WO2016149780A1 - Hybrid foundation for towers - Google Patents

Abstract

The present invention relates to foundations as superstructures, and more particularly foundations for the special purposes of supporting towers and other vertical structures. The hybrid foundation (1 ) for towers, in one of the embodiments thereof, is characterized in that it comprises at least two vertical plates (2); at least two counterweight blocks (3) arranged on the inside and against facing sides of at least two vertical plates (2); a base concrete central pillar (4) for a vertical structure; and at least two connection structures (5), composed of metal tubes of high D/t ratio, reinforced concrete beams, or metal lattices, arranged axially between the central pillar (4) and each one of the counterweight blocks (3).

Description

 "HBRID FOUNDATION TOWERS"

[001] TECHNICAL FIELD

 [002] The present invention relates to foundations such as superstructures, more particularly special purpose support foundations and other vertical structures.

[003] STATE OF THE TECHNIQUE

 [004] The vast majority of foundations of vertical structures are the traditional volumes of concrete buried in the ground. Among the main types stand out sharks, radiers, piles, etc., where the foundation project is developed after analysis of a previous survey report.

[Õ0S] Some tower support configurations utilize the general foundation concept configured by an all-metal structure to dispense with the use of concrete, featuring a lighter weight structure that provides greater transport logistics capacity, faster assembly, and lower costs, since it dispenses materials and time for concreting. Such structures are known, for example, from documents BRPI0203213 and CN102400471, which feature tower metal foundations that do not require the use of concrete.

 A modular tower base configuration is disclosed by US8919051 which describes at least four vertical walls, a central pillar, interconnecting segments, and recesses in both the central pillar and the middle of the vertical walls to receive each of at least four interconnecting elements.

Another tower support configuration can be seen in patent document CN202889024 or US20120228442, which presents a metal tower foundation associating the use of the metal frame, composed of four interconnecting structures, with stabilizing support / counterweight materials, shown. by loose (loose) materials such as precast concrete, blocks, stones, etc. This document presents the possibility of applying the foundation to the ground or buried in it. Another supportive configuration is presented by WO2010138978 A2, wherein several beam structures are arranged axially and several beam structures are arranged at a perimeter interconnecting the region near the ends of said axially arranged beams. One use of an easily assembled hybrid foundation is presented by WO2015061862A1, which utilizes vertical concrete slabs that are positioned completely external to the vertical structure (tower or pole) and fully interconnected metal trusses to prevent tipping of the vertical structure.

 Further, BRPI9608177 describes the advantageous use of the physical characteristics of cylindrical or tubular structures, specifically tubular towers, whose cross sections of a profile should have a higher D / t ratio, where D is the diameter and t is the thickness. It is shown that the higher the D / t ratio, the lower the structural forces submitted to the tower structure.

[010] TECHNICAL PROBLEM

 [011] Lightweight fringed metal structures used as a foundation and support for towers typically require anchoring devices to withstand tipping moments, and therefore require ground testing and excavation procedures for anchoring system deployment.

[012] The hybrid model introduced by CN202889024 or US20120228442, which combines a metal frame with heavy support structures, although utilizing materials for support and stability of the metal frame, such as cast concrete plates, does not make better use of the rapid mounting coupled with the greater robustness of a metal frame foundation, as such heavy structures only fix the lower ends of the metal frame between the gaps (exposing them) and are overlapped (acting as a stabilizing counterweight) on a metal frame required additional which is positioned between said concrete plate and the ground. The fact that the heavy support materials are detached (not interconnected with each other), and not completely positioned outside the metal frame, also contribute to less protection of the tower foundation metal frame.

 [013] The other documents cited in the prior art do not describe the possibility of providing a structural counterweight configuration, for example reinforced concrete, internally disposed and at least two vertical plates that allow better performance in foundation stability, and minimize the use of interconnecting components and vertical walls required. For example, prior art documents require at least four interconnecting structures. Also, the use of the hybrid foundation presented by WO2015061862A1, with the use of fully interconnected metal trusses, eventually requires greater polar moment of inertia to prevent tipping of the vertical structure, or physical characteristic of the interconnecting structure between the vertical structure and the vertical concrete slabs that exhibit high torsion resistance.

[014] TECHNICAL SOLUTION

 [01 S] The present invention aims to provide a fast-mounting hybrid floor foundation structure using at least two vertical plates, at least two counterweight blocks disposed internally and adjacent to one another in one embodiment. opposite sides of at least two vertical plates, a central pillar made of reinforced, solid or cast concrete that forms the basis of a vertical structure; and at least two interconnecting structures arranged axially between the central pillar and each counterweight block.

[016] Also shown are embodiments in which the hybrid foundation has interconnecting structures consisting of high D / t metal pipes, reinforced concrete beams or metal trusses. [017] Also shown are embodiments in which interconnecting structures are reinforced concrete beams such as baldrame shallow foundation beams, sometimes dispensing with a central pillar.

[018] ADVANTABLE EFFECTS

 [019] The use of an interconnected structure of concrete plates far from the center of the tower, enables greater efficiency of the weight of the plates in the support function of the vertical structure, enabling the support improvement of the tower tipping moment.

 [020] The structural configuration of reinforced concrete counterweight arranged internally and together with at least two vertical plates in such a way as to aid the stability of the foundation, which makes it possible even to use only two interconnecting structures acting together with only two counterweights. internally arranged, each next to each of said vertical plates.

 [021] Hybrid foundation can be installed above ground without the use of ground anchoring systems, and therefore does not require ground excavation.

 The possibility of using prefabricated structures of the present invention dispenses with a series of concreting steps such as drilling, excavation, placement of fittings and fittings at the installation site, and the required curing time.

 [023] Using upright concrete slabs as a wall works more effectively, offering greater vandal resistance than traditional metal fences, or even masonry walls, reducing installation time and solution costs.

[024] Reinforcement plates make it easy to fix the connections between the walls and the tower's central pillar, reducing the length, weight and number of interconnecting bars of the structure.

[025] Counterweight blocks arranged internally and adjacent to opposite sides of at least two vertical plates make it easy to attach the frames interconnection, reducing the length and weight of such structures.

[028] The use of counterweight blocks whose interconnecting structure is made of metal trusses enables shorter flanges to be used and the number of bracing bars to be reduced.

[027] The use of a hybrid tower foundation whose interconnecting structures are metal pipes or reinforced concrete beams provide more than 20 times polar moment of inertia than interconnecting metal lattice structures.

 [028] In the hybrid tower foundation whose interconnecting structures are metal pipes or reinforced concrete beams associated with counterweight plates, for example concrete, arranged internally and adjacent to at least two vertical plates, the torsional strength may be sufficient. to resist tipping using only one axis instead of two cross axes.

 [029] BRIEF DESCRIPTION OF THE FIGURES

 [030] Figs. 1A, 1B and 1C show top and perspective views of the hybrid foundation in its basic configurations applied to the embodiments of the present invention.

 [031] Figs. 2A and 2B show perspective views of the hybrid foundation in a first embodiment of the present invention with interconnecting structures composed of metal pipes and the solid central pillar.

 [032] A Fig. 3 shows a top view of the hybrid foundation of the first embodiment of the present invention with interconnecting structures composed of metal pipes and the hollow central pillar.

 Fig. 4 shows a perspective view of the hybrid foundation in a second embodiment of the present invention with reinforced concrete beam interconnecting structures and the central reinforced concrete pillar.

[034] Figs. 5A and 5B show perspective views of a foundation. hybrid whose reinforced concrete beams are baldrame shallow foundation beams applied to a monotubular tower configuration.

 [035] Figs. 6A and 6B show perspective views of a hybrid foundation whose reinforced concrete beams are baldrame shallow foundation beams applied to a triangular tower configuration.

 Fig. 7A shows a top view of a triangular tower hybrid foundation configuration comprising a shallow foundation beam parallel to at least one of the shallow foundation beams arranged in a cross configuration.

 Fig. 7B shows a top perspective view detailing the interior of a triangular tower hybrid foundation configuration comprising shallow foundation beams arranged in a cross configuration.

 Fig. 8 shows a configuration comprising an access door to the internal area of the hybrid foundation.

[039] DETAILED DESCRIPTION

 [040] The present invention provides, by way of example and not limitation, a rapidly assembling hybrid foundation applied to single-tower and lattice towers, but the hybrid foundation may also be applicable to a number of other vertical structures of various other shapes. .

 [041] Figs. 1A, 1B and 1C show top views of the hybrid foundation (1) in their basic configurations applied to the embodiments of the present invention.

[042] The hybrid foundation (1) of the present invention comprises at least two vertical plates (2), at least two counterweight blocks (3) disposed internally and adjacent to the vertical plates (2), a central base pillar (4) for a vertical structure to be positioned on its axis, and at least two interconnecting structures (5) arranged axially between the central pillar (4) and each counterweight block (3). The vertical plates (2) and counterweight blocks (3) of the present invention may consist of a material or combination of materials known in the technical field of construction without thereby departing from the scope of the invention. . For example, the vertical plates (2) and counterweight blocks (3) may consist of reinforced concrete, cyclopean concrete blocks, masonry walls, concrete or metal troughs filled with other heavy material, concrete blocks or filled screens with gravel, among other alternatives.

 By way of example, the configurations observed in the figures of the present invention have vertical plates (2) of greater length and thickness relative to the counterweight blocks (3), however other shape relationships and variations between said vertical plates ( 2) and said counterweight blocks (3) should be understood as possible alternatives and developments without departing from the scope of the present invention. For example, the vertical plates (2) may have the same length as the counterweight blocks (3), or may even be configured together as a single structure, the same material or the combination of metals and / or other materials known to the art. construction.

 [045] The present invention is disclosed comprising embodiments whose interconnecting structures (5) are metal pipes, reinforced concrete beams or metal trusses.

 [046] The central pillar (4) of the present invention may be of the reinforced, solid or cast concrete type.

[047] Fig. 1C shows, by way of example, a "cross-sectional" configuration comprising four interconnecting structures (5) fixed between the concrete center pillar (4) and each of the four counterweight blocks (3) . However, at least for embodiments whose interconnecting structures (5) are metal pipes or reinforced concrete beams, the present invention may also be carried out with at least two internally disposed counterweight blocks (3), for example concrete. and next to opposite sides of at least two vertical plates (2), and with at least two interconnecting structures (5) arranged axially between the concrete central pillar (4) and each counterweight block (3).

 [048] Fig. 2A shows a perspective view of the hybrid foundation (1) in a first embodiment of the present invention comprising interconnecting structures (5) composed of metal pipes and a solid type central pillar (4).

 [049] For better robustness of the hybrid foundation (1), the interconnecting structures (5) can be implemented by high D / t ratio metal pipes, greater than 25, where D is the pipe diameter and t is the wall thickness. from the tube. D / t ratios are known, eg NBR 8800.

Such high D / t ratio utilization allows the hybrid foundation (1) to be composed of at least two metal tubes arranged axially between the central pillar (4) and each of the respective two counterweight blocks (3) as However, in an alternative mode of this first embodiment, it is possible to redistribute the efforts of the hybrid foundation (1) through interconnecting structures (5) composed of at least one second metal tube disposed above. a first lower metal tube as seen in Fig. 2B.

 Also, as seen in Fig. 3, the first embodiment of the present invention comprises interconnecting structures (5) consisting of metal pipes and may also have a hollow-type central pillar (4) for fixing a vertical structure. (not shown) on its axis.

[052] Fig. 4 shows the hybrid foundation (1) in a second embodiment of the present invention, whose interconnecting structures (5) consist of concrete beams and the central pillar (4) of reinforced concrete type.

[053] In other embodiments, the hybrid foundation (1) may be characterized in that the interconnecting structures (5) or reinforced concrete beams are shallow foundation beams of the baldrame type. As seen in Figs 5A, 5B and 6, ok! This configuration can be applied when greater versatility of access to the internal area of the hybrid foundation (1) is required for both single and triangular towers.

In particular, when in the embodiment of the hybrid foundation (1) for lattice towers, for example of the triangular type or other polygonal shapes, the use of the central pillar (4) may not be necessary. In this embodiment, the hybrid tower foundation (1) comprises at least two vertical plates (2); at least two counterweight blocks (3) disposed internally and adjacent to at least two vertical plates (2); and a plurality of interconnecting structures (5) being shallow foundation beams arranged in a cross configuration and having their outer ends joined to each of the respective counterweight blocks (3), as seen in Fig. 6, Still further. In order to make better use of additional support points and to secure the lower ends of tower structures, for example of a truss triangular tower, the hybrid foundation (1) can additionally comprise at least one further shallow foundation beam (6) in parallel. at least one of the shallow foundation beams arranged in a cross configuration as seen in Fig. 7.

 [055] Embodiments of shallow foundation beams with foundation or baldrams shown in Figs. 5A, 5B, 6A, 6B, 7A and 7B include, for example, foundation type configurations enclosed by a concrete slab.

 [056] In a third embodiment of the present invention, the interconnecting structures (5) are configured to consist of metal trusses.

 [057] For all embodiments, it is possible to provide a door (7) for access to the internal area of the hybrid foundation (1). The access door may be present in at least one of the vertical plates (2), or be present in at least one intermediate structure present alongside at least one of the vertical plates (2), as exemplified in Fig. 8.

Claims

 01. Hybrid tower foundation characterized by:  at least two vertical plates (2);  at least two counterweight blocks (3) disposed internally and adjacent to at least two vertical plates (2);  a concrete central pillar (4) base for a vertical structure; and at least two interconnecting structures (5) arranged axially between the central pillar (4) and each respective counterweight block (3).  Hybrid tower foundation according to claim 01, characterized in that the interconnecting structures (5) are metal pipes with a ratio D / t greater than 25, where D is the pipe diameter and t is the pipe wall thickness. .  Hybrid tower foundation according to claim 01, characterized in that the interconnecting structures (5) are composed of at least one second metal tube disposed above a first metal tube.  Hybrid tower foundation according to claim 01, characterized in that the interconnecting structures (5) are reinforced concrete beams.  Hybrid tower foundation according to claim 01, characterized in that the interconnecting structures (5) are metal trusses.  Hybrid tower foundation according to claim 01, characterized in that the central pillar (4) is made of reinforced, solid or cast concrete.  07. Hybrid tower foundation characterized by:  at least two vertical plates (2);  at least two counterweight blocks (3) disposed internally and adjacent to at least two vertical plates (2); and a plurality of interconnecting structures (5) being shallow foundation beams arranged in a cross configuration having their outer ends joined to each respective counterweight block (3).  Hybrid tower foundation according to claim 7, characterized in that it further comprises at least one further shallow foundation beam (6) in parallel with at least one of the shallow foundation beams arranged in a cross configuration.  Hybrid tower foundation according to either of claims 07 or 08, characterized in that it comprises a foundation configuration enclosed by a concrete slab.  Hybrid tower foundation according to either of claims 01 or 07, characterized in that it comprises a door (7) for accessing the internal area of the hybrid foundation (1), wherein said access door (7) is present. on at least one of the vertical plates (2).  Hybrid tower foundation according to either of claims 01 or 07, characterized in that it comprises a door (7) for accessing the internal area of the hybrid foundation (1), wherein said access door (7) is present. in at least one intermediate structure present next to at least one of the vertical plates (2).