RU86970U1 - LONG-LARGE STEEL STAND WITH ADDITIONAL HORIZONTAL SPACES - Google Patents

Abstract

A long steel rack containing, at least at a part of its height, sections sequentially interconnected 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 plan and a lower base, which are the section bearing belts interconnected at the corners by beams that are interconnected on the side of each side of the section by braces to form a lattice, characterized in that each section in which configured finish tilt struts at 30 ° half-step of the lattice more than 0.6 m, further provided with a horizontally directed struts fixed between every two adjacent struts disposed on the side of at least one face of the section.

Description

The utility model relates to the field of construction of vertical support pillars of power lines (power lines).

Known support section for the rack, which is a spatial truss structure in the form of a parallelepiped having a rectangular shape in plan upper and lower bases, which are the bearing sections of the section, interconnected at the corners of the beams, which are interconnected on the side of each side of the section by braces or straps between braces (RU No. 2222488, В66С 23/62, ЕВВ 1/58, Е04Н 12/00, publ. 2004.01.27). This decision was made as a prototype for the claimed object.

With an increase in the voltage class of power lines, the spatial volume of the truss rack increases. It does not present a problem to develop a support strut that can withstand the corresponding loads, however, the problem remains in the delivery of sections of such a truss to the installation site on the foundation of the support.

Long racks, in particular, racks of lattice steel supports for overhead power lines (VL), consist of bearing belts and braces. The main task in the development of such racks is to reduce their metal consumption, because metal consumption determines the cost of racks. This forces developers to increase the angle of inclination of the braces and the half-step of the grille in order to reduce their number in the rack. According to regulatory documents, the installation and maintenance personnel of electric grid enterprises to the overhead line support racks are allowed for an angle of inclination of the braces of no more than 30 degrees or a half-step of the grille of no more than 0.6 m. For most of the overhead lines of support poles, the value of the angle of the braces is about 45 degrees, and the half-step gratings - 1 m or more. Thus, for most of the poles of overhead lines, the lifting of personnel to the poles is prohibited without the use of special lifting equipment. The use of special lifting equipment significantly increases the cost and increases the time required to perform horse inspection of overhead lines, installation and repair work, and in hard-to-reach areas, accessing such equipment to overhead lines is extremely difficult, and sometimes simply impossible.

This utility model is aimed at solving the technical problem of reducing the metal consumption of the rack by increasing the angle of inclination of the braces and providing the possibility of lifting personnel on the elements of such a lattice.

The technical result achieved in this case is to improve operational performance by making it possible for the installation and maintenance personnel to climb the overhead poles, in which the angle of inclination of the braces is more than 30 degrees with a half-step of the grating of more than 0.6 m and a decrease in the metal consumption of the rack.

The specified technical result is achieved in that in a long steel rack containing at least parts of its height sections that are sequentially interconnected in the vertical direction, each of which is made in the form of a spatial truss structure in the form of a parallelepiped having a rectangular upper and lower plan bases, which are section bearing belts, interconnected at the corners by beams, which are interconnected on the side of each side of the section by braces to form solutions nets, each section in which the angle of inclination of the braces is more than 30 degrees with a half-step of the grille of more than 0.6 m is equipped with additional horizontal struts fixed between each two adjacent braces on the side of at least one face of the section.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

Figure 1 is a General view of a fragment of the face of the support section.

The utility model considers a long-length steel power transmission tower, which can be made as a whole team or a team of assembled individual sections. The present utility model is considered as an example of a separate section.

The support section (figure 1) in the assembled form is a spatial truss structure in the form of a parallelepiped having a rectangular shape in plan upper 1 and lower 2 bases, which are the bearing sections, which are interconnected at the corners of the beams 3. These beams are interconnected on the side of each face of the section, inclined (inclined) braces 4, representing strips or profiles of a given length, the angle α of which (braces 4) is made more than 30 degrees with a half-step h of the grill more than 0.6 m. horizontal horizontal struts 5 (horizontally directed) are fixed between each two adjacent adjacent inclined braces 4 on the side of at least one face of the section.

The introduction of additional spacers 5 halves reduces the half-step of the grill (Fig. 1) and provides the possibility of lifting the installation and maintenance personnel on the pillars of the overhead lines.

In the prefabricated version, the spatial truss structure is made in the form of two flat all-welded steel frames, which are opposite sides of the section. Each frame consists of two load-bearing belts, the upper and lower, respectively, connected at the edges by beams. Beams in each frame are also interconnected by braces or planks welded to the beams or bolted to them. Thus, each frame is a separate element of a rectangular shape in plan.

In addition, the beams are made either with holes on the other side, or with welded on plates, which are also made with holes and to which are attached brackets or straps 8, supplied as a separate set, made with holes at the edges for bolting to the frame beams bearing belts.

Braces or planks can be attached to a common separate frame, which has a rectangular shape and which is then attached (when assembling the section) to the beams using the same holes in the beams or in the welded overlays. Since the number of braces on each side (face) of the section is increased, it becomes possible to reduce the cross-section of the profiles of the braces, as well as to reduce the cross-section of the beam profile.

The proposed section can be made of prefabricated frames. The assembly of flat all-welded frames into a three-dimensional quadrangular cross-sectional structure is carried out by bolting two indicated flat frames to each other with the indicated slats or braces or attaching a separate frame with braces or brackets. Since all-welded steel frames with all the connecting holes and a set of braces or strips with counter holes are made in the factory with control of the connection points, during installation the spatial position of all elements is maintained both in terms of parallelism of the faces and in alignment of the support as a whole.

The upper and lower zones and beams of all-welded frames, a separate frame are made of, for example, a corner steel profile. Braces or strips can be made in the form of steel strips, segments of steel pipes with tapered ends or from a steel corner.

The use of such a section allows even very large-sized sections to be transported to places where special vehicles cannot reach, while increasing operational efficiency by reducing the complexity of transporting and mounting the section at the installation site of the support truss, reducing transportation costs and facilitating the installation of large sections.

This utility model is industrially applicable, as it can be manufactured using technologies commonly used in the manufacture of support sections.

Claims (1)

A long steel rack containing, at least at a part of its height, sections sequentially interconnected 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 plan and a lower base, which are the section bearing belts interconnected at the corners by beams that are interconnected on the side of each side of the section by braces to form a lattice, characterized in that each section in which configured finish tilt struts at 30 ° half-step of the lattice more than 0.6 m, further provided with a horizontally directed struts fixed between every two adjacent struts disposed on the side of at least one face of the section.