The present invention relates to buildings and is more particularly concerned with a house or building with a low-cost hurricane and earthquake resistant structure.
It is well known in the art of buildings to have the structure, or part thereof, made to be hurricane and/or earthquake resistant. However, these structures are generally so costly than only commercial or office buildings can afford to incorporate them, or even luxury villas or the like. None of these house structures are capable of being built locally directly in devastated areas where access to inexperienced labor and minimum use of expensive machining is a reality.
When nature disasters, such as hurricanes, earthquakes and the like, happen, it is not rare to see that a significant amount of typical houses or homes are at least partially, if not totally, destroyed since the owner of these houses cannot afford to include special structures to make them resistant to the nature disasters.
Accordingly, there is a need for an improved low-cost hurricane and earthquake resistant house.
It is therefore a general object of the present invention to provide an improved low-cost hurricane and earthquake resistant house.
An advantage of the house of the present invention is that it has an aerodynamic shape that makes the air resistance, drag and lift forces will be drastically lower compared to the other more conventional shapes of the house construction.
Another advantage of the house of the present invention is that it has a structure with lateral and frontal stability to strong winds because the circular wall is freely inserted in the ground with the support of the groove and rigid poles.
A further advantage of the house of the present invention is that it has a vertical stability of the structure during hurricane because of the weight of the structure and aerodynamic shape of the roof and the in ground shock absorbers of the poles.
Yet another advantage of the house of the present invention is that it has a good resistance to an earthquake because of the fact that the outside wall is inserted in the ground with the help of a concrete groove and shock absorbing poles rather than being anchored. This earthquake resistance is enhanced because the floor and the wall are structurally independent from one another and will produce independent movement on the respective shock absorbers.
Another advantage of the house of the present invention is that it has technologies that enable a fast reliable construction, typically directly in devastated areas, at low cost of materials, minimum use of machining tools and unskilled labor. The materials typically used for the fabrication of wall blocks are preferably locally found in nature for low cost and improved strength and resistance.
Yet a further advantage of the house of the present invention is that it has an aerodynamic roof shape that minimizes the effect of winds, especially high velocity winds, on the structure of the house. Such an aerodynamic roof, when being concave, further allows the collection of rain water for recycling as well as an opening for air intake and exhaust from the house.
According to an aspect of the present invention there is provided a low-cost hurricane and earthquake resistant house, said house comprising:
Other objects and advantages of the present invention will become apparent from a careful reading of the detailed description provided herein, with appropriate reference to the accompanying drawings.
Further aspects and advantages of the present invention will become better understood with reference to the description in association with the following Figures, in which similar references used in different Figures denote similar components, wherein:
a is a schematic top perspective view of a block of the wall segment of the house;
b is a view similar to
With reference to the annexed drawings, in most of which many parts have voluntarily been omitted for clarity purposes, the preferred embodiments of the present invention will be herein described for indicative purpose and by no means as of limitation.
Referring to
The structure of the house 10 includes a round shaped aerodynamic, typically circular (or elliptical) wall 12 (when seen from the top) formed of a plurality of vertical wall segments 13 located adjacent one another. Elongated rigid vertical structural studs 14 (poles or posts) or the like, encapsulated in the wall 12 and supported at their base with respective shock absorbers 16 (of any type usually known in the art) at least partially inserted in the ground 18 act as a support for the wall 12 of the house 10, as shown in
A foundation structure 20 in a form of circular (or elliptical) pattern 22, typically grooved, acts as a support for the wall 12 of the house 10. A gap between the internal and external surfaces of the wall 12 and the corresponding facing internal surface of the groove 22, or pattern, is required to prevent any direct external environmental stress onto the wall structure 12, especially during earthquakes and the like natural disasters, and allow the free support of the wall structure 12. Obviously, this gap could be filled with any soft insulating and/or isolating material or the like which would not transmit any load from the foundation structure 20 to the wall 12.
Similarly, the studs 14, to reach the corresponding shock absorbers 16, typically freely extend through the foundation structure 20 without directly contacting the structure 20 to allow for relative movement there between in case of earthquakes or the like natural disaster and thermal expansion and contraction differentials. Obviously, the space between the studs 14 and the foundation structure 20 could be filled with a relatively flexible material insert 22′ or the like that essentially closes the space while keeping the two structurally disconnected from one another.
Fiber-formed (or the like) flexible container 23, or outer-shell, with poured concrete-type settable filler and horizontal 26 and vertical 28 elongated members or rods (at least one of each, preferably two of each one) extending at least partially there through acts as a construction block 24, of a typically quadrilateral prism shape, preferably a rectangular right prism shape (as a conventional brick) which is held together (with another upper and/or lower block 24) by cement 30 and reinforced by clamping joints 32 between elongated members 26 and the adjacent studs 14, as shown in
In order to have a stronger structure, each block 24 may contain reinforcing material, of the same material than the outer-shell 23 or any other similar material, as a block composite fiber.
Although not specifically shown, the clamping joints 32 and spaces between construction blocks 24 are typically filled with concrete settable material or the like to enhance the strength, durability and aesthetic of the wall 10.
An aerodynamic roof 34 is built on specific supports (not shown) inserted on the upper ends of the studs 14.
Vegetation like grass 35 or the like or photovoltaic cells 37 can be placed on the surface of the roof 34 (see
Windows 36, preferably curved or multi-planar or segmented (although not necessarily required), are placed to locally conform to the outside shaped surface 38 of the wall 12 in order to provide water proof contact and aerodynamic quality of the overall external wall 12. The also preferably curved, and preferably sliding (could also be hinged), doors 38 are also placed to locally conform to the outside surface 38 of the wall 12 in order to provide water proof contact and aerodynamic quality to outside wall 12 of the house 10. Although not shown, similar windows and doors could be used on the inside of the wall 12 of the house 10 for enhanced security.
The floor 40 is typically supported above the ground 18 with shock absorbing mechanisms 42 or the like, as shown in
The gap between the edges of the floor 40 and inside surface 44 of the wall 12 is typically filled with flexible water proof material structure 46, such as membranes or the like, to prevent water and humidity from flowing there through, and prevent any to access there through to insects, small animals and the like.
Inside separate walls (not shown) are typically suspended from the ceiling 34 or erected from the floor 40 to divide inside space of the house 10 into separate rooms. Similarly, sanitary and kitchen equipment (not shown) can be chosen and installed from a variety of equipment available or could be custom build.
Ventilation (not shown) could be provided by wall vents, roof vents or ground vents (not shown). The design and construction of these vents shall not decrease the aerodynamic quality of the house 10.
The shock absorbers 16, and the shock absorbing mechanism 42, are made of a filer material that relatively rigid, not destructible over time and/or weather conditions (no fatigue and/or deformation over time, over the life expectancy of the house 10).
The above technology elements could be used for a small aerodynamic circular one wall house (
Another example of an embodiment 10″ of an elliptical house of the present invention with an aerodynamic roof 34″ is shown in
Although the present invention has been described with a certain degree of particularity, it is to be understood that the disclosure has been made by way of example only and that the present invention is not limited to the features of the embodiments described and illustrated herein, but includes all variations and modifications within the scope and spirit of the invention as hereinafter claimed.
This application claims priority of U.S. Provisional Application for Patent No. 61/573,051 filed Aug. 19, 2011, the content of which is incorporated by reference herein in its entirety.
Number | Date | Country | |
---|---|---|---|
61573051 | Aug 2011 | US |