FR2988749A1 - Insulating structural panel for house, has polyurethane foam sandwiched between external asbestos cement face and inner magnesium oxide face for use in external partition, or between two magnesium oxide faces for use in interior partition - Google Patents

Abstract

The panel has a polyurethane foam sandwiched between an external asbestos cement face and an internal magnesium oxide face for use in an external partition, where the polyurethane foam is sandwiched between two magnesium oxide faces for use in an interior partition, and electrical boxes and conduits are incorporated in the polyurethane foam. (Incomplete specification, abstract based on available information published by the patent office).

Description

WHAT IS AN INSULATING STRUCTURAL PANEL? Structural Insulating Panels are composed of: - An external fiber cement face. - A center made of polyurethane foam. - An internal surface of magnesium oxide. It provides excellent insulation with an R value of more than 20. pelyweemne foam Cement Fiber and magnesium oxide are among the materials that are rated non-combustible class A. Both panels are completely impermeable to moisture deterioration. WHY THE S.I.P. RATHER THAN A TRADITIONAL WOOD SYSTEM? ECONOMY: Thanks to its incomparable insulation, your energy bill will be considerably lower than with a "traditional" house. COMFORT: The main advantage of houses built with the SIN CONCEPT system is an unparalleled feeling of comfort. As insulation is an integral part of the SIN CONCEPT system, thermal performance comes to the fore. Having no thermal bridge, air infiltration and humidity are non-existent QUALITY: You have, no doubt, noticed how a traditional wall can deform and sometimes even crack. These problems are non-existent with the SIN CONCEPT system. The outer and inner surfaces are continuous, smooth and straight for a perfect finish even when using plaster or plaster finish. RAPIDITY OF ASSEMBLY: The use of the system SIN CONCEPT makes it possible to optimize the time of assembly, the house is thus quickly out of air and out of water allowing the other trades to intervene as quickly as possible and allowing you to to develop quickly.

Frietvù inp Cement fiber Magnesium oxide Color Gray White Asbestos content 0% No asbestos 0% No asbestos Density Kg / M3 High density: 14 / 1500kg / M3 850 / 1000Kg / M3 Flexural strength> _17MPA k18MPA flammability Incombustibility Class A (GB8624-A) Incombustibility Class A (GB8624-A) Thermal conductivity On average 50.20W / m ° C On average 50.32W / m ° C Thermal expansion coefficient 0.24 0 Linear expansion ratio ( wet) 5.0.1% 50.26% Water absorption rate 5350/0 540% Water penetration rate 0 0.11-0.14 Moisture content 510% 515 ° / 0 Radioactivity GB6566-2001 Class A GB6566-2001 Class A Polyurethane foam Core density 36Kg / m3 Compressive strength 0.24MPa Shear strength 0.19MPa Moisture vapor transmission 2-3 perm-in Closed cell contents k900 / 0 K-Coefficient, initial 0.25W: m. ° C Dimensional stability volume _ @ - 40 ° C @ 93 ° C @ 70 ° C, 95% RH 14 days -0.1% 2.9% 6.0% Maximum operating temperature m 82 C Flammability ASTM E-84, 102mm Flame Spread 55. 2 5 Smoke Clearance 5450 The panel was loaded with several stacks of cement bags Panel Characteristics Total Length 2.44 m Total Width 1.22 m Thickness 0.10 m Range 2.30 m Area to be loaded 2.81 m2 Bag 25.00 kg Note: The panel was loaded on the side of the plate 12 mm thick. The 8mm plate was under voltage Load and unload Step Number Load% gap "1 / ??? Total bag load mm 1.00 0.00 0.00 kg 0.00 0.000 2.00 8.00 200.00 kg 2.00 0.001 1 150 0.71 kN / m2 3.00 12.00 300.00 kg 3.00 0.001 767 1.07 kN / m2 4.00 14.00 350.00 kg 4.00 0.002 575 1.25 kN / m2 5.00 16.00 400.00 kg 6.00 0.003 383 1.43 kN / m2 6.00 20.00 500.00 kg 7.00 0.003 329 1.78 - kN / m2 7.00 22.00 550.00 kg 8.00 0.003 288 1.96 kN / m2 8.00 24.00 600.00 kg 9.00 0.004 256 2.14 kN / m2 9.00 28.00 700.00 kg 10.00 0.004 230 2.49 kN / m2 10.00 32.00 800.00 kg 14.00 0.006 164 2.85 kN / m2 Unloading 11.00 32.00 800.00 kg 14.00 0.006 164 2.85 kN / m2 12.00 24.00 600.00 kg 9.50 0.00 242 2.14 kN / m2 13.00 16.00 400.00 kg 7.00 0.00 329 1.43 kN / m2 14.00 8.00 200.00 kg 3.00 0.00 767 0.71 kN / m2 15.00 0.00 0.00 kg 0.00 0.00 # DIV / 0! 0.00 kN / m2 Note French maximum code NV Zone 5 (Caribbean) 2.14 kN / m2 SIP Insulating Structural Panels Vertical Load Test The SIP Insulation Structural Panel has been subjected to a compressive load of metal coils arranged on a pallet. Characteristics of the panel: Total length 2.44 m Total width 1.22 m Thickness 0.10 m Composition of the external surfaces: Board of magnesia 12 mm Foam of polyurethane 80 mm Board of magnesia 8 mm Total 100 mm The panel was held in height by two articulated hooks of: Keep the panel upright Receive the load from the pallet Load Total Weight in horizontal deviation Vertical gap each kg load in kg 1 1053 1053 2 1053 2106 1 mm 1 mm 3 729 2835 7 mm 3 mm No sign of crack are undergoing official tests to define the maximum weight of resistance.

Installation instructions for interior SIP panels 79mm insulation partitions Description of the panels a) Size of the plates: (the imperial dimensions are rounded in mm) - Width 1220mm (ex4 "= 1209mm) - Heights of 8", or 9 "are: 1 - 2440mm 2- 2745mm - Thickness, this one to be able to assure a substitute to American products in placo-style (63mm (2 1/2 ") uprights). This also allows the use of existing door frames. - Joints 1- To make joints compatible with the use of magnesia for the plates of the skins must be 5mm. This one is cut after 1 day or two. 2- The joints are made with putty (type: Bostick Urethane or Sikaflex) 3- The finish is carried out in a normal way with a painter's coating. b) Products - For panel skins. 1- These are in 8mm magnesia comparable to the resistance of 13mm plasterboard 2- Fixing plates to 20 / 25mm edge plates (not thinned) with a pre-hole preferably. 3- This product is insensitive to water 4- The 5mm seals are given automatically by the profile of the plates to the manufacture For the foam 1- It is an injected polyurethane foam. 2- It is also closed cell and therefore insensitive to water (this is an advantage for wet rooms). The installation of the boards Setting the dimension (height) of the panels - Hsp-20mm within the limit of the maximum measurement of the panels supplied of 2745mm - The maximum ceiling height is therefore 2745 + 20 = 2765mm - Width of the panels is 1220mm Laying of high and low rails - Smooth 82mmX15mm lenght - Ankle fixation with a maximum interval of 1.00m - Smooth high of 82mmX4Omm 1- Fixation by dowel with a maximum interval of the meter Introduction of the plates - Approach the prepared plate (height) - Insert the top of the plate into the upper U - Pass over the 15mm low rail - Rest in the lower rail - Translater horizontally to thread the tabs from one panel to the other. (the tongues are coated with glue with the same product as previously indicated, light gluing) Fixing the panels - Upstairs according to the finish of the ceiling and partitions 1- By a cornice glued if there is no false ceilings 2- Through a false ceiling that has a minimum space of 100mm for the passage of electricity and plumbing coming from the partitions (PER) without interference with the upper U - Down by laying skirting boards screwed from and others - Additional attachment to the request in the upper part of the U metal by self drilling screws. Finishing of the panels - Treatment of the joints (no bottom of joint) - Coating of normal painting Special and singular cases - Incorporation of the electric boxes and leads in the foam 1- Attention to the section of the cables to avoid the heating of these in the middle of the foam 2- There is no problem with the weak currents - Incorporation of PER 1- This incorporation is carried out on the base of electric sheath and elbows crimping at both ends housed in normal rectangular boxes 51X102mm - Note: All these incorporations must have a precise and repetitive layout plan if possible Precautions - Storage of plates

Claims (1)

REVENDICATIONS1. After a long storage, the plates tend to CLAIMS1. After long storage, the plates tend to take the bending given to storage: a. Ground not plan and difference between the 3 pieces of wood left for the recovery by the charger b. Curved plates that have a sense of pose!