UA69989U - Heat-insulation mix - Google Patents

Abstract

Heat-insulation mix includes granulated heat-insulation material as foamed polystyrene balls and/or granules of expanded pearlite and vermiculite with diameters 3-5 mm. The mix additionally includes filler for air gaps between the balls/granules as not granulated super-thin basalt, glass, cellulose fiber with diameters 1-3 micron, and/or mix of those.

Description

The useful model belongs to the field of civil and industrial construction, in particular to the production of heat-insulating dry mixes. The mixture is intended for heat and sound insulation and fire protection of internal and external walls, floors, ceilings, and roofs and can be used both in the construction of new and in the reconstruction of existing buildings and structures for residential, public and industrial purposes, as well as for the purpose of heat and sound insulation and fire protection of pipelines, industrial equipment and aggregates

The well-known "Method of arranging the floor", in which expanded clay and semi-hydrogen gypsum crushed stone are used as a heat-insulating layer (Authority of the USSR Mo1402655, MPK-4, EO4R 15/12, BV-22-19881.

This so-called "wet" method of laying the heat-insulating layer is quite technological in the construction of new buildings and structures. But its use during partial reconstruction and repair work is quite difficult. The heat-insulating layer according to this well-known "wet" method cannot be used on walls and ceilings due to the long drying time and high density of the mixture. In addition, the gypsum component has a fairly high coefficient of thermal conductivity.

"Heat-insulating board" is also known, consisting of foam plastic based on carbamide-formaldehyde resin. At the same time, it additionally includes reinforcement in the form of a honeycomb made of cardboard, fiberglass or plastic (Patent of Ukraine Me23739, MPK-2006, E04S 2/10, Byul. Mov, 20071.

However, the use of such a heat-insulating structure is limited, mainly by the arrangement of the floor, due to the low manufacturability and complexity of the heat-insulating structure.

In addition, such thermal insulation emits harmful substances into the air, which harm human health and can cause cancer.

The closest in technical essence to the useful model that is claimed are the known types of granulated thermal insulation in the form of granulated mineral wool, expanded perlite and vermiculite and polystyrene balls with a typical diameter of granules of 3-5 mm (TU 64-16625423-01-07.

Such thermal insulation is very convenient and technological when performing a wide variety of construction works, which can be performed by the method of backfilling or pneumatic laying.

However, the wide application of the above types of granular thermal insulation is limited by a significant drawback - the existence of air gaps between individual granules. These gaps become channels for the emergence of convection air flows, which transfer heat and significantly worsen the thermal insulation properties of granular thermal insulation.

The basis of the proposed useful model is the task of finding an effective heat-insulating mixture by introducing into known granulated heat-insulating materials an effective filler of the gaps between the granules, eliminating the possibility of the development of convection air flows between them, and thus ensuring significantly better heat, sound and fireproof characteristics of granulated heat-insulation .

The problem of the useful model is solved by the fact that the mixture of granulated heat-insulating material in the form of expanded polystyrene balls and/or granules of expanded perlite and vermiculite, with a diameter of 3-5 mm, according to the useful model, additionally contains a filler of air spaces between the granules in the form of non-granulated superfine basalt, cellulose, glass fiber with a diameter of 1-3 μm, and/or their mixture with the following volume ratio of components: polystyrene balls and/or granules of expanded perlite and vermiculite - 50-74 9o; basalt, glass, cellulose superfine fiber, fiber diameter 1-3 μm, and/or their mixture - 50-26 vol.

Non-granular superfine basalt, glass or cellulose fibers added to the balls/granules or their mixtures fill the gaps between the polystyrene foam balls and/or the granules of expanded perlite and vermiculite, blocking the channels of the possible formation of convection currents, thus creating a heat-insulating mixture based on granular heat-insulation, divided into 1 ,5-2 times better thermal, sound and fireproof characteristics than similar completely granulated ones.

Thus, due to the addition of the proposed filler of the air spaces between the granules in the form of non-granulated superfine basalt, cellulose, glass fiber, with a diameter of 1-3 microns, and/or their mixture, the set task of the useful model is solved, namely, the channels for the possible formation of convection currents are overlapped , as a result of which heat transfer, sound transmission is reduced and the fire-resistant characteristics of the mixture are increased.

For the production of heat-insulating mixtures based on granulated heat-insulating material 60, standard technological equipment is used - paddle or drum mixers, adapted to mixing the corresponding components, set in a certain ratio. Mixtures can also be produced under appropriate conditions, directly on construction sites, in bunkers of pneumatic mixing units.

Depending on the needs of the customer, ready-made mixtures can be packaged and delivered to objects in packages of various types, in particular, returnable packaging of the bid rad type, or in polyethylene bags packaged in 10-20 kg units.

Example 1

Styrofoam balls and/or granules of expanded perlite and vermiculite with a diameter of balls/granules of 3-5 mm, according to TU 64-16625423-01-07, are placed in a drum mixer in the amount of 5095 of the specified volume composition of the mixture. 5095 non-granular basalt, glass, cellulose superfine fibers with a diameter of 1-3 microns and/or their mixture are added to it, according to TU U V.2.7.88 023.025-96. After that, these components are mixed to a homogeneous consistency in the hopper of the drum mixer.

Example 2

The heat-insulating mixture is prepared similarly to example 1, only taking into account the following volume composition of the components: expanded polystyrene balls and/or granules of expanded perlite and vermiculite - 62 95; aggregate - non-granular basalt, glass, cellulose superfine fiber, 1-3 microns in diameter, and/or their mixture - 38 95.

Example C

The heat-insulating mixture is prepared similarly to example 1, only taking into account the following volumetric composition of the components: expanded polystyrene balls and/or granules of expanded perlite and vermiculite -74 95 and filler - non-granular basalt, glass, cellulose superfine fiber, 1-3 microns in diameter, and/ or their mixture - 26 95.

Heat-insulating mixtures made according to examples 1, 2 and 3 are distinguished by the fact that they prevent the development of convection air flows between balls/granules, due to which they have 1.5-2 times better thermal, sound and fireproof characteristics than other similar ones.

Claims (1)

FORMULA OF USEFUL MODEL Zo Heat-insulating mixture containing granulated heat-insulating material in the form of polystyrene foam balls and/or granules of expanded perlite and vermiculite with a diameter of 3-5 mm, which is distinguished by the fact that the mixture additionally contains a filler of air spaces between the balls/granules in the form of non-granular superfine basalt , glass, cellulose fibers, with a diameter of 1-3 microns, and/or their mixture with the following volume ratio of components: expanded polystyrene balls and/or granules of expanded perlite and vermiculite, with a diameter of 3-5 mm 50-74 95 non-granular basalt, glass and /or cellulose superfine fiber, 1-3 microns in diameter, and/or their mixture 50-26 Fo. 0000 Komputernaverstkad Ryabko 00000000 State Intellectual Property Service of Ukraine, st. Urytskogo, 45, m. Kyiv, MSP, 03680, Ukraine SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, m. Kyiv - 42, 01601