to claim 1, characterized in that one part of the mounting plate is welded to the belt of one of the joined adjacent faces to the outer plane of the belt shelf, and the other part is fastened through holes with a bolted connection to the second abutting adjacent face.

Images