CA3235819A1 - Beam or post for a construction system - Google Patents

Abstract

The invention relates to a hollow beam or post for a construction system, the beam or post comprising a core element (A) formed of a straight hollow central element (7) having a cross-section provided with four diametrically opposed hollow outer projections (1) in the shape of outwardly flaring dovetails, which are arranged crosswise. Said four hollow outer projections (1) have narrowed inner ends (2) which are spaced apart from the narrowed inner ends of the adjacent hollow outer projections and are connected by segments (3) of the hollow central element (7). Four straight hollow surrounding elements (B) are assembled around the core element (A) to form a square surrounding the core element (A), the four surrounding elements (B) having an inner cross-sectional shape that is complementary to the four diametrically opposed outer projections (1) of the core element (A).

Description

BEAM OR POST OF A CONSTRUCTION SYSTEM
The present invention relates to a beam or post of a system of construction in particular for a module of a building, a dwelling or a garage, or furniture, the main elements of which may be made of material plastic, in particular made of recycled plastic or recycled wood, or any other object constructed by the assembly of this construction system whose elements can be made of plastics and/or composites.
JPS4989010U describes a system for constructing a shelf composed of a core element formed of a central rectilinear profiled element, and elements of rectilinear surroundings which come to assemble around the core element in correspondence with its profile, forming a square which surrounds the core element.
These elements are made of synthetic resin, a metallic material or similar, mold fully to a suitable length by stretching. This system of construction comprises a column in the form of a square pillar of rectangular shape on which of the grooves are arranged at the four corners. The construction system includes in in addition to four solid front plates each having at each end a board inclined arranged to slide into the grooves at the four corners of the pillar square. A
shelf board can be attached to the faceplate by through-hole screws the plaque front through a through hole. The aim of this system is not to to leave reveal the screws that support the shelves.
This type of construction is designed for furniture whose load supported is very limited and cannot under any circumstances be used in a system of construction for a house. The load that should be taken into account for the realization of a floor of a home (instead of a shelf) would require a board width of support too thick, without guaranteeing the solidity of the building. It would be the same for the construction of the walls which constitute the framework of a building and which must also resist wind to very strict standards. SO, the application of this system is very limited.
EP3781754, on behalf of the applicant, describes a system for constructing a module of a building, comprising a plurality of core construction elements which includes each in section a solid cross having two main arms of length equal, the

2 main arms intersecting at mid-length at right angles. Each element of construction core presents a plane of symmetry around the axes of each main arm, arms main optionally ending at their ends with parts transversal including the length is less than the length of the main arms. The cross solid central is surrounded by a plurality of construction elements surrounding the elements nuclei.
Each surround element is composed of four partial surround parts Who come to assemble around a core element. The surrounding parts partial are solid and each have a section essentially of an isosceles triangle-rectangle comprising a long side and two inclined sides which form a right angle.
The fourth partial surrounding parts, once assembled, are arranged with their long side to the exterior and the sloping sides ending with the right angle on the interior towards the center of the cross of a core element, thus forming a square which surrounds the cross of the core element, these partial triangular surrounding parts comprising openings and/or of the cutouts that surround the cross of the core element.
Such a construction system is easy to assemble and robust.
The present invention proposes a beam or a post making it possible to achieve a construction system whose assembly, for a large number of buildings, East simplified and even more rigid with an even smaller number of parts standardized to constitute the construction elements.
The present invention therefore makes it possible to optimize and rationalize the use of the beams or posts, benefit from the best ratio for modularity architectural, as well than for structural efforts.
Another aim of the present invention is to provide a beam or a post making it possible to create a lightweight construction system whose assembly, for A
large number of buildings, is simplified and even more rigid with a number Again much smaller number of standardized parts to constitute the elements of construction.
In accordance with the invention, these goals are achieved thanks to a beam or a hollow post of a construction system, the beam or post comprising A
core element formed of a central rectilinear profiled hollow element, and elements of rectilinear surroundings which come to assemble around the core element in correspondence with its profile, forming a square which surrounds the core element.

3 The core element formed of a rectilinear hollow central element is provided with Cup of four diametrically opposed external hollow protuberances in the shape of tail dovetails flared outwards and arranged in a cross, these four protrusions external hollows having closely spaced internal ends which are spaced apart of the internal ends close together of adjacent external hollow protuberances And are connected by segments of the hollow central element. The elements entourage rectilinear are hollow and each have an internal wall whose internal shape East complementary to the four diametrically opposed external protuberances of the core element and its segments when the rectilinear surrounding elements are coming assemble around the core element.
In one embodiment, an internal end of a hollow protuberance external of the core element is connected, by an extension of a segment of the element central hollow, at the opposite external end of this hollow protuberance external.
According to this form of execution, each surrounding element comprises two internal hollow projections which engage around the shape in tail dovetail of one of the diametrically opposed external protuberances of the element core, the internal hollow projections of two adjacent surrounding elements filling the space around a segment of the hollow central element and between two adjacent hollow protuberances of the core element.
In another embodiment, an internal end of a protuberance external hollow of the core element is connected, by an extension of a segment of the hollow central element, at the opposite internal end of this protuberance dig external.
Preferably, the internal hollow projections of each surrounding element are carried by a part which forms an essentially rectilinear side external of the beam or post.
According to this preferred form of execution, said part which bears the internal projections of each surrounding element has flanks inclined provided on one side with a projection and on the other side with a recess, this projection on the inclined side of a part inserted into the depression on the inclined side of an adjacent part when the beam or column is assembled.

4 Still according to this preferred form of execution, the part which bears the internal projections of each surrounding element has an external face rectilinear with recesses, this external face defining each side, with its inclined side, an opening which extends along the beam or the post.
In one embodiment, the part which carries the internal projections of each surrounding element has a plurality of openings which extend along of the beam or post and which are capable of receiving inserts for unite two end-to-end beams or posts.
According to this embodiment, each insert has a rib arranged to block the insert inserted in an opening in the surrounding element.
Associated with an elongated profile shape, in section, essentially rectangular with two projections on one side and a recess on the side opposite, the projections are arranged to assemble on the external face straight of an element surrounding the beam or post with its recesses.
According to another embodiment, each core element is associated with two rectilinear surrounding elements which come together around the element core forming a square. Each of the two rectilinear surrounding elements comprises a internal wall which, when the rectilinear surrounding elements come assemble around the core element, covers two external protrusions of the element central hollow as well as the segment which connects these two external protuberances.
According to this embodiment, the internal wall of each surrounding element rectilinear comprises a plurality of external hollow profiles arranged to the exterior of internal wall, These external hollow profiles cover the external protuberances Thus as the segment which connects these two external protuberances. In this case, the profiles external hollows associated with two external protuberances of a surrounding element rectilinear can be spaced from one another to together constitute a side essentially rectilinear external part of the beam or column.
The present invention also relates to a set of several beams or hollow posts of a construction system, comprising a plurality of beams all of the same length and a plurality of posts all of the same length.

It is during assembly, particularly for posts, that the dimensions will be adjusted according to the structure to be assembled.
The invention also relates to an assembly of several beams or hollow columns of a construction system, in which at least one beam or At less a post is reinforced by an inserted cylindrical or tubular piece in the hollow of the central element of a core element.
Preferably, the beams and/or posts are assembled end-to-end by inserts inserted into the ends of the openings which extend along of the surrounding elements.
In multi-story structures, two adjacent sides of a central column are each fixed to another post, the height of the construction being determined by the length of the central post.
According to the present invention, the constructions can be done according to 6 directions (up, down, left, right, front, back).
The characteristics of the invention will appear more clearly on reading of the following description of several forms of execution given only to title example by referring to the schematic figures, in which:
- Figure 1 a perspective view of a post or a beam according to the present invention;
- Figure 2 represents a partial view of a shaped reinforcing element tubular;
- Figure 3 represents a partial perspective view of an element core central;
- Figure 3 'represents a top view of another type of core element central;
- Figure 4 represents a partial perspective view of a profile support intermediary;

- Figure 5A represents a partial view of a hollow surrounding element rectilinear;
- Figure 5B represents a partial view of a variant of an element rectilinear hollow surround;
- Figure 5C represents a top view of another variant of a rectilinear hollow surrounding element;
- Figure 6A represents a perspective view of an insert;
- Figure 6B represents a perspective view of a tube bracket;
- Figure 7 represents a perspective view of a construction module assembled;
- Figures 8A, 8B and 8C each represent a subset of the construction module of Figure 7;
- Figure 9 represents a perspective view of a construction module basic ;
- Figure 10 represents a perspective view of an assembly of four basic building modules;
- Figures 11A and 11B represent a perspective view of a floor arranged to be placed in a building according to the present invention;
- Figure 12 shows a perspective view of a floor reinforcement;
- Figures 13A, 13B and 13C each represent a sectional view of a floor profile of Figure 11;
- Figure 14 represents a perspective view of a floor arranged between beams; And - Figures 15A, 15B, 15C and 15D represent accessories for the fixing the posts;

- Figures 16A and 16B represent a front and perspective view of a profile type D;
- Figures 17A and 17B represent a perspective view and a view of side of a fixing element between two posts or beam;
- Figure 18 shows a perspective view of a profile end piece;
- Figure 19 represents a partial view of beams assembled by fixing elements;
- Figure 20 represents an exploded view of fixing elements and of profile ends arranged to fix and receive beams according to the present invention;
- Figure 21 represents a partial perspective view of an assembly according to the present invention;
- Figure 22 represents a perspective view of an assembly with a part of floor and part of wall;
- Figure 23 represents a simplified and lighter version of an element of beam with two complementary elements assembled together;
- Figure 24 represents a perspective view of a simplified version And lightened with a beam element;
- Figure 25A represents a perspective view of a profile end piece For lightweight structures;
- Figure 2513 represents a perspective view of a fixing element between two posts or beams for lightweight construction; And - Figure 26 represents a perspective view of an assembly of a lightweight structure using the profiles in Figure 23.
The invention proposes a hollow beam or post of a construction system.

As shown in Figure 1, the beam or column has a core element A formed of a rectilinear hollow central element 7 provided in section with four external hollow protuberances 1 diametrically opposed in the shape of a tail dovetails flared outwards and arranged in a cross, these four protrusions hollow external 1 having close internal ends 2 which are spaced from internal ends close together of adjacent external hollow protuberances And are connected by segments 3 of the hollow central element.
The beam or post has four rectilinear hollow surrounding elements B which come to assemble around the core element A forming a square which surrounded the core element A, the four surrounding elements B having a cross-sectional shape internal complementary to the four external protuberances 1 diametrically opposites of the core element A.
As illustrated in Figure 3, an internal end 2 of a protuberance dig external 1 of the core element is connected, by an extension 4 of a segment 3 of the hollow central element, at the opposite external end 5 of this protuberance dig external 1.
Figure 3 'represents a top view of another type of core element central. In this execution, an internal end 2 of a protuberance dig external 1 of the core element is connected, by an extension of a segment of the element central hollow, at the opposite internal end of this hollow protuberance external 1.
This form of execution further strengthens the structure of the core element.
Figure 4 illustrates an intermediate support profile D arranged to be partner to a beam or post. The elongated profile D, shaped, in section, basically rectangular is provided with two projections 15 on one side and a recess 16 of the opposite side, the projections 15 are arranged to assemble on the face external rectilinear of a surrounding element B of the beam or post with its recesses 10A, 10B. In this example, an additional reinforcement 25 is agency on the projection 16 so as to reinforce the profile D on all or part of its length depending on the length of said additional reinforcement 25.
As illustrated in Figure 5A, each surrounding element B has two internal hollow projections 6 which engage around the shape in tail dovetail of one of the diametrically opposed external protuberances of the element core A (see figure 1), the internal hollow projections 6 of two elements surrounding B adjacent filling the space around a segment 3 (see figure 3) of the hollow central element and between two adjacent hollow protuberances 6 of the element core.
As illustrated in Figures 5A and 5B, the internal hollow projections 6 of each surrounding element B (Figure 5A) are carried by a part 10 which form a essentially straight external side of the beam or column.
Figure 5C represents a top view of another variant of an element rectilinear hollow surround, or profile B, with three aligned elements to a even more simplified construction.
Part 10 which carries the internal projections of each surrounding element B

comprises inclined sides 8, 9 provided on one side with a projection 8A and with the other side of a recess 9A, this projection 8A on the inclined side 8 of a piece coming insert into the recess 9A on the inclined side 9 of an adjacent part when the beam or column is assembled.
Part 10 which carries the internal projections 6 of each surrounding element B has a rectilinear external face with recesses 10A, 10B, this face external defining on each side, with its inclined side 8, 9, an opening 10A', 10B' which extends along the beam or column.
Part 10 which carries the internal projections 6 of each surrounding element B has a plurality of openings 11 which extend along the beam or post and which are capable of receiving inserts 12 (see Figure 6A) for unite two end-to-end beams or posts.
Each insert 12 has a rib 13 arranged to block the insert 12 inserted in an opening 11 of the surrounding element B.
As illustrated in Figure 5B, a variant of a hollow surrounding element rectilinear allows inserts to be inserted and ensure continuity between two beams or posts without it being interrupted, in particular thanks to the groove 14 arranged in the opening 10A, 10B which extends along the beam or the post.

The beam or post, associated with an elongated profile D of shape, in section, essentially rectangular provided with two projections 15 on one side and one recess 16 on the opposite side, the projections 15 are arranged to assemble to the rectilinear external face of a surrounding element B of the beam or post with its recesses 10A, 10B.
As shown in Figure 7, a set of several beams or columns hollow of a construction system comprises a plurality of beams all of the even length and a plurality of posts all of the same length.
In a variant, the system according to the invention usually comprises a plurality of core construction elements 1 and a plurality of core elements surround construction 2 of core elements, each of a standard length Or in several standardized lengths.
When assembling a structure, and for better reinforcement at least one beam or at least one post is reinforced by a cylindrical piece or tubular 17 (see Figure 2) inserted in the hollow 7 of the central element of an element core A, thus than a tube bracket 21 (see Figure 6B). The tube bracket 21 includes Besides four blades arranged to fix in grooves of surrounding profiles b.
An assembly of several beams or hollow posts of a system of construction according to claim 11, in which beams and/or posts are assembled end-to-end by inserts 12 inserted into the ends 11 of the openings which extend along the surrounding elements (B).
As shown in Figure 7, the two adjacent sides of the central post in corner are each fixed to another post, the height of the construction being determined by the length of the central corner post.
As part of the use of beams or posts for a home, it East important to take into account the fact that the standard spacing between two posts is of 325 cm, and the standard spacing between the beams, thus defining the height is 280 cm.
As shown in Figure 9, the constructed module is a square of 740 cm to which it is necessary to add 15 cm of external insulation or 755 cm of side with a post central intermediate under the beams 325 cm from the corner posts, this configuration provides a living area of 50.4 m2 with a single post central to space, the other posts and beams being in the walls.
In this example, the standard module is built with ten 680 cm beams and nine posts (five intermediate posts of 280 cm and four posts of 340cm) which represents a total of 95.6 meters of A profiles, 382.4 meters of B profiles and 22.4 meters of D profiles.
As illustrated in Figures 16A, 16B and 19, the profile D' has a slight modification compared to profile D illustrated in Figure 4, in particular for stick completely with the elongated profile B and constitute a more solid structure.
The profile elongated D' is provided with two projections 15 on one side which are in contact direct with a surrounding element B without there being any space between the two pieces and would have with the effect of weakening the assembled structure.
Thus, a neighboring standard module sharing a face represents 77.8 meters of A profiles, 311.2 meters of B profiles and 16.8 meters of D profiles.
In the same way, the ratio improves as we share of the surfaces, so that a standard floor module sharing a ceiling/floor represents 61.6 meters of A profiles, 246.4 meters of B profiles and 22.4 meters profiles D.
Based on the previous information, a construction, for example a house of 151.2 m2 made up of three standard modules, two side by side and THE
third on the floor represents: 235 meters of A profiles, 940 meters of profiles B and 61.6 meters of D profiles, which represents a total of 1236.6 linear meters profiles.
This standard configuration is given as an example only and the dimensions can vary without causing structural problems.
In the example illustrated in Figure 10, an assembly of four modules of basic construction allows you to extend the living space by making a economy on the number of posts/beams per square meter, in particular by the fact that it is not useful to split the posts at each junction between two base modules.

In the example illustrated in Figure 7, the construction can be self-supporting on piles, pillars or raft.
The construction system induces standard A, B and D profile lengths allowing pre-assembly into post units, intermediate posts, beams, 1/2 beams for faster assembly, but this pre-assembly is suitable mainly two-level structures (ground floor + one floor).
For higher configurations, such as the one illustrated in figure 7, or requiring posts and/or beams longer than 1/2 beam of 340 cm, the assembly was designed in such a way as to allow it to constitute a post or a beam by alternately assembling sections A and B of length intermediate like puzzle pieces. This assembly makes it possible to obtain a post or a continuous beam thus making it possible to avoid fragile areas of connection, respecting the right distances between the interruption of one or the other of five profiles, the post or beam retains all its structural homogeneity.
In order to further strengthen the connections between interrupted profiles of the standard housing has been planned in the design to accommodate ends of profiles (aluminum) standard U-shaped or inserts 12.
Profile A and profile D have been designed to receive reinforcement tubes (in steel or composite protrusion) thus allowing if necessary to stiffen beam or the post as well as the continuous post and beam assemblies, guaranteeing increased strength at structural corners.
To construct a building with five habitable floors + roof, an assembly original was developed, the assembly consisting of the nesting of three structures of two floors to make six levels, each of the three structures independent structurally apart from each other, although connected by their own posts in corners. This assembly fully respects the configuration of the standard module and does not exchange in no way the living space of 51.2 m2.
Thanks to this assembly, the five superimposed floors + roofs present the structural forces and moments equivalent to those of two modules superimposed.

This configuration fixed on a slab only slightly increases the meters linear profiles: because two of the top beams of the three structures nested rest on the tops of the posts which avoids the need for profile support D.
As shown in Figure 8C, the exterior corner structure ensures the 5th and the 6th landing with in this example a height of 18.90 meters. As illustrated in Figure 8B, the first intermediate corner structure ensures the 2nd and the 4th landing with in this example a height of 12.70 meters. As illustrated in figure 8A, the exterior corner structure ensures the 1st and 3rd landing with in this example a height of 9.60 meters.
For assembly, profiles A, B and D slide relative to each other.
others. A deliberately staggered assembly of the profiles makes it possible to avoid create some weak areas in the structure of the continuous column or beam, light and easy to handle, they are built directly during construction, like a puzzle up to the desired length or very close to it before adjustment.
The B/B and D/D profile interruptions are reinforced by the insertion of profiles standards in U and/or A and D by the tubes.
The posts or beams of the present invention can be made of material plastic, in particular made from recycled plastic or recycled wood allowing a robust construction using a reduced number of standardized parts to constitute the construction elements.
The hollow body of profiles A and B is intended for example to receive wiring or piping. It can also contribute to insulation or even to reinforcement by filling with hardened earth or cement, for example.
Thanks to the present invention, it is possible to constitute a post, or a beam of infinite length by the successive addition of sections A, B of length variable, intermittently interrupted, relative to each other, notably by the arrangement of inserts.

In order not to weaken the structure of each post or beam, a tube of reinforcement or stiffener can be arranged in the housings of the A profiles and B, in particular by sliding.
As illustrated in Figures 8A, 8B and 8C, the assembly of a building of six floors is made in this example by the insertion of two rectangles perpendicularly in a rectangle, and by the superposition of their sides In their length and/or width so that they cross without obstructing each other to form from levels to floors. The successive floors and/or ceilings of these three cubic supporting structures of variable height are nested but independent in assembled posts and beams.
Of course, the number of floors can be different from six floors and be notably much higher such as for example thirty floors.
As illustrated in Figures 11A and 11B, floors can be arranged to be arranged in a building according to the present invention. The ceilings And floors or walls are made up of a latticework of beams or posts P1, P2 which are interconnected by floor reinforcements 20.
As illustrated in Figure 12, the floor reinforcement 20 has holes through 29 to allow the passage of screws or nails arranged to fix the beam.
The floor beam or post can be of different shapes but of preference of shape, in essentially rectangular section as illustrated in Figures 13A and 13B and 13C. The beams of Figures 13A and 13B and 13C include of the openings, for example dovetail (Figure 13A) or in the form of groove in corners (figure 13B) which allow these beams to be coupled with other elements of construction.
As illustrated in Figure 14, a floor is made up of a first profile elongated P1 of shape, in section, essentially rectangular (see for example of the profiles illustrated in Figures 13A and 13B), each end of the first profile lying down P1 resting on a shoe assembly 18 (see Figures 15A, 15B and 15C) comprising a tenon 19 arranged to assemble with a recess 10A, 10B, and with a second profile elongated P2 of shape, in section, essentially rectangular, each end of second elongated profile P2 resting on a shoe assembly 18 comprising a tenon arranged to assemble with the other recess 10A, 10B of the element surround B, the first elongated profile P1 and the second elongated profile P2 being perpendicular to each other. As shown in Figure 15C, the tenon in U 19 is associated with a chamfered part 22, by screwing in this example, of so that when the screwing operation of the chamfered part 22 and tenon in U 19 causes the spacing of the two opposite lateral parts of said tenon U-shaped 19 which has the effect of blocking the tenon assembly, chamfered part shoe in the recesses 10A, 10B.
Thus, the beams have two symmetrical rails, or recesses 10A, 10B in their lengths also used to slide and position the tooling support in the form of a shoe assembly 18, 19, for holding the beams, in particular in wood, WPC, ... etc., of a floor and/or a ceiling.
In addition to constituting floors and/or ceilings, the beam posts, according to the same configuration can be arranged so as to achieve partitions internal to delimit spaces and rooms, the partitions being orthogonal by relative to a floor or ceiling.
The spaces arranged between the elongated profiles P1 and the elongated profiles P2 allow you to integrate elements necessary for the use of the room assembly, for example insulation, wiring or piping.
The upper recess 10A is used for hanging the shoe assemblies lengthwise while the bottom recess 10B serves to the hook shoe assemblies in the width direction, thus forming a lattice of joists perpendicular at regular spacing. A cross-shaped floor reinforcement 20 is designed to connect the bottom beams with the top one when they cross in order to stiffen the whole and reinforce it structurally (see figure 12).
As illustrated in Figure 19, an assembly of posts made up of four surrounding elements B, surrounding a core element A, are connected with D profiles and reinforcement brackets 27. Parts of P floors are also visible on Figure 19. In this example, the floor profiles P are connected to the structure peripheral by SP shoes as also illustrated in Figure 15D.
Such an assembly is constituted using a structure as illustrated in there Figure 20 with profile ends 28 arranged to attach to the ends of each assembled beam or post, brackets 27 arranged to maintain and reinforce the assembled structure and supports 26 which serve as a base for departure and the arrival of the beams and reinforcement pieces (see figures 17A, 17B and figure 20).
In the example illustrated in Figure 21, the assembly is done in such a way that the upper central beam B2 and the lower central beam B3 are arranged by perpendicular manner which allows the use of fewer elements of constructions without weakening the structure. In fact, the central beam horizontal upper and the lower horizontal central beam at the bottom are perpendicular and this arrangement allows, with supporting calculation, that the reinforcement profile D such as illustrated in Figure 22 is no longer useful and the resistance is ensured even in building the same building on two levels.
In the example illustrated in Figure 22, the upper central beam B2 and the beam lower central B3 are arranged in a parallel manner. In this configuration, according to this arrangement, the reinforcement profile D arranged at the ends of assembly helps to strengthen the structure. In this example, the assembly in form of a housing module comprises a wall part M and a floor part PP.
According to one embodiment for constructions with a lightweight structure as illustrated in Figure 26, a beam or column where each core element A
(No illustrated) is associated with two rectilinear surrounding elements B' come assemble around the core element A forming a square. Each one of the two elements rectilinear surround B' comprises an internal wall 23 (see Figure 23) which, when the rectilinear surrounding elements B' come to assemble around an element core A
(not shown), covers two external protrusions 1 of the central element hollow 7 so than segment 3 which connects these two external protuberances (1).
Figure 24 illustrates a part of a lightened beam. To make the beam complete, it is necessary to assemble two beams B', for example by sliding through slides arranged at the longitudinal ends of said beam B'. There figure 25 shows a 25' profile end piece for lightweight structure which once mounted consolidate the post and allows its connection with other construction elements.
In the example illustrated in Figure 23, the internal wall 23 of each element rectilinear surround B' comprises a plurality of external hollow profiles 24 arranged outside the internal wall 23, these external hollow profiles 24 covering THE
external protuberances 1 as well as segment 3 (see figure 1) which connects these two external protrusions 1 (see figure 1). Thus, the external hollow profiles 24 of a rectilinear surrounding element B' associated with two external protuberances 1 are spaced from each other and together constitute an external side basically straight line of the beam or column. In the same way, hollow profiles external 24 of two superimposed rectilinear surrounding elements B' are spaced one from the other, but in this case their separate internal walls 23 simply come together to touch.
In the example illustrated in Figure 26, such an assembly is made up of ugly of a structure as illustrated in Figure 23 with profile ends 25' arranged to attach to the ends of each assembled beam or post, brackets arranged to maintain and reinforce the assembled structure and supports 31 Who serve as a base for the departure and arrival of beams and pieces of reinforcements.
A housing module according to the present invention has the advantage of being easy and quick to assemble and complies with structural standards carriers.
In all executions, plastic material must be understood as everything material that can be recycled (PEI-ID, LDPE, PP, PET, PEF, PS, ABS, etc.). Of preferably, the recovered plastic parts can be crushed and shredded.
Once shredded, the plastic is washed then dried before being prepared for a extrusion operation. Polymers are melted by heat and a paste uniform is then obtained. After a succession of conventional steps, a grain East got. The pellets are then extracted from the extruder. Finally, the grains will be able to serve for the manufacture of construction elements according to this invention. Of even we can use shredded, crushed and recycled wood or materials recycled plastic/wood composites.

Construction elements can be manufactured by 3D printing or injection molding or other.
The construction elements can also be made of materials composites.

Claims (17)

19 1. Hollow beam or column of a construction system, the beam or column comprising:
- a core element (A) formed of a rectilinear hollow central element (7) profiled, And - rectilinear surrounding elements (B) which assemble around of the core element (A) in correspondence with its profile, forming a square which surrounds the core element (A), characterized in that the core element (A) formed of a rectilinear hollow central element (7) is provided in section with four external hollow protuberances (1) diametrically opposed in the shape of a dovetail flared towards the exterior and arranged in a cross, these four external hollow protuberances (1) having closely spaced internal ends (2) which are spaced apart from the internal ends brought closer to the external hollow protuberances adjacent and are connected by segments (3) of the hollow central element, And the rectilinear surrounding elements (B) are hollow and each have a wall internal (23) whose internal shape is complementary to the four protuberances external (1) diametrically opposed to the core element (A) and its segments (3) when the elements come together around the core element (A). 2. Beam or post according to claim 1, where an internal end (2) of a external hollow protuberance (1) of the core element is connected by a extension (4) of a segment (3) of the hollow central element, at the end external opposite (5) of this external hollow protuberance (1). 3. Beam or post according to claim 1, where an internal end (2) of a external hollow protuberance (1) of the core element is connected by a extension (4) of a segment (3) of the hollow central element, at the end internal opposite (5) of this external hollow protuberance (1). 4. Beam or post according to one of the preceding claims, where each surrounding element (B) has two internal hollow projections (6) which come to engage around the dovetail shape of one of the external protuberances (1) diametrically opposed to the core element (A), the internal hollow projections (6) of two surrounding elements (B) adjacent filling the space around a segment (3) of the hollow central element (A) and between two adjacent hollow protuberances (6) of the core element. 5. Beam or post according to claim 4, where the hollow projections internal (6) of each surrounding element (B) are carried by a part (10) which forms an essentially straight external side of the beam or column. 6. Beam or post according to claim 5, where said part (10) which carries THE
internal projections of each surrounding element (B) has flanks inclined (8, 9) provided on one side with a projection (8A) and on the other side of a recess (9A), this projection (8A) on the inclined side (8) of a part fitting into the recess (9A) on the inclined side (9) of a part adjacent when the beam or column is assembled. 7. Beam or post according to claim 6, where said part (10) which carries THE
internal projections (6) of each surrounding element (B) has a face rectilinear external face with recesses (10A, 10B), this external face defining on each side, with its inclined side (8, 9), an opening (10A', 106') which extends along the beam or post. 8. Beam or post according to claim 5,6 or 7, where said part (10) which door the internal projections (6) of each surrounding element (B) comprise a plurality of openings (11) which extend along the beam or post And which are capable of receiving inserts (12) to join two beams or end-to-end posts. 9. Beam or post according to claim 8, in which each insert (12) comprises a rib (13) arranged to block the insert (12) inserted in a opening (11) of the surrounding element (B). 10. Beam or post according to claim 7, 8 or 9, associated with a profile elongate (D) of shape, in section, essentially rectangular provided with two projections (15) on one side and a recess (16) on the opposite side, the projections (15) being arranged to assemble on the rectilinear external face of a surrounding element (B) of the beam or post with its recesses (10A, 10B). 11. Beam or post according to claim 7, 8, 9 or 10, associated with a first elongated profile (P1) of shape, in section, essentially rectangular, each end of the first elongated profile (P1) resting on a shoe assembly comprising a tenon (19) arranged to assemble with a recess (10A, 10B), and with a second elongated profile (P2) of shape, in section, essentially rectangular, each end of the second elongated profile (P2) resting on a shoe assembly (18) comprising a tenon (19) arranged to assemble with the other recess (10A, 10B) of the surrounding element (B), the first elongated profile (P1) and the second elongated profile (P2) being perpendicular to each other. 12. Beam or post according to one of claims 1 to 3, where each element core (A) is associated with two rectilinear surrounding elements (B) which come assemble around the core element (A) forming a square, each one of two rectilinear surrounding elements (B) comprising an internal wall (23) which, when the rectilinear surrounding elements (B) come together around the core element (A), covers two external protuberances (1) of the element central hollow (7) as well as the segment (3) which connects these two protuberances external (1). 13. Beam or post according to claim 12, or the internal wall (23) of each rectilinear surrounding element (B) comprises a plurality of hollow profiles external (24) arranged outside the internal wall (23), these hollow profiles external (24) covering the external protuberances (1) as well as the segment (3) which connects these two external protuberances (1). 14. A set of several hollow beams or posts of a system of construction according to one of the preceding claims, comprising a plurality of beams all of the same length and a plurality of posts all of the same length. 15. An assembly of several hollow beams or posts of a system of construction according to claim 14, in which at least one beam or at least one post is reinforced by a cylindrical or tubular part (17) inserted into the hollow (7) of the central element of a core element (A). 16. An assembly of several hollow beams or posts of a system of construction according to claim 14, in which beams and/or posts are assembled end-to-end by inserts (12) inserted into the ends (11) of the openings which extend along the elements surround (B). 17. An assembly of several hollow beams or posts of a system of construction according to one of claims 14 or 15, in which two sides adjacent to a central post are each attached to another post, the height of the construction being determined by the length of the central post.