RU135345U1 - MODULAR SUPPORT - Google Patents

Abstract

1. A modular support containing a hollow base module made of composite material, characterized in that it further comprises a base plate, a base diaphragm resting on the base module, and a base coupler installed in the cavity of the base module connecting the base diaphragm to the base plate. . Support according to claim 1, characterized in that it comprises means for tensioning the base screed. The support according to claim 1, characterized in that the base diaphragm comprises an outlet for attaching attachments from the outside of the base module. A modular support comprising a hollow base module made of composite material and a hollow vertex module made of composite material, characterized in that it further comprises a base plate, a base diaphragm resting on the base module, a base coupler installed in the cavity of the base module connecting the base diaphragm with the base plate, the vertex diaphragm resting on the vertex module, and the vertex coupler installed in the cavity of the vertex module connecting the vertex diaphragm with the base diaphragm. 5. Support according to claim 4, characterized in that it comprises means for tensioning the base screed. The support according to claim 4, characterized in that it contains means for tensioning the vertex screed. The support according to claim 4, characterized in that the base diaphragm comprises an outlet for attaching attachments from the outside of the base module. The support according to claim 4, characterized in that the vertex diaphragm contains an outlet for attaching attachments from the outside from the vertex module. Modular support containing a hollow base module made of composite material, hollow in

Description

Modular support refers to the supports of overhead power lines, towers, towers, supports for mounting antennas, relay, switching, lighting, signaling, technological and other equipment.

Known support overhead power lines made using a composite material based on fiberglass yarns and a polymer binder (patent RU 13385 U1, publ. 2000.04.10). Installation of individual support elements is carried out by gluing. Such a support has a low weight and low electrical conductivity. This makes it easier to deliver to inaccessible places and installation, to increase the electrical insulation properties of the support.

Known freestanding vertical support containing a rack in the form of a cylindrical pipe made of composite material, mainly fiberglass (patent RU 108070 U1, publ. 2011.09.10). The stand is not subject to corrosion in any climatic conditions, lighter than concrete, has a high specific strength and is an insulator that does not require grounding. The support also contains structural elements that allow you to install various technological, switching and other equipment on it without the use of additional devices. Four options for the design of the vertical support are presented. Options 1 and 2 are intended primarily for the installation of lighting equipment, loudspeakers, security cameras and other equipment on it. Options 3 and 4 are designed to install wired intercom equipment on it.

The stand of a free-standing vertical support is made in the form of a single part of a fixed height, which limits the area of use of the vertical support.

Closest to the proposed modular support is the well-known modular mast containing a base tubular module made of composite material (patent RU 2376432 C2, publ. 2009.12.20). The base module has lower and upper ends. The lower end of the base module is made with a support element for supporting and distributing the weight of the modular mast on the supporting surface. The cross-sectional area of the upper end of the base module is less than the cross-sectional area of the lower end of the base module. The upper end of the base module can be inserted into the second module to increase the height of the modular mast.

Known modular mast may contain one, or two, or three, or more than three tubular modules made of composite material, which allows you to choose the height of the modular mast in accordance with the design conditions, to facilitate the transportation of a tall mast in hard to reach places. However, this modular mast is not strong enough and not reliable enough to operate. Under the influence of wind, snow, ice, unbalanced load from the wires attached to the mast and attachments attached to the mast, the strength and reliability of the modular mast is reduced. The service life of the modular mast is reduced.

The objective of the proposed technical solution is to increase the strength and reliability of a modular support containing at least one module made of composite material.

The problem is solved in that the modular support in the first embodiment contains a hollow base module made of composite material. The modular support further comprises a base plate, a base diaphragm resting on the base module, and a base screed. The base coupler is installed in the cavity of the base module and connects the base diaphragm to the base plate. *

In a first embodiment, the modular support may comprise means for tensioning the base coupler. The basic diaphragm can be made with the release for mounting attachments on the outside of the modular support.

The modular support in the second embodiment includes a hollow base module made of composite material and a hollow vertex module made of composite material. In addition, the modular support comprises a base plate, a base diaphragm resting on the base module, a base screed, a vertex diaphragm resting on the vertex module, and a vertex screed. The base coupler is installed in the cavity of the base module and connects the base diaphragm to the base plate. The vertex coupler is installed in the cavity of the vertex module and connects the vertex diaphragm to the base diaphragm.

In a second embodiment, the modular support may comprise means for tensioning the base coupler and means for tensioning the vertex coupler. The basic diaphragm can be made with the release for mounting attachments on the outside of the modular support. The aperture diaphragm can be made with a release for mounting attachments on the outside of the modular support.

The modular support in the third embodiment includes a hollow base module made of composite material, a hollow vertex module made of composite material, and a hollow intermediate module made of composite material installed between the base module and the vertex module. In addition, the modular support comprises a base plate, a base diaphragm resting on the base module, a base screed, an intermediate diaphragm resting on the intermediate module, an intermediate screed, a vertex diaphragm resting on the vertex module, and a vertex screed. The base coupler is installed in the cavity of the base module and connects the base diaphragm to the base plate. An intermediate coupler is installed in the cavity of the intermediate module and connects the intermediate diaphragm to the base diaphragm. The vertex coupler is installed in the cavity of the vertex module and connects the vertex diaphragm to the intermediate diaphragm.

In a third embodiment, the modular support may comprise means for tensioning the base coupler, means for tensioning the intermediate coupler, and means for tensioning the vertex coupler. The basic diaphragm can be made with the release for mounting attachments on the outside of the modular support. An intermediate diaphragm can be made with an outlet for mounting attachments on the outside of the modular support. The aperture diaphragm can be made with a release for mounting attachments on the outside of the modular support.

As a composite material can be used carbon fiber, fiberglass, other reinforced polymer material.

The cross section of the base module, vertex module, or intermediate module may take the form of a circle, ellipse, polygon, or other geometric shape.

The base plate, the base diaphragm, the intermediate diaphragm and the vertex diaphragm, as well as the base coupler, the intermediate coupler and the vertex coupler, can increase the strength of the modular support due to the created structural connections between the parts of the modular support.

The means of tension of the base coupler allows you to adjust the tensile stress of the base coupler and the compression stress of the base module.

The means of tensioning the intermediate coupler allows you to adjust the tensile stress of the intermediate coupler and the compression stress of the intermediate module.

The means of tension of the vertex coupler allows you to adjust the tensile stress of the vertex coupler and the compression stress of the vertex module.

The technical result achieved is to increase the strength and reliability of a modular support containing at least one module made of a composite material.

The modular support is illustrated by the drawing, which shows examples of the implementation of the utility model.

FIG. 1 is a general view of a modular support made in the form of an overhead power line support.

FIG. 2 is a general view of a modular support made in the form of a tower for attaching antennas, relay, switching, lighting, signaling and other equipment.

FIG. 3 is a longitudinal section through a junction of a base module with a base plate.

FIG. 4 is a cross-sectional view of a junction of a base module with a base plate.

FIG. 5 is a longitudinal section through a connection unit of a base diaphragm with a base module and a lower intermediate module.

FIG. 6 is a cross-sectional view of the junction of the base diaphragm with the lower intermediate module.

FIG. 7 is a longitudinal section through a connection unit of a lower intermediate diaphragm with a lower intermediate module and an upper intermediate module.

FIG. 8 is a cross-sectional view of the junction of the lower intermediate diaphragm with the upper intermediate module.

FIG. 9 is a longitudinal section through the assembly of the upper intermediate diaphragm with the upper intermediate module and the vertex module.

FIG. 10 is a cross-sectional view of the junction of the upper intermediate diaphragm with the vertex module.

FIG. 11 is a longitudinal section of the node connecting the vertex diaphragm with the vertex module.

The modular support in the first embodiment (Fig. 1) comprises, made of composite material, a base module 1, a lower intermediate module 2, an upper intermediate module 3, a vertex module 4.

The base module 1 is mounted on a base plate 5 attached to the foundation 6 with fasteners 7 (Fig. 3). The base module 1 is pressed against the base plate 5 with the base diaphragm 8, base ties 9, welded to the base plate 5, and tension means 10 of the base ties 9 (Fig. 5).

The lower intermediate module 2 is mounted on the base diaphragm 8, pressed against the base diaphragm 8 using the lower intermediate diaphragm 11, the lower intermediate ties 12, welded to the base diaphragm 8, tension means 13 of the lower intermediate ties 12 (Fig. 7). The lower intermediate diaphragm 11 is made with lower outlets 14 for attaching lower traverses 15 with electric wires 16 to them.

The upper intermediate module 3 is mounted on the lower intermediate diaphragm 11, pressed against the lower intermediate diaphragm 11 using the upper intermediate diaphragm 17, the upper intermediate couplers 18, which are welded to the lower intermediate diaphragm 11, and the tension means 19 of the upper intermediate couplers 18 (Fig. 9) . The upper intermediate diaphragm 17 is made with the upper outlets 20 for attaching the upper beam 21 with the electric wire 22.

The vertex module 4 is mounted on the upper intermediate diaphragm 17 and pressed against the upper intermediate diaphragm 17 using the vertex diaphragm 23, the vertex couplers 24 attached by welding to the upper intermediate diaphragm 17, and the tension means 25 of the vertex couplers 24 (Fig. 11). Apex 26 is attached to the apex diaphragm 23.

The modular support in the second embodiment (Fig. 2) comprises a base module 27, an intermediate module 28 and a vertex module 29 made of composite material.

The base module 27 is mounted on a base plate 30 attached to the foundation 31 by fasteners 32 and pressed against the base plate 30 with a base diaphragm 33 and base ties (not shown).

The intermediate module 28 is mounted on the base diaphragm 33 and pressed against the base diaphragm 33 using the intermediate diaphragm 34 and intermediate ties (not shown).

The vertex module 29 is mounted on the intermediate diaphragm 34 and pressed against the intermediate diaphragm 34 using the vertex diaphragm 35 and the vertex couplers (not shown). On the summit module 29 installed cargo area 36.

The modular support in the first embodiment is mounted as follows. A base plate 5 is mounted on the foundation 6 with base ties 9 welded to it at one end and attached with fasteners 7. The base module 1 is mounted on the base plate 5 (Fig. 3). The base diaphragm 8 with the lower intermediate ties 12 welded to it at one end is mounted on the base module 1 and secured with tension means 10 of the base ties 9. The lower intermediate module 2 is mounted on the base diaphragm 8 (Fig. 5). The lower intermediate diaphragm 11 with the upper intermediate ties 18 welded to it at one end is mounted on the lower intermediate module 2 and secured by means of the tension 13 of the lower intermediate ties 12. The upper intermediate module 3 is mounted on the lower intermediate diaphragm 11 (Fig. 7). The upper intermediate diaphragm 17 with the vertex couplers 24 welded to it at one end is mounted on the upper intermediate module 3 and fixed by means of tension 19 of the upper intermediate couplers 18. The vertex module 4 is mounted on the upper intermediate diaphragm 17 (Fig. 9). The apex diaphragm 23 is mounted on the apex module 4 and secured by tension means 25 of the vertex couplers 24. A stand 26 is attached to the apex diaphragm 23.

The modular support in the second embodiment is mounted as follows. Fix the base plate 30 to the foundation 31 with fasteners 32. The base module 27 is mounted on the base plate 30 and fixed with the base diaphragm 33, base ties and tensioning means (not shown) of the base ties. An intermediate module 28 is mounted on the base module 27 and secured with an intermediate diaphragm 34, intermediate ties and tension means (not shown) of the intermediate ties. The vertex module 29 is mounted on the intermediate module 28 and secured with the vertex diaphragm 35, vertex couplers and tension means (not shown) of the vertex couplers. On the apex diaphragm 35, a cargo area 36 is mounted for attaching antennas, relay, switching, lighting, signaling, process and other equipment.

The mounted modular support is operated in tension. Modules 1, 2, 3, 4 are stressed by compression force, and ties 9, 12, 18, 24 are stressed by tensile force, which increases the strength and reliability of the modular support.

Diaphragms 8, 11, 17, 23 or part of these diaphragms can be made hidden in the cavity of the modular support, and gaskets can be installed between the modules. This further increases the electrical isolation and corrosion protection of the modular support, increases its service life.

At least two modules of the modular support can have different strength properties, so that the modular support can be assembled by selectively combining modules having different strength properties.

As a means of tension 10. 13, 19, 25 can mainly be used nuts screwed onto the ties 9, 12, 18, 24.

The presented examples do not exhaust the possible implementation options of the proposed modular support. Although the preferred embodiments of the utility model are described, it is clear that those skilled in the art may make changes and additions that do not go beyond the scope of the above utility model formula.

Claims (15)

1. A modular support containing a hollow base module made of composite material, characterized in that it further comprises a base plate, a base diaphragm resting on the base module, and a base coupler installed in the cavity of the base module connecting the base diaphragm to the base plate. 2. The support according to claim 1, characterized in that it contains means for tensioning the base coupler. 3. The support according to claim 1, characterized in that the base diaphragm comprises an outlet for attaching attachments from the outside of the base module. 4. A modular support comprising a hollow base module made of composite material and a hollow vertex module made of composite material, characterized in that it further comprises a base plate, a base diaphragm resting on the base module, a base coupler installed in the cavity of the base module connecting the base diaphragm with the base plate, the vertex diaphragm resting on the vertex module, and the vertex coupler installed in the cavity of the vertex module connecting the vertex diaphragm with the base diaphragm . 5. Support according to claim 4, characterized in that it comprises means for tensioning the base coupler. 6. The support according to claim 4, characterized in that it contains means for tensioning the vertex screed. 7. The support according to claim 4, characterized in that the base diaphragm comprises an outlet for attaching attachments from the outside of the base module. 8. The support according to claim 4, characterized in that the vertex diaphragm comprises an outlet for attaching attachments from the outside from the vertex module. 9. A modular support comprising a hollow base module made of composite material, a hollow vertex module made of composite material, and a hollow intermediate module made of composite material installed between the base module and the vertex module, characterized in that it further comprises a base plate , a base diaphragm resting on the base module, a base screed installed in the cavity of the base module connecting the base diaphragm to the base plate, an intermediate diaphragm resting on the diate module, an intermediate coupler mounted in the cavity of the intermediate module connecting the intermediate diaphragm with diaphragm base, apical aperture, based on a vertex unit, and the vertex coupler mounted in the cavity of the vertex of the module connecting the vertex with the intermediate aperture diaphragm. 10. The support according to claim 9, characterized in that it contains means for tensioning the base coupler. 11. The support according to claim 9, characterized in that it comprises means for tensioning the intermediate screed. 12. The support according to claim 9, characterized in that it contains means for tensioning the vertex screed. 13. The support according to claim 9, characterized in that the base diaphragm comprises an outlet for attaching attachments from the outside of the base module. 14. The support according to claim 9, characterized in that the intermediate diaphragm comprises an outlet for attaching attachments from the outside from the intermediate module. 15. The support according to claim 9, characterized in that the vertex diaphragm comprises an outlet for attaching attachments from the outside from the vertex module.

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