FR2986249A1 - PREFABRICATED CARRIER INSULATION WALL FOR THE CONSTRUCTION OF RESIDENTIAL HOUSING AT LOW ENERGY CONSUMPTION - Google Patents

Abstract

Prefabricated load-bearing insulation wall for the construction of homes with very low energy consumption. The invention relates to a wall for mounting in a single operation a load-bearing wall, including insulation and passages of ducts, ready to directly receive an exterior and interior finish. This insulating load-bearing wall allows the implementation, at once, of all the elements traditionally used separately in the construction of an insulated wall: structure, insulation, waterproofing and passages of ducts. The wall consists of two panels of OSB (or similar) that sandwich an insulating plate, stabilized rigid polyurethane plate previously machined to integrate the passage of ducts and reservations for the various assemblies. The wall manufactured industrially according to the invention is particularly intended for the construction of homes that are economical to purchase and at very low energy consumption.

Description

The present invention is an industrially prefabricated carrier insulating wall. It combines all the technical, mechanical and thermal qualities of a building wall with high energy efficiency. The technical characteristics of this wall allow the industrial manufacture of elements intended for the construction of houses with very low energetic consumption. The manufacture of self-supporting sandwich panel walls is traditionally carried out by injecting liquid polyurethane foam between two OSB panels. This technique has the following disadvantages: - Possibility of formation of air bubbles within the insulation; - more or less significant deformation of the final product; - Risk of delamination of the panels. On the other hand, the injection of liquid polyurethane foam does not provide for the reservation of the passage of ducts (electricity and water). It forces to treat the passage of the ducts in a second time according to one of the following two procedures: An integrated solution consisting of digging the wood panel and the insulating polyurethane foam to provide a passage to the ducts, which presents the double disadvantage of degrading the mechanical and thermal resistance of the wall, and requiring a dressing of the parts started; 25 An external solution that consists of fixing the exposed ducts on the inside of the wall. In order to hide them, this procedure imposes the use of the use of plasterboard, or the like, fixed on a wooden or metal frame, then presenting the triple disadvantage of a loss of living space, a heavier structure and its implementation, as well as an increase in the overall cost of construction. The prefabricated carrier insulating wall according to the invention solves all the disadvantages associated with traditional techniques. It consists of two panels of OSB (or similar) that sandwich a rigid polyurethane insulating plate pre-machined. The solid polyurethane sheets are manufactured and stabilized upstream, which prevents the formation of air bubbles within the insulating layer and any risk of deformation of the final wall.

The assembly of the OSB panels with the polyurethane insulating plate is achieved by gluing and pressing. This method of assembly associated with the prior stabilization of the polyurethane insulation allows: - to eliminate the risk of delamination of the final product; - to guarantee the flatness of the final wall. The insulating plate is machined before assembly of the constituent elements of the final wall object of the invention. This machining is found at three levels: - passages ducts techniques on the inner face of the insulator over the entire height of the panel. - Disbursement of the upper part of the plate to receive the sand pit, and the lower part so that it fits on the anchor to the ground. lateral passages for receiving wood assemblers which provide the mechanical adjustment of the walls according to the invention between them. This mechanical assembly juxtaposes the lateral faces of the insulation of each wall, allowing to assemble by bonding the two insulating plates ensuring the tightness of the final wall. These precision machining is made possible by the previously solid and stabilized state of the polyurethane plates. They provide the guarantee of a final assembly without thermal bridges and mechanical weakening. They avoid the use of a doubling of the wall and avoids the other disadvantages associated with the post-installation of ducts in the traditional methodology. The prefabricated carrier insulating wall according to the invention, by design, allows a direct finish on its inner and outer faces without weighing down or weakening its structure. The design of the prefabricated carrier insulating wall object of the invention requires no framework: it is intrinsically carrier. The accompanying drawings illustrate the invention: FIG. 1 shows a cross-section of the machined polyurethane insulating plate before assembly with the OSB panels. Figure 2 shows a cross section of the prefabricated carrier insulating wall.

Figure 3 shows a longitudinal section of the prefabricated carrier insulating wall. Figure 4 shows a cross section of an assembly of two prefabricated carrier insulating walls. With reference to these drawings, the machining work carried out on the solid polyurethane insulating plate (3), in FIG. 1, is observed, with on its face on the inside of the construction three passages of ducts (1) regularly spaced apart. , and on its sides the machining (2) corresponding to the location of the mechanical assemblers for assembling the various insulating panels carrying them. According to non-illustrated variants, the machining of the insulating plate linked to the duct passages can combine horizontal passages and vertical passages; the design of this machining is linked to the specifications for the "electricity" and "water" plants. Figure 2 shows the wall with all of its components. The OSB panels (4) and the machined insulation board (3) were glued followed by pressing. The desired dimensions and flatness are respected because of the prior stabilization of the insulation panels used. The insulation is flush with the lateral edges of the wall so as to achieve a sealing bond between the insulating parts of the successive walls. Figure 3 reveals, between the OSB panels, the location 30 (5) dedicated to the insertion of the floor and the location (6) dedicated to the passage of the sand pit. The thickness of the wall depends on that of the polyurethane insulation board, determined according to the objectives set in terms of the desired level of insulation of the building. By way of example, the common dimensions used for passive house construction are: thickness 200 millimeters (10 mm OSB, 180 mm polyurethane, 10 mm OSB), height -4-2850 millimeters and width 1100 mm. These dimensions, and in particular the intentionally reduced width to facilitate handling by two individuals, are of course adjustable according to the objectives set.

Finally, Figure 4 shows the assembly made between two prefabricated carrier insulating walls. We can observe the wood assemblers (7) that took place in their housing reserved for the machining of the polyurethane insulation board, as well as the perfect juxtaposition (8) of the insulating plates of the two successive walls, whose interlocking is achieved by bonding the faces in contact. The wall manufactured industrially according to the invention is particularly intended for the construction of homes saving for purchase and energy consumption.

Claims (6)

CLAIMS1) Prefabricated carrier insulating wall characterized in that it consists of two panels of OSB (or similar) which sandwich a pre-machined insulating rigid polyurethane plate. 2) Panel according to claim 1 characterized in that the assembly of the wood and insulating elements between them is achieved by gluing and pressing. 3) Wall according to claim 1 characterized in that the rigid polyurethane insulating plate is machined on its inner face, before its assembly with the wood panels, to leave regularly spaced passages to the ducts ensuring their tightness in the finished wall. 4) Wall according to claim 1 characterized in that the rigid polyurethane insulating plate is pre-machined so as to provide reservations corresponding to the connecting elements of the panels to the basic structure of the construction and its frame. 5) Wall according to claims 3 and 4, characterized in that the rigid polyurethane insulating plate is pre-machined so as to provide reservations corresponding to the connecting elements of the panels together. 6) Wall according to claim 1 characterized in that the side faces of the panel allow a face-to-face bonding of the insulating portion of the panel with that of the adjacent panel so as to achieve the airtightness and water of the finished wall.