FR2736662A1 - Anti-seismic building foundation using recycled waste materials - Google Patents

Abstract

The foundation is formed by a supporting slab (1) of relatively large thickness formed of a shock-resistant material and having rounded lower edges (6). A series of shock-absorbing anchor pins (2) are embedded in the ground surface to support the slab on their upper surfaces via intermediate ball bearings (8) made of composite recycled material. The slab is more than 1.2 metres thick and formed of a composite material including a high proportion of scrap metal. The anchor pins are formed of plastics material, e.g. recycled waste plastics. The building structure is supported on top of the slab via further ball bearings (3) formed of elastomeric material or stainless steel.

Description

ANTI-SEISMIC FOUNDATIONS FOR BUILDINGS
The present invention relates to earthquake-resistant foundations for buildings.

 They are intended to allow the construction of constructions meeting the anti-seismic regulations in force in the regions presenting risks of earthquakes, and applies in particular to constructions for residential use on one or two levels.

 The anti-seismic processes implemented to date are most often based on the use of elastic or sliding elements interposed between the framework and the foundations and allowing movement of the building relative to the ground. These methods, in addition to generally only absorbing tremors limited in amplitude and in duration, prove to be very ineffective for light constructions such as individual houses, very common in many regions with high seismic activity. .

 The anti-seismic system described in patent NO FR 2 691 740 uses two superimposed floating slabs of reinforced concrete poured into plastic tanks playing the role of lost formwork, the lower slab resting on hemispherical damper-balancers anchored in the ground and fitted with vertical axis ball bearings in the upper part, the upper slab resting on the lower slab by means of rollers, the building being moreover provided with double front walls, the external wall being integral with the lower slab, and the inner wall being carried by the upper slab, and resting at its upper periphery on the outer wall by means of separation devices with metal rollers.

 This system, mainly intended for light constructions, puts a heavy burden on the cost of production because of its complexity, the price of the materials used and the time necessary for its implementation.

 The device according to the present invention, which consists of an improvement of the aforementioned patent, aims to remedy these drawbacks. It allows the realization, with relatively simple site means and at a competitive price, of constructions absorbing earthquakes of low amplitude and relatively high frequency, and perfectly resistant to large earthquakes.

 It consists of a very thick slab, greater than 1.2 meters, made with recycled materials, and in which are embedded skittles anchored in the ground provided at their upper part with balls intended to support said slab, the latter bearing the actual construction by means of balls of composite material loaded with waste.

In the appended drawing, given by way of nonlimiting example of one of the embodiments of the subject of the invention:
FIG. 1 is a partial vertical schematic section of a building comprising foundations in accordance with the invention, showing the various constituent elements,
A construction produced according to the present invention consists of a floating structure carried by a dual-function foundation system consisting on the one hand of a support slab 1, of great thickness, determined to absorb weak tremors and vibrations, comprising shock absorbing skittles 2 embedded and anchored in the ground and, on the other hand, in a series of balls 3 carried by said support slab and on which rests the lower slab 4 of the construction 5 proper and allowing the latter to suffer without damage tremors of high amplitude, thanks to the possibility of significant lateral displacements.

 The support slab 1, with a thickness greater than 1.2 meters, is disposed at the bottom of the excavation. It is made from recovered materials comprising a high proportion of scrap and an appropriate binder, and is characterized by rounded lower peripheral edges 6.

 The shock absorbing pins 2 are made of recycled plastic made from industrial and commercial waste. They are housed in cells 7 with a concavity directed downwards provided in the support slab 1, and have at their upper part balls 8 which can move in horizontal hollow raceways 9, arranged on top of the damping keels as well as 'at the bottom of the cells 7, and whose section is calculated to form a slowdown curve and limit the movement of the balls. These can have several different diameters for the same construction. Their size, as well as their physical characteristics will be determined according to the size and weight of the building, the site situation and the result to be achieved. An advantageous solution is to use composite material balls loaded with recycled waste placed between smaller diameter steel balls.

 The balls 3 located between the support slab 1 and the construction 5 may be made of stainless steel for relatively heavy buildings but will preferably be made of an elastomer also loaded with recycled waste.

 The system described above applies both to conventional constructions and to embodiments of the type comprising a double external wall with the internal wall 10 equipped at its upper part with a reinforced heel 11 bearing on the external wall 12 of which it is separated by a metal roller 13, for example. In this case, the support slab 1 comprises a peripheral reading intended to carry the exterior wall 12.

 Thanks to its low production cost due to the systematic use of recovery materials, and to its capacity to filter weak shakes while ensuring good resistance to large earthquakes, the system which has just been described is particularly well suited the creation of individual housing projects in all regions presenting earthquake risks.

 The positioning of the various constituent elements gives this process a maximum of useful effects which had not been obtained to date by similar processes.

Claims (5)

 10. Earthquake-resistant foundations for buildings allowing the construction of constructions meeting earthquake-resistant regulations, in particular in regions subject to frequent earthquakes,  characterized by the combination of a very thick support slab (1) made of recycled materials and comprising rounded lower peripheral edges (6) as well as shock absorbing keels (2) embedded and anchored in the ground, arranged at the bottom of excavation and carrying the lower slab (4) of the construction (5) proper by means of balls (3) allowing the building to undergo without shaking of large amplitude, thanks to the possibility of significant lateral displacements, the slab support (1) being determined to absorb weak jolts and vibrations.  20. Foundations according to claim 1, characterized in that the support slab (1) has a thickness greater than 1.2 meters.  30. Foundations according to any one of the preceding claims, characterized in that the support slab comprises a high proportion of scrap.  40. Foundations according to any one of the preceding claims, characterized in that the damping skittles (2) are made of recycled plastic made from industrial and commercial waste.  50. Foundations according to any one of the preceding claims, characterized in that the damping pins (2) are housed in recesses (7) with concavity directed downwards formed in the support slab 1, and comprise at their part upper of the balls (8) which can move in horizontal hollow raceways (9), arranged on top of said damping pins as well as at the bottom of said cells (7), and whose section is calculated to form a deceleration curve and limit the movement of the balls.  60. Foundations according to claim 5, characterized in that the balls (8) of composite material loaded with recycled waste are disposed between balls (8) of smaller diameter steel.  70. Foundations according to any one of the preceding claims, characterized in that the balls (3) located between the support slab (1) and the construction (5) are made of elastomer loaded with recycled waste.  80. Foundations according to any one of claims 1 to 6, characterized in that the balls (3) located between the support slab (1) and the construction (5) are made of stainless steel.