FR3003282A1 - BUILDING SYSTEM FOR HOUSE WITH WOOD FRAME - Google Patents

Abstract

Structural system for timber frame house construction, particularly efficient in terms of thermal performance. The invention relates to a construction system for building a timber frame house without tools or special technical knowledge. It consists of Standard Blocks 3, Blocks Angles 4 and 5, Blocks framing joineries 6 and 7 as well as Blocks Carpentry 8. These insulating blocks are sized and grooved industrially to be able to incorporate the woods of structure, in one and only way. Their implementation is carried out piece by piece and span by span, and does not require any particular tools. It also includes structural timber (Details of Figures 1 and 2) 9, 10, 11, 12, 13 intended to constitute the wood frame, this structure being realized as and when the installation of each block in its grooves for the spacers and the crosspieces, the vertical structure of wood coming to engage in the vertical grooves when the floor height of each span is reached. The assembly is mounted so room by room, and the advancement bay by span. The constructive system according to the invention is particularly intended for the construction of the structural work of timber frame houses.

Description

The present invention relates to the field of wood constructions. The present invention will find its application mainly in the field of building construction.

Indeed, the present invention relates to the constructive system of the structural work of wood frame buildings. It includes the necessary and sufficient components allowing the complete realization of the external walls of a house with wooden frame. Traditionally wood frame houses (MOB) are made either industrially or by hand.

In the first case, it is a question of achieving a stable structure (sort of succession of boxes), in which will be inserted, usually on site, the frames, (doors or prefabricated windows), as well as the constituent elements the thermal insulation of the structure. If the structure is made industrially, it will then be transported to be delivered to the site element by element. These elements are often of considerable size and weight, which consequently requires considerable logistical and lifting resources. In the case where the structure is made in a traditional way, it then requires a strong technicality to guarantee the result.

On the other hand, given the generally accepted dimensional tolerances, (for example the joineries are delivered with dimensions less 2 millimeter to facilitate their installation in the bottom of rabbets (both vertical and horizontal)), which requires to avoid the problem of linear losses the delicate implementation of joints. (Compressed joints only admitted by the DTU 36.5.), the other ways to try to solve this problem, often by setting up silicone seals are purely and simply excluded from the decennial guarantee). The installation of these joints is a decisive factor to obtain the quality of airtightness imposed by the new regulations which is far from being guaranteed when one considers the too many workmanship and disputes noted on the building sites and which are sufficiently known to be questionable.

Another technical problem is that of compliance with thermal regulations, which evolves rapidly. Currently RT 2012 imposes an insulation thickness higher than the standards found in current industrial production. Note that the solution generally adopted is either the establishment of an ITE (thermal insulation from the outside) that is added to the wood structure, which involves the intervention of an additional professional body, the implementation of an inner lining with the disadvantages associated with this technique including the creation of thermal bridges to the right of the floors. The invention offers the possibility of overcoming the disadvantages inherent in current techniques by proposing a constructive system for the realization of the envelope of timber frame buildings without requiring technical knowledge, or means or special tools. The construction system according to the invention is composed mainly of rigid insulating blocks (polystyrene or styropor or other), elements of the structure itself, wood or other materials and blocks of joinery. These different parts are characterized in that they are dimensioned and grooved in a particular way to allow the assembly piece by piece and span by span of the structural work of the timber frame house These elements of low weight and small dimensions combine perfectly between them and allow a piece-by-piece and span-by-span assembly, as the work progresses, eliminating the handling problems encountered in the systems currently used.

In a particular way to the invention, the assembly of the elements piece by piece and span by span in progress, also makes it possible to solve in a very safe manner the problems related to and the installation of the insulation panels. and those related to the embedding of joinery in rabbets provided for this purpose. This way of doing the work is of particular interest to the small craftsman and even to the self-builder. Regarding the respect of current or future thermal regulations a particularly simple way to comply, see ahead of these requirements is offered by the invention, since it is sufficient to increase the thickness of the insulation blocks, which does not lead to as consequences (besides this modification) that the resizing of the lengths of the elements of horizontal structure (the spacers). The constructive system according to the invention is composed of five types of insulating blocks. The standard type, intended for the assembly of the current walls of the structure and characterized in that it is grooved on its faces, in a particular way, so that the elements of the wood structure can come to be integrated piece after piece of only one way. The construction system according to the invention also comprises two particular types, the corner blocks (standard width) and (increased width) for mounting the corners of the structure. These two types of blocks are characterized in that they are dimensioned in a particular way in order to be able to marry each other, alternating one and the other block during their superposition. They are also grooved on their faces in a special way, so that the elements of the wood structure can come to integrate there piece by piece, in a single and unique way, after the laying of each block, for the elements of horizontal structure to be embedded on the external and internal faces of the wall as well as for the elements of horizontal structure serving as spacers and, when the angle of the building has arrived, by the superposition of several blocks at floor height, for the elements to insert into the vertical structure. The constructive system according to the invention comprises two other types of particular insulating blocks, the frame blocks for carpentry blocks, the block receiving the carpentry block, and the block enclosing the same block of joinery. These blocks are particularly grooved for embedding on the one hand the structural wood and on the other hand the frames of the carpentry blocks. The constructive system, according to the invention also includes Carpentry Blocks (doors or windows), intended to be set up, framed by the Blocks opening. They are specially manufactured industrially in a special way to be able to snap between the Receiving Block and the Closing Block. The construction system, according to the invention also includes all the elements of the wood structure that will be bent piece after piece in the grooving of the various blocks to achieve the work piece after piece and span by span, without any possibility of d 'error. Horizontal elements (spacers) landing after the installation of each block. When the height of stage is reached, the establishment of the elements of vertical structure to be built can be done and as the junction points of the elements of the structure by screwing or nailing are always accessible it makes it possible to perfectly tighten the elements of the structure on the various insulating blocks thus making the work airtight. The elements of the upright vertical structure, and the reinforcing triangles of the bracing of the structure, finally complete the structural work. The accompanying drawings illustrate the invention. FIG. 1 is a schematic representation (seen from above) of a part of a structure comprising the necessary and sufficient sets of various components, which, according to the invention, come into use in the implementation of a timber frame construction . (With external finishes by BARDAGE WOOD (or other)). In Figure 1, the structural woods and finishes are detailed in: 9 - Built-in vertical structure. - Vertical structure not built-in. 11 - Horizontal structure of built-in width in the faces. 12 - Horizontal structure of thickness (inter-toise). 13 - Bracing reinforcement triangle. 10 14 - Plasterboard (or others). - Technical vacuum for passage of fluids (electricity, hydraulics .....). 16 - Wood exterior cladding (or other). 17 - Cladding ventilation gap. FIG. 2 is a diagrammatic representation (seen from above) of a part of a structure comprising in section and from above, the assemblies of the various components which come into use according to the invention in the implementation of a construction to wood frame with external finishes by any type of thin, sprayed, sanded or other coatings for use on polystyrene or styropor or other supports and benefiting from the corresponding technical advice.

It should be noted that the difference compared to the wood cladding finish (or others) and the finish by coatings, is limited to modifying the grooving of the blocks (external facade side) so as to be able to always incorporate piece by piece and to advancement, the structural elements which are inserted inside the insulating blocks (the vertical structure element not embedded, becoming a structural element embedded in the same thickness of the insulating block), thus providing a surface of external facade compatible with the finish by laying plaster. Fig. 3 is a view of the Standard Block. It is intended for the assembly of the current walls of the structure. Its preferred dimensions are: Height = half height of floor or height of floor.

Width = 600 or 1200 mm Thickness = function of the desired thermal performance. It is provided with grooves for embedding structural timber. Fig. 4 is a view of the Standard Width Corner Block. Its preferred dimensions are: height = 1/4 floor height Width = 600 mm or 1200 mm Thickness = at the Standard Block. It is provided with grooves for easily embedding structural timber. Fig 5 is a view of the Corner Block, Width Augmented. Its preferred dimensions are: height = 1/4 height of the floor Width = 600 mm or 1200 mm + thickness of the blocks Thickness = to the Standard Block. It is provided with grooves for easily embedding structural timber. NOTE TWO HALF-GROOVES 3a which allow the crossings of the spacers during the crossing of the corner blocks. Figure 6 is a view of the block receiving joinery (doors or windows). It is provided with grooves for embedding the structural wood as well as the Carpentry Blocks.

Figure 7 is a view of the Block enclosing joinery (doors or windows). It is provided with grooves for easily embedding structural wood as well as Carpentry Blocks.

Fig 8 is a view of the Carpentry Blocks (doors or windows). With reference to these drawings, the present invention relates to a wood frame construction consisting of standard insulating blocks Fig 3, corner 4, 5, those framing the carpentry Fig 6, 7, the carpentry blocks Fig 8 and the woods of structure fig 1 (9, 10, 11, 12). The whole being necessary and sufficient to realize the structural work of a house with wooden frame (MOB). The mounting system is very simple and does not require tools or special technical knowledge. The work will begin with the construction of an angle using the corner blocks (4 and 5) (standard and increased width), which will be mounted so as to cross them alternately (marry) up to 'floor. It will also be useful for reinforcing the cohesion of the walls to glue the different elements together. At each installation of a block, embed the horizontal structural timber (11 - 12) in the grooves provided in this block. At the floor level, embed the vertical structural timber (9), then secure the set of structural wood by screwing or nailing. Be sure to tighten the structure on the blocks, using clamps if necessary. The installation of the elements 10 can then intervene. Note that the fastening "tightened" by screwing or nailing structure wood (10) on the structural timber (9) strengthens their bearing capacity and their resistance against buckling and also provides additional insurance for the waterproofness of the structure . Continue the construction by placing standard blocks (3), proceed as for mounting the angle by embedding the horizontal structures as and when the positioning of each block, end with the establishment of vertical woods to recess (9), then fix on them the wood (10), and if necessary, the reinforcing triangles (13). Finish the current span by solidifying the horizontal timber and the spacer wood by screwing or nailing, always making sure to tighten the structure on the insulating blocks to ensure the airtightness of the structure . Proceed in the same way for the framing blocks as well as the carpentry blocks until the good end of the work. Preferentially proceed to the establishment of gypsum board to the progress of the work. According to a particular embodiment, and in the case where an external finish by coating is prescribed by the master of work, the wood frame may be incorporated for its outer part inside the blocks according to a particular grooving (see fig 2). This way of assembly, allows to realize on the external facade of the wall, a thin or thick coating, benefiting from a corresponding Technical Notice, for application on polystyrene, styropor or other. Note that this requirement requires, in addition to the modification of grooving blocks produced industrially, that the modification of the length of the spacers 12. In all cases, all the singular points for securing the structure on the blocks are still accessible " piece by piece, the progress of the work and span by span. The vertical structural woods may be of various sections, square or rectangular and their size will be determined by the type of building to be built. A vapor barrier and or a rain screen can also be provided by the contractor, their implementation being extremely simplified by the wood structure. The construction system is according to the invention particularly intended for the construction of highly efficient buildings in terms of energy performance.

Claims (8)

CLAIMS1) The constructive system, according to the invention is intended for mounting the structural work of wood frame house. characterized in that it comprises insulating elements Blocks 3, 4, 5, 6, 7, opening blocks, (carpentry, doors and windows) 8, and elements of vertical structure 9, to be embedded in the vertical grooves of the insulating blocks, vertical unframed structural members 10, horizontal structural elements 11, to be embedded in the horizontal grooves of outer and inner faces of the insulating blocks, and other built-in members of thickness (the spacers) 12, to be embedded in the horizontal grooves located in the thickness of the insulating blocks as well as reinforcing triangles of the bracing 13. 2) Construction system according to claim 1) characterized in that it comprises a type of insulating block, the Standard Block 3 for mounting the current walls of a timber frame house. It is grooved on its faces in a special way so that the elements of the wood structure can come and integrate in one and the same way. 3) Construction system according to claim 1) characterized in that it comprises two types of particular insulating blocks, the Corner Blocks 4 and 5, for the creation of the corners of the timber frame house. These Angle Blocks are dimensioned and grooved in a particular way to allow the realization by marrying them angles of the construction. 4) Construction system according to claim 1) characterized in that it comprises two other types of insulating blocks, the Framing Blocks 6 and 7, for framing the Carpentry Blocks 8. These Framing Blocks are sized and grooved in a particular way to enable the positioning of the Carpentry Blocks 8. 5) Construction system according to claim 1) characterized in that it comprises Blocks Carpentry 8, particularly industrially manufactured, upstairs to come to snap between the Framing Blocks 6 and 7 to the advancement. 6) Construction system according to claim 1) characterized in that it comprises wood structure elements 11 to be embedded horizontally as and when the laying of the different blocks in the grooves provided on the inner and outer faces of the different blocks. 7) Construction system according to claim 1) characterized in that it comprises wood structure elements 12, to be inserted horizontally as and when laying the various blocks in the grooves provided for this purpose in the thickness of the blocks. 8) Construction system according to claims 6 and 7) characterized in that the securing of the structure on the insulating blocks is realized only after the establishment of blocks and bay by span, which allows to enclose closer to the set of elements of the structure on the insulating blocks.