RU2158814C1 - Supporting structure - Google Patents

Abstract

FIELD: construction engineering; erection of power transmission and communication lines, ropeways, and the like. SUBSTANCE: supporting structure used, for example, to support repeaters, advertising boards, beacons, windmill-electric generating plants, especially those mounted in difficult locations has sections with through vertical channels mounted one on top of other and accommodating prestressed links placed throughout its height. Sections are hollow structures with their external walls made in the form of first and second order curve and provided with sidewalls on end surfaces. Bottom sidewall of lower section and top one of upper section of supporting structure have flanges with ends of links secured in them; upper end of each link is placed closer to longitudinal part of supporting structure then lower end of this link. Sections are built of separate vertical hollow members braced together by bands and mounted over section perimeter. Link may be installed in each member of section or in some of its parts. Links may be tilted through certain angle to longitudinal axis of supporting structure and arranged in different plains; tilting angles of links are symmetrical to center line of supporting structure. On outer surface of external walls sections may be round, elliptical, triangular, polygonal in cross-sectional area or their cross-section may be in the form or any of these figures with ribs uniformly projecting over perimeter. EFFECT: enlarged functional capabilities. 15 cl, 10 dwg

Description

 The invention relates to the field of construction and can be used in the construction of poles for various purposes: for power supply and communication lines, cable cars, repeaters, billboards, etc., especially in hard-to-reach areas.

 Known support, acting as a truss rod, containing a rod with diaphragms and connecting diaphragm thrust placed in parallel and symmetrically around the rod. The rod is made up of composite elements, stacked in height with each other and equipped with additional diaphragms installed between the elements, and on each additional diaphragm the ends of the rods connecting adjacent elements are fixed (USSR AS 675152 from 1970 MKI E 04 C 3 / 36).

 Also known is a composite support made of cylindrical hollow sections of the same diameter mounted on top of one another, vertical through channels are made in the walls of which. After the sections are mounted or during their installation, vertical rods are passed through the channels, the ends of which are fixed on shells mounted either at the ends of the upper and lower sections or in the body of these sections (Germany OS 2344747 from 1975 MKI E 04 H 12/12) .

 The closest analogue adopted for the prototype of the claimed invention is a support structure made of cylindrical elements mounted on top of one another, provided with vertical channels and cavities. The cylindrical elements have different diameters: the lower element has the largest diameter, the upper element has the smallest diameter, and the diameters of the elements decrease in height of the support. Vertical channels have the same diameters, however, the distance from the longitudinal axis of the element to the axis of the channels from the element to the element decreases along the height of the support, which allows the rods passed from top to bottom of the support through these elements not to touch their walls (PCT application WO 86/02689 from 1986 MKI E 04 H 12/12).

 The above analogues require an increase in the longitudinal stability of the structure, and in the case of the prototype, increased accuracy of the installation of elements is required.

 The objective of the invention is to create a prefabricated support with good transportability, ease of installation and high longitudinal stability.

 This problem is solved in that the support comprises sections mounted on top of each other with vertical through channels in which pre-tensioned rods are located over the entire height of the support. The sections are hollow, and the outer walls of the sections have the shape of a curve of the first or second order and are equipped with shells at the ends. The lower shell of the lower section and the upper shell of the upper section of the support have flanges at the ends in which the ends of the rods are fixed, and the upper end of each rod is located closer to the longitudinal axis of the support than the lower end of this rod. Sections can be formed from separate vertical hollow elements installed around the perimeter of the section or along their entire cross section and tightened with bandages.

 On the vertical and / or horizontal adjacent surfaces of the adjacent elements of the section, keyways and protrusions are formed. In each element of the section or in some of its elements are rods that can be placed at an angle to the longitudinal axis of the support and lie with it in different planes, and the angles of inclination of the rods are symmetrical with respect to the axis of the support. The area of the upper shell of each section may be less than the area of its lower shell or the area of both shells of the section may be equal. On the outer surface of the outer walls of the section, vertical stiffeners can be formed. The shells may be provided with clips and / or holes for the clips. Sections and / or their elements may be pre-stressed. All sections can be provided with additional flanges, and the upper flange of each section can be connected to the lower flange of the additional link located below the adjacent section. Vertical stiffeners can be made in the form of additional vertical hollow elements. The cross section of the sections may take the form of a circle or an ellipse, or a triangle, or a polygon, or any of these figures with ribs protruding around the perimeter. The area of the lower shell of the overlying section may exceed the area of the upper shell of the underlying section.

 A comparative analysis of the claimed design with the prototype shows that it differs in that the sections are hollow, and the outer walls of the sections are in the form of a curve of the first or second order and are equipped with shells at the ends, with the lower shell of the lower section and the upper shell of the upper support section having flanges in which the ends of the rods are fixed, while the upper end of each rod is located closer to the longitudinal axis of the support than the lower end of this rod. The difference also lies in the fact that the sections are formed of separate vertical hollow elements installed around the perimeter or along the entire cross section of the section and tightened with bandages. On the vertical adjacent surfaces of adjacent elements of the section, keyways and protrusions are formed. In each element of the section or in some of its elements are traction. The rods can be located at an angle to the longitudinal axis of the support and lie with it in different planes, with the angles of inclination of the rods symmetrical about the axis of the support. The area of the upper shell of each section may be less than the area of its lower shell or the area of both shells may be equal. On the outer surface of the outer walls of the section, vertical stiffeners can be formed. The shells are provided with clips and / or holes for the clips. Sections and / or their elements may be pre-stressed. All sections can be equipped with additional flanges, and the upper flange of each section is connected to the lower flange of the additional link located below the adjacent section. Vertical stiffeners can be made in the form of additional vertical hollow elements. The cross section of the sections may take the form of a circle or an ellipse, or a triangle, or a polygon, or any of these figures with ribs protruding around the perimeter. The area of the lower shell of the overlying section exceeds the area of the upper shell of the underlying section.

 This analysis indicates the presence of novelty in the claimed invention.

 Comparison of the proposed design with other well-known technical solutions of the same functional purpose shows that the support is made in the form of hollow sections mounted on each other and tightened by prestressed rods with the surface of the outer wall in the form of a curve of the first or second order, and the formation of sections from separate vertical tightened bandages hollow elements can increase the industrial production of elements, reduce costs and greatly simplify the process of transportation and mon Azha, which is especially important in tight spaces. In addition, the fastening of the ends of prestressed rods to the flanges formed at the ends of the shells, the placement of rods inside the hollow elements or their parts, as well as the possibility of arranging the rods at an angle to the longitudinal axis of the support symmetrically with respect to this axis and the execution of the sections or their parts prestressed allow increasing longitudinal stability of the support, which is especially important for maintaining the survivability of the structure under extreme environmental conditions (hurricanes, earthquakes, etc.).

 These beneficial effects can be obtained by using the features claimed in the claims. The comparison allows us to conclude that the proposed technical solution exceeds the existing level of technology.

The invention is illustrated by an example of its implementation. The drawings show:
- in FIG. 1 - General view of the support, a vertical section;
- in FIG. 2 - general view of the support with bandages;
- in FIG. 3 - section along AA (option 1), the elements are installed around the perimeter of the section;
- in FIG. 4 - section AA (option 2), the elements are installed along the entire cross section of the section;
- in FIG. 5 - section along AA (option 3), the support is made polygonal in terms of shape and has stiffeners;
- in FIG. 6 - inclined arrangement of rods inside the support;
- in FIG. 7 - support with shells of equal area;
- in FIG. 8 - node "B" in FIG. 7;
- in FIG. 9 - support with hollow vertical stiffeners;
- in FIG. 10 - section elements with keyways.

 The support is made in the form of sections 1 mounted on each other with vertical through channels 2, in which pre-tensioned rods 3 are located over the entire height of the support. The sections are hollow, and the outer walls of the 4 sections have the shape of a first or second order curve and are equipped with shells 5 at the ends. The lower shell 6 of the lower section 7 and the upper shell 8 of the upper section 9 supports have flanges 10 at the ends, in which the ends 11 and 12 of the rods are fixed, while the upper end 11 of each rod is located closer to the longitudinal axis 13 of the support than the lower end 12 of this rod and. Sections can be formed from separate vertical hollow elements 14, 15, 16, installed around the perimeter or along the entire cross section of the section and tightened with bandages 17. In this case, rods can be located in each element of the section or in some of its elements. The rods can be located at an angle to the longitudinal axis 13 of the support and lie with it in different planes, and the angles "a" of the inclination of the rods are symmetrical with respect to the axis of the support. The area of the upper shell of each section may be less than or equal to the area of its lower shell. To increase the rigidity of the support, vertical stiffening ribs 18 can be formed on the outer surface of the outer walls of the section 18. They can be made in the form of additional vertical hollow elements 19 through which rods 3 are passed. The shells are equipped with clips 20 and / or holes 21 for the clips.

 Sections and / or parts thereof in the case of their manufacture from reinforced concrete or fiber-reinforced concrete can be pre-stressed. All sections can be equipped with additional flanges 22, 23, and the upper 23 flange of each section is connected to the lower 22 flange of an additional link 24 located below the adjacent section. Additional links can also be located between the flanges of the sections located through one or more. The cross section of the sections can be in the form of a circle or an ellipse, or a triangle, or a polygon, or any of these figures with stiffening ribs 18 or 19 protruding around the perimeter. If necessary (for example, when using a support having a cantilever extension that receives the load when a tilting moment occurs) inside the support, an additional inclined extension 25 can be mounted to compensate for the efforts of the tilting moment. To prevent atmospheric moisture from entering the support, the area of the lower shell of the overlying section may exceed the area of the upper shell of the underlying section, and a waterproofing gasket 26 can be installed between adjacent shells.

 The support is mounted in the following order: on the previously prepared foundation (not shown in the drawings), the lower support section 7 is rigidly fixed, the lower ends 12 of the rods 3 are fixed to the flange 10 of the lower shell 6. Then, the next section 1 is mounted on the lower section from the top using latches 20 , then the next section, and so on to the upper 9 section of the support, to the flange 10 of which the upper 11 ends of the rods 3 are attached with rated voltage. During installation, waterproofing gaskets 26 are installed between the sections.

 On the vertical and / or horizontal adjacent surfaces of adjacent elements of the section, keyways and protrusions 27 are formed.

 To ensure the stability of the sections during installation, the upper 23 flange of each section is connected to the lower 22 flange of the additional link 24 located below the adjacent section. Additional links can also be located between the flanges of the sections located through one. The installation of additional rods 24 can also increase the longitudinal stability of the support as a whole. The same goal is pursued by the location of the main rods 3 in different planes at an angle to the longitudinal axis of the support and symmetrically relative to each other.

 In order to facilitate transportation and reduce the load capacity of the section mounting devices, they can be composed of separate vertical hollow elements that are pulled together after installation by the bandages 5. When installing vertical stiffeners 18 or additional vertical hollow elements 19, the installation procedure is generally maintained, however, bandages 5 are installed after assembling the entire section of this level, including stiffeners.

 Thus, the proposed construction of the support has good transportability, ease of assembly and provides high longitudinal stability. The design allows you to apply, if necessary, additional stretch marks (not shown in the drawings).

Claims (15)

 1. A support containing mounted on top of each other sections with vertical through channels in which pre-tensioned rods are located over the entire height of the support, characterized in that the sections are hollow and the outer walls of the sections have a first or second order curve shape and are provided with shells at the ends, moreover, the lower shell of the lower section and the upper shell of the upper section of the support have flanges at the ends, in which the ends of the rods are fixed, while the upper end of each rod is closer to the longitudinal axis of the support than the lower end traction.  2. The support according to claim 1, characterized in that the sections are formed of separate vertical hollow elements installed around the perimeter of the section and tightened with bandages.  3. The support according to claim 1, characterized in that the sections are formed of separate vertical hollow elements installed along the entire cross section of the section and tightened with bandages.  4. A support according to any one of claims 1 to 3, characterized in that keyways and protrusions are formed on vertical and / or horizontal adjacent surfaces of adjacent elements of the section.  5. Support according to any one of paragraphs.1 to 3, characterized in that in each element of the section or in some of its elements are traction.  6. A support according to claim 1, characterized in that the rods are arranged at an angle to the longitudinal axis of the support and lie with it in different planes, the angles of inclination of the rods being symmetrical with respect to the axis of the support.  7. Support according to claim 1, characterized in that the area of the upper shell of each section is less than the area of its lower shell.  8. The support according to claim 1, characterized in that the area of the upper and lower shells of the section are equal.  9. A support according to any one of claims 1 to 3, characterized in that vertical stiffeners are formed from the outer surface of the outer walls of the section.  10. Support according to claim 1, characterized in that the shells are equipped with clips and / or holes for the clips.  11. Support according to claim 1, characterized in that the sections and / or their elements are pre-stressed.  12. The support according to claim 1, characterized in that all sections are provided with additional flanges, and the upper flange of each section is connected to the lower flange of the lower adjacent section with an additional pre-directed thrust.  13. The support according to claim 1 or 8, characterized in that the vertical ribs of the stiffeners are made in the form of additional vertical hollow elements.  14. The support according to claim 1, characterized in that the cross-section of the sections is in the form of a circle, or an ellipse, or a triangle, or a polygon, or any of these figures with ribs protruding around the perimeter.  15. The support according to claim 1, characterized in that the area of the lower shell of the overlying section exceeds the area of the upper shell of the underlying section.

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