RU147744U1 - CONSTRUCTION OF NON-OPERATING COATINGS FOR CARRYING WOODEN CONSTRUCTIONS WITH HEAT INSULATION FROM FOAM-GLASSED CRUSHLINE - Google Patents

Abstract

The design of the non-exploitable coating on the supporting wooden structures, including a rafter, a grating, a crate, a vapor barrier, a hydro-windproof membrane, a single-channel ventilation gap, characterized in that foam-glass rubble is used as a thermal insulation layer, filled in the sinuses formed by a wooden rafter and filing.

Description

The utility model relates to the constructive solution of non-exploitable coatings for load-bearing wooden structures with a heat-insulating layer based on a porous material, namely, foam glass rubble.

Known heat-insulating mat, consisting of a fabric sheath, divided into separate sections, which are filled with granular foam glass without sealing (RF patent No. 44699, IPC E04B 1/76, F16L 59/00, publ. March 27, 2005).

This foam glass thermal protector is versatile, lightweight and reusable. Foam glass has a high strength of 0.7-1.5 MPa. The coefficient of thermal conductivity of light and heavy foam glass is 0.06-0.08 W / (m · K). Since granular foam glass is made from household waste and container glass, its use is economically and socially beneficial. The uniformly distributed closed-porous structure with the molten surface of the granules makes it a non-hygroscopic material that does not lose heat-insulating properties in wet conditions.

The disadvantage of the heat-insulating mat is the lack of manufacturability for many practical applications, including in the construction of roofs.

The closest in technical essence to the claimed utility model is the construction of a multilayer roofing, containing laid and mechanically fixed on the base of the corrugated board with sinuses, as well as thermal insulation, a vapor barrier layer laid on the corrugated board and repeating the profile of the corrugated board, and a waterproofing layer, while the vapor barrier layer is made from a polymeric material based on ethylene-propylene-diene rubber, the thermal insulation is made of self-foaming non-combustible heat-insulating material on an inorganic base deposited on the vapor barrier layer and filling the sinus and the foam plates laid on it, while the waterproofing layer made of a polymer material based on ethylene-propylene-diene rubber of reduced combustibility is laid on the foam plate (RF patent No. 41763, IPC E04D 11/00, E04D 11/02, publ. 10.11.2004).

This design is not technologically advanced for erecting a non-operational coating on load-bearing wooden structures, as it complicates the design and also requires additional costs for the preparation of piece elements of the heat-insulating layer of the required configuration (depending on the height and pitch of the rafters).

The objective of this utility model is to develop a technologically advanced construction of non-operational coatings on load-bearing wooden structures with the material of the heat-insulating layer, which allows forming the required configuration of individual sections of the heat-insulating layer without additional costs (depending on the height and pitch of the rafters).

The problem is solved using the design (Fig. 1), consisting of a layer of foam glass rubble (1), laid layer by layer with tamper on the vapor barrier layer (4) in the sinuses formed by filing (3) to the bottom of the wooden rafter (2), and covered in the upper part of the hydro-windproof membrane (5). To prevent moisture accumulation on the surface of the hydro-windproof membrane (5), a single-channel ventilation gap (8) is provided, which is formed by installing a counter-lattice (6) and a lath (7) on a wooden rafter (2). The roofing device (9) is made over the lathing (7).

This design provides high thermal protection parameters due to the low coefficient of thermal conductivity of foam glass rubble (in the filling - 0.085 W / m · ° C), as well as the possibility of forming the required configuration of individual sections of the insulating layer (depending on the height and pitch of the rafters) due to the possibility the use of foam glass rubble of various fractions.

Claims (1)

The design of the non-exploitable coating on the supporting wooden structures, including a rafter, a grating, a crate, a vapor barrier, a hydro-windproof membrane, a single-channel ventilation gap, characterized in that foam-glass rubble is used as a thermal insulation layer, filled in the sinuses formed by a wooden rafter and filing.

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