FR3013746A1 - BUILDING WHOSE COMPONENTS ARE MAJORITARILY PREFABRICATED - Google Patents

Abstract

The building, whose components are predominantly prefabricated, comprises: - a foundation supporting a seat (14) of building, - walls (15) erected on the seat (14) and - a roof (16) resting on the walls (15), the seat (14) having a lower peripheral chaining (10) to the base of the walls (15) comprising a low rail (11) resting on a lower belt (12) fixed on the seat (14). The roof has an upper peripheral course (20) at the top of the walls (15) comprising a high rail (21) surmounted by a high belt (22). The width of the belts (12, 22) being greater than that of the heddles (11, 21) so that the belts (12, 22) project smoothly (11, 21) outside as inside the building , the walls (15) having a free space (17) between an outer wall and an inner wall, the width of the free space (17) being that of the rails (11, 21).

Description

TECHNICAL FIELD OF THE INVENTION The invention relates to a building whose components are predominantly prefabricated in the factory including wooden elements that cooperate with each other to offer the advantages of a wooden house, while meeting the current standards of resistance including climatic and atmospheric conditions. STATE OF THE ART The great mechanical strength of wood, a natural and durable element, combined with its lightness, have made it the material of choice used for centuries for the execution of carpentry and retaining piles, the centerpieces of many houses. whatever the composition of their walls. The return to wooden constructions brings a number of advantages. The wooden construction does not require water for its implementation and is therefore healthier. In addition, it generates neither compaction nor cracks. However, wood structures are affected by changes in temperature and humidity as well as climatic hazards. Wind surges and ground-breaking phenomena of suburban building construction due to atmospheric depression have highlighted the fragility of some wood constructions but also of most buildings whose components are mostly prefabricated. The walls and the roof offering a large surface area to the different mechanical forces that are exerted on the buildings make these two elements the fragile parts of any building whose components are mainly prefabricated. The assembly of the construction is therefore essential in order to obtain perfect stability of the structure without expansion or deformation. In the wooden structure construction currently used, the high and low rails are horizontal pieces of the same thickness as the walls and have no particular anchorage for the walls. They constitute a simple sitting of the walls.

Traditional carpentry assemblies currently used such as mortise and tenon are insufficient in the face of climatic conditions that can exert significant forces. These assemblies are commonly reinforced by metal parts which, by heat or cold, undergo significant changes in temperature which causes expansion phenomena and creates disorders on the structure. In addition, these metal parts increase the cost of construction. In addition, the presence of large numbers of metal elements in a wooden building causes a Faraday cage phenomenon which isolates any external electromagnetic influence, but at the same time traps all the harmful waves of our electrical appliances at the same time. interior of the living space. OBJECT OF THE INVENTION The present invention aims to remedy all or part of these disadvantages. To this end, the present invention aims a building whose components are predominantly prefabricated, which comprises: - a foundation supporting a building base, - walls erected on the seat and - a roof resting on the walls. The seat has a lower peripheral course at the base of the walls comprising a low rail resting on a low belt fixed on the seat and the roof has an upper peripheral linkage at the top of the walls comprising a high rail surmounted by a high belt. , the width of the belts being greater than that of the healds so that the belts overflow smooth outside and inside the building, the walls having a free space between an outer wall and an inner wall, the width of the free space being that of the smooth. Thanks to these provisions, we obtain a perfect assembly, both in the corners and around the entire perimeter of the construction, to obtain increased stability of the structure without expansion or deformation. The assembly of these links said "T" superimposing two pieces of different dimensions, the belt and the smooth gives the structure a good resistance to torsion, bending and spillage.

The present building, although preferably designed in wood can also be constructed from predominantly prefabricated components of all materials. In embodiments, the building has a sand pit surmounting the upper belt, the width of the sand pit being greater than the width of the upper belt and the sand pit overflows from the upper belt inside the building. Thanks to these arrangements, the sandpit came to reinforce the upper chaining by reinforcing the structure formed by the upper arm and the upper belt. The sandpit can thus be used as a support for the roof trusses or to be counter-lugged around the ceiling around the building. In some embodiments, the roof is supported by a frame in molded trusses having two molded lugs and fixed to the upper peripheral chaining grid by fixing the two molded lugs to a false lug inserted in a notched groove in the chain-link sill plate. upper device. Thanks to these arrangements, the roof is assembled and fixed to the upper chaining all around the walls. The resistance of the roof to the weather and particularly to tearing phenomena is greatly increased. This system makes it possible to have real anchoring of the frame, which is lacking the wooden structure constructions currently implemented: the trusses are simply resting on the high belts and are fixed by nailing by larding and / or by metal brackets, which do not do not work in the same way as wood in the long term and may create large gaps.

In embodiments, the walls consist of prefabricated panels interconnected by intermediate posts, said posts having tenons at their base and at their apices configured to cooperate with mortises on the low and high rails and to form a latching on the outer side of the rails. Thanks to these provisions, the use of prefabricated panels of standard dimensions allows easy construction, fast and with less blow. Advantageously, two to three men can thus assemble the panels without lifting gear. The intermediate columns consolidate the structure by connecting each panel to the adjacent panel and ensures the overall stability of each facade. The width of the intermediate posts is such that once two panels are assembled, the intermediate post is retracted between the two panels. All the panels are anchored in the foot and at the top in the lower and upper peripheral courses and on the sides by the intermediate posts, each panel is thus maintained continuously at its periphery. In embodiments, the walls at the corners of the building are connected by corner posts composed of four parallel and vertical partitions which are interconnected to form a volume, said partitions forming the faces of the volume and two of the walls. at least one of them is placed opposite a wall, the lower part of each partition facing the walls has a notch the size of a rail and rests on the lower peripheral linkage and the upper part. the partition opposite the walls has a cut the size of a smooth and receives the upper peripheral chaining. Thanks to these provisions, the corner posts form undeformable boxes, all of the same section, to have a product without any dimensional variation and a series of work. The corner posts are cut in the foot and at the top, to form a bunching on the rails of the lower and upper peripheral courses. These boxes become truly indeformable by their positioning at the corners of the construction, and by their anchoring on the peripheral chaining. In embodiments, in the corners, the lower rails are assembled together in abutment and overlap of the lower belts, they themselves assembled in abutment, one of the lower rails exceeds the other and a parallelepipedic piece fully fills the void left in the plane of the low rails between the four parallel partitions of the corner post and the high rails are assembled together in abutment and overlap of the upper belts, they themselves assembled in abutment, one of the high rails exceeds relative to the other and a parallelepipedal piece completely fills the void left in the plane of the high rails between the four parallel partitions of the corner post. Thanks to these provisions, the fact of filling the space of the post in the plane of the high and low rails increases the strength of the corner posts 10 including bending and compression phenomena. In embodiments, the walls of the corner posts facing the walls are connected to the panels constituting the walls by means of an intermediate half-pole, which is half the thickness of the intermediate columns connecting two panels to each other. and having tenons at its base and at its top configured to cooperate with mortises on the low and high rails. Thanks to these arrangements, these pieces of wood, corresponding to an intermediate half-post (that is to say whose thickness is reduced by half compared to the intermediate posts), allow the anchoring of the panels of the 20 peripheral walls . The corner posts already integral with the upper peripheral linkage and the lower peripheral chaining are thus firmly fixed to the panels constituting the walls and reinforce the general resistance of the walls and the entire building. In embodiments, the panels constituting the walls are formed of two thicknesses of insulation, one of whose thicknesses is partitioned into vertical strips between vertical uprights of the same thickness as the first thickness of insulation and the second thickness of insulation. insulation is partitioned into horizontal strips between horizontal crosspieces of the same thickness as the second thickness of insulation, the vertical uprights and the horizontal crosspieces being fixed to each other and the total thickness of the two thicknesses of insulation corresponding to the width of the smooth.

With these provisions, the panels of the peripheral walls are designed in two layers of cross structure and insulated. On the one hand a distribution of insulated vertical uprights on the other hand a distribution of insulated horizontal crosspieces. The crossing of these two structures makes it possible to reduce the heat losses by thermal bridges and the acoustic weaknesses. The compressive strength is reinforced, relieving the intermediate posts and eliminating their buckling. The insulation is thus installed in the workshop at the level of each prefabricated panel avoiding an insulation on the site, long, complex and expensive.

In embodiments, the panels constituting the walls are doubled by a rainscreen on the outer face and a vapor barrier on the inner face, stretched over the thicknesses of insulation and fixed by cleats, receiving the interior linings and Outside, two external cleats and two inner cleats, overflowing the panel, half cover the intermediate posts framing a panel. Thanks to these provisions, this design makes it possible to obtain ready-to-use panels. Only the laying of a surface coating is carried out on the site fixed directly on the cleats. The arrangement of the cleats, inner and outer cladding supports, relative to the uprights and cross members allows to create a free space to receive the intermediate post of the adjacent panel by interlocking. The exterior cladding can be applied both industrially and on site, at the time of installation of the panels. The interior lining is preferably placed on site, together with the passage of ducts and electrical son, and in conjunction with the water supply and plumbing during assembly of the building. In embodiments, the panels constituting the walls have a bracing formed of a beam disposed diagonally and embedded in the thickness of the sleepers. Thanks to these provisions, some panels additionally have a built-in discharge in the thickness of the cross members, to obtain a dimensionally stable triangle.

This bracing is made by a beam placed diagonally over the entire height of the panel, this beam is preferably the same thickness as the cross. The recovery of the forces is distributed at both ends of the discharge, abutting in the upper part and in the lower part on the intermediate columns. This makes it possible to remove the bracing in panels of large oriented particles usually necessary and which adds to the thickness of the panel. Saving material and labor is then achieved, and the panels are lightened for easier handling. This type of reinforcement is preferably placed on the panels framing the corners of the building. This beam, placed diagonally of the panel, is advantageously assembled for its upper part under the upper cross member of the panel and abutting with the intermediate half post and assembled at its lower part on the lower cross member of the panel and abutting with the intermediate post. Each crossbar is assembled to this beam, allowing the panel to not undergo any deformation, and to increase the resistance, thanks to the number of sleepers. Insulation is cut diagonally in the thickness of the crossbar to free the space for the beam, which avoids thermal and sound bridges, which could be caused by the beam. In embodiments, the panels constituting the walls comprise integrated joinery elements having a lintel having a first horizontal piece forming a water droplet on the outside and fixed to the joinery, a vertical core, anchored in the intermediate posts framing the panel and two high and low horizontal parts cover the vertical core, two thicknesses of insulation are arranged on either side of the vertical core, the upper part of the lintel has two tabs stopping flush with the room horizontal high lintel and forming a space the width of a smooth. Thanks to these provisions, joinery is directly integrated into the prefabricated panels. The panels are designed around joinery, in the workshop. The panels consist of two or three parts: - the lintel, - the carpentry with the tables and - the lighter, when it is a window. The lighter is of the same design as the standard panels. The lintel consists of: - a first horizontal piece, forming water drop outside and attached to the joinery, this room is advantageously covered with a felt asphalt to seal; - a vertical core, anchored in the intermediate posts connecting the panels, and in the high and low horizontal parts of the lintel by tenons and mortises; two layers of insulation on either side of the vertical core; - two high and low horizontal pieces covering the vertical soul; - two pieces fixed on either side of the smooth high chaining, stopping flush with the horizontal high part of the lintel and - outer cleats supports the outer covering (the inner lining is fixed directly on the parts of the lintel ). This design provides the necessary space for the positioning of shutters, while maintaining the necessary insulation and ventilation at the top. No sealant is necessary for the tightness of the assembly, the work being done in the workshop. In embodiments, the building has interior partitions. These partitions are made of insulated wooden frames and clad in plates attached directly to the wooden frames. These partitions are fixed to the ceiling and the floor, via smooth (advantageously smaller than the smooth of the peripheral chaining of the building). The frames are composed of: - two vertical uprights, - horizontal sleepers and - insulation boards in the space between each sleeper.

The distribution of sleepers ensures the stiffness and stability of the partitions.

All reservations and holes in the sleepers provided for the passage of electrical wiring, or plumbing pipes can be made in the workshop. Advantageously, these partitions allow to design fully recessed sliding doors. A special frame is made: - on one side a vertical upright and - on the other side, a massive pole having a notch on all its height, in which the door and the structure of the lintel are inserted. A free passage of twice the width of the door is thus created. Half of this passage will be dressed with plaques. The lintel of this special partition is constituted by two horizontal crosspieces of the total length of the partition, at the bottom and at the top of the lintel. Vertical uprights are placed between these two sleepers at regular intervals. A third cross is superimposed on the lower rail above the dressed part of the partition, to strengthen the structure. Advantageously, the door has on the underside a groove in which are housed casters which move on a rail fixed to the ground. In the upper part, under the low beam of the lintel, a guide of the doors is provided. Advantageously, partitions for the swinging doors consist of a simple lintel fixed directly to the door frame. These are two horizontal crosspieces of the total length of the frame at the bottom and top of the lintel. Three vertical posts are placed between these two crosspieces at the ends and in the middle of the lintel. The frame of the swing doors is mitered. This frame is made of wood protruding from each side of the partition. The skirting boards come up against the edge of the frame without any other finishing. Curved grooves are preferably made around the edge of the edge of the frame and on the crosspieces and uprights of the partitions to insert slats to perfect the positioning of the frame.

The low floor of the building is advantageously made of masonry. The crawl space thus formed is fixed on the concrete foundations. To allow seismic stability of the wood floor, it is expected a distribution of composite posts in three thicknesses of assembled and glued planks. These posts act as pilings. In embodiments, the building comprises concrete foundations on which the building base rests via a set of pillars each comprising two planking stud posts with a small beam, formed at the bottom by a plank. central and in the upper part by a sole of the seat which is nestled in this enguolement, the central beam being connected to the sole of the seat by an elastic piece, the elastic piece being fitted inside the posts of 10 foundation. Thanks to these provisions, the building has a better seismic stability. The low floor advantageously consists of cleats placed and fixed perpendicularly to the soles of the crawl space by nailing, a 15 rain cover stretched and sandwiched between these cleats and abutting joists fixed to the cleats (in the workshop) forming a " T 'nailed down at each node staggered between the two elements. The joists are preferably doubled and isolated under the gable walls. This assembly makes it possible to keep an overhang of the battens on both sides of the joists, on which the thin particle boards rest to support the insulation, placed between the joists of the floor. In pinion, plywood spacers are advantageously fixed on the double joists, by nailing, making it possible to obtain notches for receiving the battens against the floor lathing on which the decking 25 in particle boards rests. The vapor barrier is tensioned and sandwiched between joists and counter battens placed perpendicular to the joists by nailing. Under the walls of facades, a butted wooden belt is fixed perpendicularly to the joists, by staggered nailing along the entire length of the belt. This wooden belt and the plywood spacers are advantageously at the same height as the battens against the floor battens, which makes it possible to lower the low links below the level of the raw ground. Particle board decking defines the level of the raw soil. It is fixed by screwing, and gluing along the length of the batten against floor battens. Advantageously, the floor is surrounded on all its periphery by anti-humidity treated plywoods of two different thicknesses: lower under pinion and thicker under facade screwed into the joists of the floor. Advantageously, an aluminum U is nailed and glued at the bottom of peripheral waistband panels of the floor. In embodiments, all elements of the construction are identified by a specific nomenclature of numbers and colors, to facilitate their assembly. BRIEF DESCRIPTION OF THE FIGURES Other advantages, aims and features of the present invention will emerge from the following description, given for the purpose of explanation and in no way limitative, with reference to the appended drawings, in which: FIG. 1 represents, schematically, a particular embodiment of the building object of the present invention with an upper and lower peripheral chaining each formed of a rail and a belt, - Figure 2 shows another particular embodiment of a corner post with a half intermediate pot and its co-operation with the upper and lower peripheral chaining comprising, smooth, belts and sand plate; FIG. 3 represents another embodiment of two types of panels constituting the walls and intermediate partition (the inner wall is represented on the first plan), - Figure 4 represents another particular embodiment representing the cooperative of an intermediate post with the lower peripheral chaining (the outside of the building being on the left and the interior of the construction being on the right in the figure), - Figure 5 represents another particular embodiment of a panel incorporating a sectional view window (the interior of the construction being on the left and the outside being on the right in the figure) and - Figure 6 shows another particular embodiment of the antiseismic pillars and a farmhouse. DESCRIPTION OF EXAMPLES OF THE INVENTION It will now be noted that FIGS. 1 to 6 are not to scale. The building whose components are predominantly prefabricated, 10 comprises: - a foundation supporting a seat 14 of building, - walls 15 erected on the seat 14 and - a roof 16 resting on the walls 15. The seat 14 has a lower peripheral chaining 10 at the base of the walls 15 comprising a low rail 11 resting on a lower belt 12 fixed on the seat 14 and the roof has an upper peripheral chaining 20 at the top of the walls 15 comprising a high rail 21 surmounted by an upper belt 22, the width of the belts 12 and 22 being greater than that of the rails 11 and 21 so that the belts 12 and 22 protrude from the rails 11 20 and 21 outside and inside the building; walls 15 having a free space 17 between an outer wall and an inner wall, the width of the free space 17 being that of the rails 11 and 21. The rails 11 and 21 and the belts 12 and 22 are assembled by means of nails and lag screws, forming a "T" chain. The upper and lower peripheral chaining 10 and 20 is designed with low section elements at the bottom and top of the construction. Chaining is advantageously continuous with traditional assemblies, effective traction, allowing no denunciation, and tearing. It can be set up stainless steel round iron clameaux for the security of the assembly in certain cases. The design of the walls 15 is provided such that they form a free space 17 at the top and bottom to receive the heddles 11 and 21, thereby ensuring that the walls 15 are hung on the hinges 10 and 20.

Advantageously, the building comprises a sand pit 23 overlying the upper belt 22, the width of the sand pit 23 being greater than the width of the upper belt 22 and the sand pit 23 overflows from the upper belt 22 inside the building.

Advantageously, the sanders 23 in gables are provided with notches (not shown) to receive the counterweighting ceiling. Advantageously, the roof 16 is supported by a framework in 31 molded fermées having two 32 months trapped and fixed to the sand pit 23 of the upper peripheral chaining 20 by fixing the two entrées 32 monthsés to a false stud 24 inserted into a mortise notched in the 23 Preferably the walls 15 consist of prefabricated panels 40 interconnected by intermediate poles 50, said posts having studs 51 at their base and at their apex configured to cooperate with mortises 52 on top of the upper peripheral chain. the low rails 11 and high 21 and form a burying on the outer side of the rails 11 and 21. This ensures the anchoring of the intermediate posts 50 and therefore the walls 15 in the lower and upper 10 and lower chains 20. Preferably, the walls 15 at the corners of the building are connected by corner posts 60 composed of four partitions 61 parallel and vertical es which are interconnected to form a volume, said partitions 61 form the faces of the volume and at least two of them are placed opposite a wall 15, the lower part of each partition 61 facing the walls 15 has a notch 62 of the dimension of a smooth and rests on the lower peripheral chaining 10 and the upper part of the wall facing partition has a notch 63 of the dimension of a smooth 11 and 21 and receives the upper peripheral chaining 20. Advantageously, the vertical part chaining is provided through posts of angles 60 formed in boxes dimensionally stable, partitions 61 of plywood, all of the same section, to have a product without any dimensional variation and serial work. These partitions 61 of plywood are assembled tongue and groove glued with glue without moisture recovery. Advantageously, in the corners, the lower rails 11 are assembled together abutting and overlapping the lower belts 12, 5 themselves assembled in abutment, thus obtaining a mid-wood assembly of the chaining in the corners. One of the lower rails 11 protrudes with respect to the other and a parallelepipedic part 13 completely bridges the gap left in the plane of the low rails 11 between the four partitions 61 of the corner post 60 and the upper rails 21 are assembled together in stop and cover 10 of the upper belts 22, they themselves assembled in abutment, one of the upper rails 21 protrudes with respect to the other and a parallelepipedal part 23 completely fills the void left in the plane of the upper rails 21 between the four partitions 61 of the angle post 60. Preferably, the partitions 61 of the corner posts 60 facing the walls 15 are connected to the panels 40 constituting the walls 15 by means of an intermediate half-pole 70, of thickness less than half the intermediate posts 50 connecting two panels 40 between them and having tenons 71 at its base and at its summit configured to cooperate with mortises 72 on the low rails 11 and high 21. Advantageously, the panels 40 constituting the walls 15 are formed of two thicknesses of insulation 41 and 42, one of the thicknesses 41 is partitioned in vertical strips between vertical uprights 43 of the same thickness as the first thickness of insulation 41 and the second thickness of insulation 42 is partitioned into horizontal strips between horizontal crosspieces 44 of the same thickness as the second thickness of insulation 42, the vertical uprights 43 and the horizontal cross members 44 being fixed between them and the total thickness of the two thicknesses of insulation 41 and 42 corresponding to the width of the rails 11 and 21. The crossing of these two structures makes it possible to reduce heat losses by thermal bridges and acoustic weaknesses. The compressive strength is reinforced, relieving the intermediate posts and eliminating their buckling. It also removes bracing. The sections of these structures can vary according to the insulation needs, the climatic conditions to which the building will be subjected and to respect the studies of the thermal regulation. The insulation is advantageously placed in the workshop between the horizontal crosspieces 44, the vertical uprights 43 and the second insulating layer 42 are then fixed and compress the first insulating layer 41 to avoid any settling phenomenon. Preferably, the panels 40 constituting the walls 15 are doubled by a rain screen 45 on the outer face and a vapor barrier 46 on the inner face, stretched over the thicknesses of insulation 41 and 42 and fixed by cleats 47, receiving the inner and outer cladding 49, two external cleats 47 and two inner cleats 47, projecting from the panel 40, half cover the intermediate columns 50 flanking a panel 40. The arrangement of the cleats 47 inner and outer cladding supports 48 and 49 relative to each other. vertical uprights 43 and horizontal cross members 44 creates a free space for receiving the intermediate post of the adjacent panel by interlocking. The rain shields 45 and vapor barrier 46 are stretched on either side of the main structure and stapled or sandwiched by the brackets 47 supports outer cover 49 and inner 48. Thus are formed two air knives of ventilation inside and outside the panels at the level of the cleats 47 The unventilated internal air gap advantageously allows the passage of all the electrical wiring.

The inner 48 and outer 49 coatings are preferably laid on site. Our invention allows the installation of plasterboard live on the wooden battens 47, and avoids the inner lining with a metal process laid by plasterers. Insulation from outside becomes superfluous on such a building.

Each panel advantageously comprises in its design an intermediate pole 50, the modules thus formed can be assembled directly by engaging the modules with each other and fixing by nailing the cleats 47 coming to cover the intermediate columns 50. Advantageously, the panels 40 constituting the walls 15 have a bracing formed of a beam 81 arranged diagonally and embedded in the thickness of the crosspieces 44. These panels are designed in the same manner as the other peripheral wall panels 40 described above, but comprise in addition, this discharge embedded in the thickness of the sleepers thanks to a non-deformable triangle of good section. The recovery of the forces is distributed at both ends of the discharge, abutting in the upper part and partly low on the intermediate posts. All these panels 40 are anchored at the foot and at the top in the lower and upper peripheral courses and advantageously fixed by screws to allow disassembly, and future changes. The construction is thus modular to leisure. Any assembly part allowing the assembly is preferentially carried out in the workshop, allowing no return of site, which causes losses of raw material. Preferably, the panels 40 constituting the walls 15 comprise integrated joinery elements having a lintel comprising a first horizontal piece 91 forming a drop of water on the outside and fixed to the joinery, a vertical core 92, anchored in the posts. intermediate 50 flanking the panel 40 and two horizontal parts high 93 and low 94 cover the vertical core 92, two thicknesses 41 and 42 of insulation are arranged on either side of the vertical core 92, the upper part of the lintel has two tabs 96 and 97 stopping flush with the high horizontal piece 93 of the lintel and forming a gap the width of a rail 21. This design provides the necessary space for the positioning of shutters, while keeping the necessary insulation and ventilation at the top. No sealant is necessary for the tightness of the assembly, the work being done in the workshop. Advantageously, the building comprises concrete foundations on which the base 14 of the building rests by means of a set of pillars 101 each having two foundation posts 102 and 103 made of planks with only a small beam formed at the bottom. central 105 and in the upper part by a sole 106 of the seat 14 which is nested in this enguolement, the central beam 105 being connected to the sole 106 of the seat 14 by an elastic piece 107, the elastic piece 107 being fitted inside foundation posts 102 and 103.

Example 1 (Figure 1) Figure 1 shows a building whose components are predominantly prefabricated, comprising: - a foundation supporting a seat 14 of building - walls 15 erected on the seat 14 and - a roof 16 resting on the Walls 15. The seat 14 has a lower peripheral course 10 to the base of the walls 15 comprising a lower rail 11 resting on a lower belt 12 fixed on the seat 14 and the roof has an upper peripheral linkage 20 at the top of the walls 15 comprising a top rail 21 made of wood 45 mm high and 80 mm wide surmounted by a high belt 22 made of wood 45 mm high and 166 mm wide, so that the belts 12 and 22 protrude from the rails 11 and 21 outside and inside the building, the walls 15 having a free space 17 of 80 mm wide between an outer wall and an inner wall. The rails 11 and 21 and the belts 12 and 22 are assembled by nails and lag screws, forming a T chain. Example 2 (Figures 1, 2, 3, 4, 5 and 6) The building whose components are predominantly prefabricated , comprises: - a foundation supporting a seat 14 of building, - walls 15 erected on the seat 14 and - a roof 16 resting on the walls 15.

The seat 14 has a lower peripheral linkage 10 to the base of the walls 15 comprising a low wooden rail 11 of 45 mm high and 80 mm wide resting on a low belt 12 of 45 mm high and 166 mm wide fixed on the seat 14 and the roof has an upper peripheral linkage 20 at the top of the walls 15 comprising a high rail 21 of 45 mm high and 80 mm wide surmounted by an upper belt 22 of 45 mm high by 166 mm of wide, the belts 12 and 22 overflow smooth 11 and 21 outside and inside the building, the walls 15 having a free space 17 between an outer wall and an inner wall, the width of the free space 17 being 80 MM. The rails 11 and 21 and the belts 12 and 22 are assembled by nails and lag screws, forming a T-chain.

Figure 2: The building has a sand pit 23 26 mm high and 200 mm wide overlying the upper belt 22, and the sand pit 23 overflows the upper belt 22 inside the building. Figure 6: The roof 16 is supported by a framework in 31 molded ferments having two 32 months trapped and fixed to the sand pit 23 of the upper peripheral chaining 20 by fixing the two links 32 months to a false stud 24 inserted into a mortise notched in 23 of the upper peripheral chaining 20. The trusses 31 are recessed on the upper peripheral chaining 20 with the help of locking blocks (not shown) avoiding the separation of the front wall and rear. The trusses 31 are fixed by screws and not nailed, facilitating the removal and avoiding fixing by metal brackets, which by their fragility avoids the slight roll. There are provided molded ferments 31 of small wooden section in 26 x 78 mm in three thicknesses, allowing a seat of 78 mm, instead of 35 mm for competition. All these woods of small section allow a fast drying, and a treatment with certain heart. In order not to use brackets and other metal shoes for anchoring the molded ferments 31, the top plate 23 of the upper peripheral chaining 20 is provided with mortises (not shown) cut perpendicularly to the wood grain.

A false-tenon plywood is inserted into the mortise in the workshop and fits between the two entrants months 32 of the farmhouse 31 when it is laid on site. We then add two screwed pins (not shown).

Figure 4: The walls 15 consist of prefabricated panels (not shown) of width ranging from 0.6 m to 1.2 m interconnected by intermediate posts 50 45 mm wide by 140 mm long and height panels, said posts having tenons 51 at their base and at their summit configured to cooperate with mortises 52 on the low rails 11 and high 21 and form a bunching on the outer side (left in the figure) of the rails 11 and 21. Figure 2: The walls 15 at the corners of the building are connected by corner posts 60 composed of four identical partitions 61 in parallel and vertical plywood strips which are interconnected so as to form a volume, said partitions 61 form the faces of the volume and at least two of them are placed opposite a wall 15, the lower part of each partition 61 facing the walls 15 has a notch 62 the size of a smooth and rests on r the lower peripheral chaining 10 and the upper part of the partition opposite the walls has a notch 63 of the dimension of a smooth 11 and 21 and receives the upper peripheral chaining 20. The vertical part of the chaining is provided through poles angles 60 formed in non-deformable boxes, plywood partition 61, all of the same section, to have a product without any dimensional variation and work in series. These partitions 61 of plywood are assembled tongue and groove glued with glue without moisture recovery. In the corners, the lower rails 11 are assembled together abutting and overlapping the lower belts 12, they themselves assembled in abutment, one of the low rails 11 exceeds relative to the other and a parallelepipedal piece 13 completely filled wood the void left in the plane of the lower rails 11 between the four parallel walls 61 of the corner post 60 and the upper rails 21 are assembled together in abutment and overlap of the upper belts 22, they themselves assembled in abutment, one of the smooth high 21 exceeds in relation to the other and a parallelepipedal piece 23 made of wood completely fills the void left in the plane of the upper rails 21 between the four partitions of the corner post 60. The partitions 61 of the corner posts 60 in view walls 15 are connected to the panels 40 constituting the walls 15 via an intermediate half-pole 70, which is less than half the thickness of the intermediate columns 40 connecting two panels 40 between them and having tenons 71 at its base and at its top configured to cooperate with mortises 72 on the low rails 11 and high 21. Figure 3: The inner wall is shown in the foreground. The panels 40 constituting the walls 15 are formed of two thicknesses of insulation 41 and 42, one of the thicknesses 41 of 60cm thick is partitioned in vertical strips between vertical uprights 43 35x60cm and the second thickness of insulation 42 80cm is partitioned into horizontal strips between horizontal cross members 44 35x80 mm, vertical uprights 43 and horizontal cross members 44 being fixed together and the total thickness of the two thicknesses of insulation 41 and 42 corresponding to the width of the rails 11 and 21. These elements are fixed by nailing. The panels 40 constituting the walls 2 are doubled by a rain screen 45 on the outer face and a vapor barrier 46 on the inner face, stretched over the thicknesses of insulation 41 and 42 and fixed by cleats 47 of 57x26 mm, receiving the inner and outer liners 48 and 49, two outer cleats 47 of 57x26 mm and two inner cleats 47 of 57x26 mm, projecting from the panel 40, half cover the intermediate columns 50 flanking a panel 40. Some panels 40 constituting the walls 15 have a bracing formed of a beam 81 arranged diagonally and embedded in the thickness of the cross members 44.

The panel carrying the beam 81 is shown without the liner or the vapor barrier for better readability. Figure 5: The panels 40 constituting the walls 15 comprises an integrated window (shown in section) having a lintel having a first horizontal piece 91 forming a drop of water on the outside (on the right in the figure) and fixed to the joinery ( this piece is covered with a felt asphalt to seal, not shown), a vertical core 92 plywood 30 mm thick, anchored in the intermediate posts 50 flanking the panel 40 and two high horizontal parts 93 and low 94 cover the vertical core 92, two thicknesses 41 and 42 of insulation are disposed on either side of the vertical core 92, the upper part of the lintel has two tongues 96 and 97 stopping flush with the room horizontal high 93 lintel and forming a space of the width of a smooth 21. The lighter is the same design as 40 standard panels. The joinery is assembled by nailing or screwing the lintel, the lighter and the adjacent panels with cleats. This design provides the necessary space for the positioning of shutters, while maintaining the necessary insulation and ventilation at the top. No sealant is necessary for the tightness of the assembly, the work being done in the workshop. Figure 6: The building has concrete foundations on which the seat 14 of the building rests by means of a set of pillars 101 each having two foundation posts 102 and 103 made of planks with ease, formed in the lower part by a central plank 105 and in the upper part by a sole 106 of the seat 14 which is nested in this yeueulement, the central plank 105 being connected to the sole 106 of the seat 14 by a helical spring of stainless steel 107, the spring helical 107 being fitted inside the foundation posts 102 and 103. The central beam is provided with a notch for receiving the spring 107 fixed in the foot and head on welded metal plates of the same dimensions as the notches. The spring is nested inside the posts and the metal plate at the foot is housed in a reservation in the concrete foundation blocks. A load drop study determines the size of the springs for each building. The foundation posts 102 and 103 are coated on their four faces on a minimum height of 200 mm of a tar glue type "Shingle". The foundation posts 102 and 103 are separated from the concrete foundations by a "38S" bituminous felt. The foundation posts 102 and 103 are fixed on the masonry foundations by a system of square, lag screws and bolts. The other elements are fixed between them by lag bolts.

NOMENCLATURE 10 lower peripheral chain, 11 low, 12 low, 13 parallelepiped, 14 seated, 15 walls, 16 roof, 17 free space in the walls, 20 upper peripheral chaining, 21 high, 22 high, 23 sand, 24 false posts, 31 molded farmhouses, 32 moldings, 40 panels, 41 and 42 thicknesses of insulation, 43 uprights, 44 horizontal crosspieces, 45 rainscreens, 46 vapor barriers, 47 cleats, 48 interior finishes, 49 exterior cladding, 50 intermediate columns, 51 studs, 52 mortises, 60 corner posts, 61 partitions, 62 notches, 70 intermediate half-posts, 71 posts, 72 mortises, 81 beams, 91 horizontal droplets, 92 vertical core, 94 low horizontal pieces, 93 high horizontal pieces, 96 and 97 tongues, 101 pillars, 102 and 103 foundation posts, 105 central planks, 106 baseplates 107 elastic pieces,

Claims (12)

REVENDICATIONS1. Building whose components are predominantly prefabricated, which comprises: - a foundation supporting a seat (14) of building, - walls (15) erected on the seat (14) and - a roof (16) resting on the walls ( 15), characterized in that the seat (14) has a lower peripheral chaining (10) at the base of the walls (15) comprising a lower rail (11) resting on a lower belt (12) fixed on the seat ( 14) and the roof has an upper peripheral course (20) at the top of the walls (15) comprising a top rail (21) surmounted by an upper belt (22), the width of the belts (12, 22) being greater than that webs (11, 21) so that the belts (12, 22) project beyond the rails (11, 21) both outside and inside the building, the walls (15) having a free space (17). between an outer wall and an inner wall, the width of the free space (17) being that of the rails (11, 21). 2. Building according to claim 1, which comprises a sand pit (23) surmounting the upper belt (22), the width of the sand pit (23) being greater than the width of the upper belt (22) and the sand pit (23) overflowing of the upper belt (22) inside the building. 3. Building according to claim 2, wherein the roofing (16) is supported by a framework in sheds (31) months having two entrained (32) months and fixed to the sand pit (23) of the upper peripheral chaining (20) by fixing the two links (32) molded to a false stud (24) inserted into a mortise notched in the sand pit (23) of the upper peripheral chaining (20). 4. Building according to one of claims 1 to 3, wherein the walls (15) consist of panels (40) prefabricated interconnected by intermediate poles (50), said posts having tenons (51) at their base and at their apices configured to cooperate with mortises (52) on the lower (11) and high (21) rails and to form a bunching on the outer side of the rails (11, 21). 5. Building according to claim 4, wherein the walls (15) at the corners of the building are connected by corner posts (60) composed of four parallel and vertical partitions (61) which are interconnected so as to form a volume, said partitions (61) form the faces of the volume and at least two of them are placed opposite a wall (15), the lower part of each partition (61) facing the walls ( 15) has a notch (62) of the dimension of a smooth and rests on the lower peripheral chaining (10) and the upper part of the partition opposite the walls has a notch (63) of the dimension of a smooth ( 11, 21) and receives the upper peripheral chaining (20). 6. Building according to claim 5, wherein, in the corners, the low rails (11) are assembled together abutting and covering the lower belts (12), they themselves assembled in abutment, one of the low rails (11). protrudes from the other and a parallelepipedal piece (13) completely fills the void left in the plane of the lower rails (11) between the four parallel walls (61) of the corner post (60) and the upper rails (21). ) are assembled together in abutment and overlap of the upper belts (22), they themselves assembled in abutment, one of the upper rails (21) protrudes with respect to the other and a parallelepipedal piece (23) fully fills the gap left in the plane of the upper rails (21) between the four parallel partitions of the corner post (60). 7. Building according to one of claims 5 or 6, wherein the partitions (61) of the corner posts (60) facing the walls (15) are connected to the panels (40) constituting the walls (15) by the intermediate intermediate half-pole (70), half the thickness of intermediate posts (40) connecting two panels (40) therebetween and having tenons (71) sabase and apex configured to cooperate with mortises (72) on the low rails (11) and high (21). 8. Building according to one of claims 4 to 7, wherein the panels (40) constituting the walls (15) are formed of two thicknesses of insulation (41, 42), one of the thicknesses (41) is partitioned in vertical strips between vertical uprights (43) of the same thickness as the first thickness of insulation (41) and the second thickness of insulation (42) is partitioned into horizontal strips between horizontal crosspieces (44) of the same thickness as the second thickness of insulation (42), the vertical uprights (43) and the horizontal crosspieces (44) being fixed to each other and the total thickness of the two thicknesses of insulation (41, 42) corresponding to the width of the stringers (11). , 21). 9. Building according to claim 8, wherein the panels (40) constituting the walls (15) are lined by a rain screen (45) on the outer face and a vapor barrier (46) on the inner face, stretched on the thicknesses of insulation (41, 42) and fixed by cleats (47), receiving the inner (48) and outer (49), two outer cleats (47) and two inner cleats (47), projecting from the panel ( 40), half cover the intermediate posts (50) flanking a panel (40). 10. Building according to one of claims 8 or 9, wherein the panels (40) constituting the walls (15) have a brace formed of a beam (81) arranged diagonally and embedded in the thickness of the sleepers ( 44). 25 11. Building according to one of claims 4 to 10, wherein the panels (40) constituting the walls (15) comprise integrated joinery elements having a lintel having a first horizontal piece (91) forming a drop of water to the exterior and fixed to the joinery, a vertical core (92), anchored in the intermediate posts (50) flanking the panel (40) and two horizontal high parts (93) and low (94) cover the vertical core ( 92), two thicknesses (41, 42) of insulation are arranged on either side of the vertical core (92), the upper part of the lintel has two tongues (96, 97) stopping at the end of the high horizontal piece (93) of the lintel and forming a space the width of a smooth (21). 12. Building according to one of claims 1 to 11, which comprises concrete foundations on which rests the base (14) of the building through a set of pillars (101) each having two foundation posts ( 102, 103) in planks with only slightly, formed in the lower part by a central plank (105) and in the upper part by a flange (106) of the seat (151) which is nested in this yoke, the central plank (105). ) being connected to the sole (106) of the seat (14) by an elastic piece (107), the elastic piece (107) being fitted inside the foundation posts (102, 103).