FR2948952A1 - Prefabricated dwelling, has consecutive modules integrated to each other by adjacent flanks, and central zone forming open patio with external medium, and covered space is provided around central zone - Google Patents

Abstract

The dwelling has consecutive modules integrated to each other by adjacent flanks extended according to radius of a crown portion, so as to define a central zone and a covered space. The central zone forms an open patio with an external medium, and the covered space is provided around the central zone. The covered space is subdivided into an internal zone in the form of a corridor in a juxta position to the patio of the central zone and another internal zone constitutes a living space surrounding the former internal zone opposite to the patio.

Description

The invention relates to the construction of a prefabricated habitat from juxtaposed modular elements, which habitat in top view describes a crown or a portion of a crown or a geometry approaching a portion of crown (drawing 1/6 Figures 1, 2), thus providing in its center a first central area forming an open patio with the outside environment. During this description, we will call (Z 1) this central area forming a patio. [0002] A classic individual dwelling offers an intimate space that makes it possible to protect oneself from too much promiscuity with the neighborhood. This space is traditionally covered and is contained by the very body of the habitat. A variant of this classic individual habitat consists in giving the body of the habitat a geometry that in view from above, closes partially or completely, thus describing in addition to the inner interior space, an intimate outer space (Z 1). The increase in the densification of building zones, suggests that in the future, the habitats that will offer an intimate outdoor space (Z1) respond particularly well to an ever increasing problem of promiscuity. And for economic reasons, the advantage will be given to prefabricated habitats, hence the object of the invention. The object of the invention is to obtain a habitat providing an intimate outer space (Z 1) by assembling prefabricated modular elements in such a way that these prefabricated modular elements, which we will call modules (A) and modules (B), are of elementary geometry as simple as possible and in surface and volume ratios corresponding to optimal habitability. The economic objective of the invention is to limit the number of different geometries of modules while obtaining a large number of different architectural solutions offering an intimate outdoor space (Z1). As a result, the description of the invention will only develop the definition of two different geometries of modules: module (A) and module (B). But on this point, the invention is not limiting and one can imagine 3, 4 or more geometries of modules contained in the invention. During this description, we will call module (A) (drawing 2/6 figures 3, 4) a module of a floor area of about 15m2, whose geometry in top view of the habitat is a polygonal ring portion of an angle (a °) of about 30 degrees, a crown portion between a radius (r) of about 2m and a radius (R) of about 8m and therefore, the long side of which is of length (X) = Rr of about 6m. During this description, we will call module (B) (drawing 2/6 figure 5 and drawing 3/6 figures 6) a module of a ground surface of approximately 12 m 2, whose geometry in top view of the habitat is rectangular and whose short side is of width (y) of about 2m and the long side is of length (X) identical to the length (X) of the side of a module (A ). In addition the vertical flanks (S) of basic length (X) of a module (B) fit perfectly to the vertical sides (S) of basic length (X) of the modules (A). These modules (A) and (B) are intended to be placed on piles or on any other form of foundation. These modules (A) and (B) are intended to be assembled together by the approximation of their vertical flanks (S). The method of assembling together the various modules (A) and (B) is not part of the invention, it will not be described. These modules (A) and (B) assembled together develop a living space that can be subdivided by the establishment of partitions (G) to the right of the vertical flanks (S), junction of the various modules (A) and (B) (drawing 1/6 figure 2). The various constituent parts of the modules (A) or (B) are various prefabricated boxes: floor boxes (CS), wall (CM), roofs (CT1, CT2 ... CT5), mezzanine (me ) and internal partitions (CI, G). During this description, we will call them caissons (drawing 1/6 figure 2, drawing 2/6 figure 3, drawing 3/6 figure 6). Some of these boxes are common to the modules (A) and (B), others are dedicated to modules (A) or modules (B). Some of these boxes can be pierced with functional openings such as 55 windows, doors, etc. Preferably, these boxes are individually prefabricated in the workshop but for ease of transport, the assembly between these boxes is on the site. Composed of the various boxes, the modules (A) or (B) can be pre-assembled on site on a preparation area, then moved to be assembled to 60 others on the foundation provided to accommodate them. We then obtain a habitat, sum of several modules (A) and / or (B). We can also assemble the various boxes directly on the foundations, which by another logic or assembly path, leads to the same final result. Each module (A) or (B) consists of two distinct zones: a corridor having a width of approximately 1.2 m between the axes (y1) and (y2) called zone (Z2) and a surface to live between the axes (y2) and (y3) called zone (Z3). Note: the partition 2948952 -3- vertical on (y2) which materializes the separation between the corridor and the living room may be missing or pierced by a door for example. Assembled n times between them, the modules (A) or (B) have a continuity of the corridor portion (Z2) between the axes (y1) and (y2) and a continuity of the part to be lived (Z3 ) between the axes (y2) and (y3). In all cases where the number of modules (A) is sufficient to obtain the area (Z1) sought, the habitat obtained is broken down into three substantially concentric areas: - a central outer space more or less closed on him- same and considered as 75 intimate outer space: zone (Z 1). - An inner peripheral corridor: Zone (Z2), allowing the distribution of the various rooms and a direct passage for each of these rooms to the zone (Z1). During the mild seasons, this corridor can advantageously be used as an open passageway around the zone (Z1). 80 - a living space: zone (Z3), concentric and peripheral to the zones (Z1) and (Z2), capable of being subdivided into various distinct rooms by the setting up of various partition boxes (G) (drawing 1 / 6 Figure 2, Drawing 4/6 Figures 9 and 10, Drawing 5/6 Figures 11, 12 and 13). In the particular case where one would only use an assembly of n modules 85 (A) and from n = 6, the habitat thus obtained offers in its center a zone (Z1) with a diameter of 4m. about for an outside habitat diameter of about 16m. The alignment of modules (B), does not offer the advantage of concentric zones (Z1), (Z2) and (Z3) (drawing 4/6 Figure 8), the module (B) appears in the invention only as a geometric complement of the module (A) allowing the architect 90 a wider field of constructive possibilities (3 examples in the drawing 5/6 Figures 11, 12 and 13). The architect can then design only by an assembly of modules (A) and (B) a large family of different but coherent architectural solutions responding for many to obtain the desired area (Z 1).

95 We will call this habitat family Habitats (AB) (drawing 4/6 figures 9 and 10, drawing 5/6 figures 11, 12 and 13). If n is the number of modules (A) or (B) used for the construction of a habitat (AB), and limited for example to n less than or equal to 10, the architect has mathematically 2048 combinations possible of different assemblages in a coherent architectural style. Nevertheless, of these 2048 possible solutions, a certain number do not tend to close on themselves and therefore do not offer the desired singularity (Z1) (drawing 4/6, FIG. 5 modules (B), the habitat loses the advantage of the zone (Z1). However, it is considered that the invention covers all possible solutions 105 since all arise from an assembly of modules (A) or (B) which, they are covered by the invention. Depending on the height (h) selected for the modules (A) and (B) and depending on the geometry of the roof boxes, it is possible to arrange spaces mezzanine (me) that can browse the n modules of a habitat (AB) (drawing 2/6 figure 3 where one sees a module (A) equipped with a mezzanine box (me)). For economic reasons, all the caissons and modules are advantageously made using timber frame elements type fir north for example. The majority of sheaths allowing the passage of energies or fluids necessary for the operation of the habitat is implanted in the workshop in the floor boxes (CS) 115 each module (A) or (B) such that these modules can indistinctly ensure the functions kitchen, living room, bathroom, etc. At one of their ends, these sheaths mainly from the zone (Z3) are all gathered in one and the same point under a hatch (T) in the zone (Z2) between the axes (y1) and (y2). ) (drawing 3/6 figures 6). In this zone (Z2), an opening in the bottom wall of the floor box (CS) makes it possible to join a technical channel developed in the foundations or the crawl space. The technical channel developed in the foundations or the crawl space of a habitat consisting of n modules (A) or (B) contains at regular intervals n times the necessary connection elements. All the floor boxes of the modules (A) or (B) are then identically connected in the corridor zone (Z2). A hatch (T) allows access for each module (A) or (B) to access the connection area (drawing 3/6 figure 6). At any time in the life of the habitat thus constructed, it is possible to subtract or add modules (A) or (B) to one or other of the ends of the habitat to 130 adapt the latter to the needs or desires of the occupants. Note, the connection of the fluids and energies always being located at the same place in the zone (Z2), the operation of subtraction or addition of modules is advantageously simplified.

135 Description of the drawings: - Drawing 1/6 Figure 1: representation of the roof of a habitat in the form of a crown portion, comprising: - a central outside space, zone (Z1) more or less closed on itself, - a inner peripheral corridor, zone (Z2), allowing the distribution of the various 140 rooms and a direct passage for each of these rooms to the zone (Z1), - a living space: zone (Z3), concentric and peripheral to the zones (Z1 ) and (Z2). - Drawing 1/6 figures 2: representation of the roof of a habitat in the form of polygonal crown portion resulting from the assembly of 8 modules (A). A portion of a crown comprised between a radius (r) of about 2 meters and a radius R of about 8 meters and comprising: 145 - a central outer space, zone (Z1) more or less closed on itself, - a corridor inner device, zone (Z2), allowing the distribution of the various parts and a direct passage for each of these parts to the zone (Z1). - a space to live: zone (Z3), concentric and peripheral to the zones (Z1) and (Z2), capable of being subdivided into various separate rooms by the establishment of various 150 partition caissons (G). In this figure, the habitat shown is the result of the establishment of 4 partitions (G). It is cut into 5 pieces. In a clockwise direction in this figure is recognized: - a first part consisting of a module (A) with a floor area of about 15m2, - a second part consisting of 3 modules (A) of a floor surface about 3 times 155 15 m2 or about 45m2, - a third part consisting of a module (A) with a floor area of about 15m2, - a fourth part consisting of 2 modules (A) of a surface on the ground about 2 times 15 m2 is about 30m2 - and a fifth part consists of a module (A) with a floor area of about 160 15m2. - Drawingl / 6 Figure 2 ': representation of an elevation of the house of Figure 2 on a height h of about 5 meters. - Drawing 2/6 figure 3: perspective representation of a module (A) which allows to visualize the various boxes that constitute it. 165 - Drawing 2/6 figure 4: representation in plan view of a module (A). - Drawing 2/6 Figure 5: representation in plan view of a module (B). - Drawing 3/6 figure 6: perspective representation of a module (B) which allows to display: 2948952 -6- - the various caissons that constitute it and the location of the hatch (T), 170 - the location of the two distinct zones: a corridor with a width of approximately 1.2 m between the axes (y1) and (y2) called zone (Z2) and a surface to be lived between the axes (y2) and (y3) called zone ( Z3). Note: the vertical partition on (y2) which materializes the separation between the corridor and the living room may be missing or pierced by a door for example. 175 - Drawing 3/6 figure 7: perspective representation of a module (A) which allows to visualize: - the various caissons that constitute it and to recognize a vertical flank (S), - the location of the two distinct zones: a corridor of a width of about 1.2m between the axes (yl) and (y2) called zone (Z2) and a surface to live between 180 axes (y2) and (y3) called zone (Z3). Note: the vertical partition on (y2) which materializes the separation between the corridor and the living room may be missing or pierced by a door for example. - Drawing 4/6 Figure 8: representation in plan view of a linear type of habitat n = 5 of 5 modules (B). This figure shows the continuity of the zones (Z2) and (Z3) and the absence of zone (Z1). - Drawing 4/6 Figure 9: representation in plan view of a circular type of habitat n = 9 of 9 modules (A). This figure shows the continuity of the zones (Z2) and (Z3) and the presence of a zone (Z1). - Figure 4/6 Figure 10: representation in plan view of a circular type of habitat n = 190 12 of 12 modules (A). The habitat forms a closed polygonal crown with a closed zone (Z1) in its center. - Drawing 5/6 Figure 11: representation in top view of a combined type of housing n = 11 of 5 modules (A) + 6 modules (B), B + B + A + B + A + A + A + B + A + B + B. This figure shows the continuity of the zones (Z2) and (Z3) and the presence of a zone (Z1). 195 - Drawing 5/6 figure 12: representation in top view of a combined type of housing n = 8 of 4 modules (A) + 4 modules (B), B + A + A + B + B + A + A + B. This figure shows the continuity of the zones (Z2) and (Z3) and the presence of a zone (Z1). - Drawing 5/6 figure 13: representation in plan view of two adjoining habitats n = 6 of each 2 modules (A) + 4 modules (B), (B + B + A + A + B + B) + (B + B + A + B + A + B). For 200 each of the two habitats, we can read on this figure the continuity of the zones (Z2) and (Z3) and the presence of a zone (Z1). -7- - Drawing 6/6 Figure 14: representation in plan view of a circular type of habitat n = 8 of 8 modules (A). - Drawing 6/6 Figure 15: Perspective representation of a finished habitat of circular type n 205 = 8 of 8 modules (A). The increase in the densification of the building zones, suggests that in the future, the habitats that will offer an intimate outdoor space (Z 1) will respond particularly well to an ever increasing problem of promiscuity. For economic reasons, the advantage will be given to prefabricated habitats, and more precisely still to habitats which, by a repetitive juxtaposition of modules that are always identical, will make it possible to reduce production and study shots, hence the object of the invention.

Claims (10)

CLAIMS1) Prefabricated habitat constituted by the modular assembly of a plurality of modules (A, B) of constructions to form a structure having at least one portion of a crown, characterized in that the consecutive modules are joined to each other by their adjacent flanks extending along the radii of the crown portion so as to delimit two distinct zones comprising: - a first zone (Z 1) forming a central patio open with the external environment, - and a covered space arranged around the first zone ( Z 1). 2) Prefabricated habitat according to claim 1, characterized in that the covered space is subdivided into: - a second zone (Z2) internal corridor-shaped juxtaposed with the patio of the first zone (Z 1), - a third zone ( Z3) constituting the living space surrounding the second zone (Z2) opposite the patio. 3) Prefabricated habitat according to claim 2, characterized in that the third zone (Z3) has an outer circumferential periphery in the form of a circle, or portion of a circle or a geometry approaching substantially a portion of a circle. 4) prefabricated habitat according to claim 2, characterized in that the third zone (Z3) has an outer perimeter periphery polygon-shaped, or polygon portion or a geometry approaching substantially a portion of polygon. 5) Habitat according to one of claims 2 to 4, characterized in that the three zones (Zl to Z3) are concentric. 6) Housing according to one of the preceding claims, characterized in that the second zone (Z2) of the corridor is superimposed and is in communication with a technical channel in the area of foundations or crawl space. 7) Habitat according to claim 6, characterized in that the floor boxes (CS) of the second zone (Z2) serve as housing for fluidic and electrical ducts from the third zone (Z3). 8) Module (A or B) of construction for a prefabricated habitat according to one of the preceding claims, characterized in that it comprises a base composed of floor boxes (CS) carrying a plurality of vertical walls to create: - a second zone (Z2) in the form of an elementary corridor-9- - and a third zone (Z3) constituting one of the rooms or a fraction of one of the rooms of the living space. 35 9) Module (A) according to claim 8, characterized in that the trace of the base has a polygonal shape. 10) Module (B) of construction according to claim 8, characterized in that the trace of the base has a rectangular shape.