RU146269U1 - CONSTRUCTION OF FOUNDATION FOUNDATION FOUNDATIONS WITH THERMAL INSULATION FROM FOAM-GLASS CRUSHED - Google Patents

Abstract

The construction of shallow foundations, including the base of the foundation, basement walls, basement floor on the ground, blind area, waterproofing, characterized in that foam glass is used as a single material of thermal insulation and backfill, laid on a drainage layer of geotextiles.

Description

The utility model relates to a constructive solution of shallow foundations 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 where structural rigidity is required, including in the construction of foundations. In addition, in the process of backfilling the sinuses of the pit, damage to the tissue membrane of the mat is possible.

The closest in technical essence to the claimed utility model is the construction of a heat-insulating foundation containing a wall, a sole, a wall insulation, an additional base insulation, connected to the sole and blinds insulation. The bottom edge of the foundation insulation is below the level of freezing of the soil, and along the edge of the insulation of the blind area there is an external moisture-proof gasket. Under the sole there is also an additional moisture-proof gasket connected to the external moisture-permeable gasket, and there is a backfill between the base insulation and the external moisture-proof gasket (RF patent No. 2413057, IPC E02D 27/01, publ. 02.27.2011).

This design is not technologically advanced for the thermal insulation of shallow foundations, as it leads to additional expenses due to the separation of works on the thermal insulation of the foundation soles, basement walls, blind areas and backfilling of the excavation sinuses.

The objective of this utility model is to develop a technologically advanced construction of shallow foundations with a material that combines the functions of backfilling the foundation sinuses and thermal insulation of the foundation sole, basement walls, blind areas and basement floors along the ground.

The problem is solved using the design (Fig. 1), consisting of the sole of the foundation (1), the walls of the basement (2), backfilling of the pit sinuses with foam glass rubble (4) with tamping on the laid drainage layer of geotextile (13), after the drainage device ( 16) and waterproofing (15) followed by leveling the open surface of the foam glass rubble (4) under the blind area (8) or covering the basement floor on the ground with cement-sand mortar (5).

This design makes it possible to combine the thermal insulation function of the base of the foundation, basement walls and blind areas in the shallow foundations, due to the low coefficient of thermal conductivity of foam glass rubble (in filling - 0.085 W / m · ° C), with the backfill function due to the possibility of using foam glass different fractions.

Claims (1)

The construction of shallow foundations, including the base of the foundation, basement walls, basement floor on the ground, blind area, waterproofing, characterized in that foam glass is used as a single material of thermal insulation and backfill, laid on a drainage layer of geotextiles.

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