RU160985U1 - THERMAL INSULATION COATING - Google Patents

Abstract

A heat-insulating coating containing a heat-insulating layer made of a binder material and microspheres, a shielding layer containing a metal with a high reflection coefficient, characterized in that a shielding layer is applied to the heat-insulating surface, on which the heat-insulating layer is applied, the material of the binder heat-insulating layer is made of foam material, forming cavity.

Description

The utility model relates to the field of heat engineering and is intended for use as heat insulation on pipelines and equipment of heat supply systems, hot and cold water supply, cold supply, oil pipelines, gas pipelines, steam pipelines, building envelopes.

Known heat-insulating coating based on layers of woven or non-woven materials with a polymer heat-insulating layer deposited on the substrate by adhesive (see patent No. RU 2194915 C2, F16L 59/08, publ. 12/20/2002). The composition of this coating introduces a metal layer of aluminum foil deposited on a heat-insulating polymer layer on the opposite side of the side to reduce heat transfer by radiation. It is also possible to introduce a reinforcing mesh between these layers.

The disadvantage of this solution is the low manufacturability in the manufacture of this heat-insulating material and the low temperature of its application.

The closest in technical essence to the proposed utility model is a heat-insulating coating consisting of a binder material and hollow microspheres inserted into it, located on a thermally insulated surface (see utility model patent RU No. 101466, IPC E04B 1/76, published January 20, 2011 ) To reduce heat transfer to the external environment by means of radiation, this patent proposes to use a shielding layer made of a binder material and metal particles with high reflectivity, for example, aluminum powder.

However, the disadvantage of this solution is the low efficiency of the insulating properties of the coating and the inability to quickly carry out installation and dismantling works.

The technical task of the utility model is to increase the thermal resistance and ensure the flexibility of the thermal insulation coating.

The technical result of the utility model is to increase the efficiency of the heat-insulating properties of the coating by increasing the total volume of cavities per unit volume of the heat-insulating coating.

This is achieved by the fact that in the known heat-insulating coating containing a heat-insulating layer for protecting a heat-insulating surface, which is made of a binder material and microspheres, a shielding layer of metal with a high reflection coefficient, a shielding layer is applied to the heat-insulating surface, on which a heat-insulating layer is applied, while the material of the binder heat-insulating layer is made of foam material forming a cavity.

The essence of the utility model is illustrated by the drawing, which shows a thermal insulation coating.

The heat-insulating coating contains a heat-insulating layer 1 to protect the heat-insulating surface 2. The heat-insulating layer 1 is made of a foamed binder material forming a cavity 3 and microspheres 4 and is adjacent to the shielding layer 5 made of a material containing a metal with a high reflection coefficient.

Thermal insulation coating works as follows.

A shielding layer 5 immediately adjacent to the heat insulated surface 2 prevents heat transfer from the radiant component of heat transfer due to its reflectivity. The heat-insulating layer 1 prevents heat transfer to the external environment with the conductive component of heat transfer due to the low thermal conductivity, which is determined by a large number of gas-filled cavities 3 and the presence of microspheres 4.

Thermal insulation coating is as follows. On the prepared shielding layer 5, which may be

metal foil, polymer metallized film, foil-fabric were used, heat-insulating layer 1 was formed. To create this layer, binders on organosilicate, organosilicon, epoxy, polyurethane, silicate-enamel, acrylic bases with a blowing agent and curing catalyst were used, and microspheres were used as filler. The resulting insulating layer has a large number of internal cavities formed as a result of foaming of the binder and the presence of the gas phase of the microspheres. Thus, due to the large total volume of internal cavities per unit volume, the heat-insulating layer has low thermal conductivity.

It was experimentally obtained that an increase in the volume of internal cavities of more than 80% of the volume of the heat-insulating layer leads to a significant decrease in heat conductivity and an improvement in the heat-shielding properties of the heat-insulating coating.

An example is a heat-insulating coating formed on a thermally insulated pipe surface. A shielding layer of metal foil is placed in the conductor, then on it with the help of organosilicon binders in the composition with a foaming agent and curing catalyst, and a microspheres in a volume ratio of 1: 1, a heat-insulating layer is formed that has good adhesion to the metal foil. In this case, when forming a heat-insulating layer, the volume of the conductor is limited to ensure a given thickness of the heat-insulating layer. A heat-insulating coating made in this way with known dimensions is applied by wrapping a thermally insulated surface.

Using the utility model provides an increase in the insulating properties of the heat-insulating coating, expressed in an increase in thermal resistance, while ensuring the convenience of installation and dismantling work when using it due to the flexibility and elasticity of the heat-insulating coating, increasing the ultimate

temperature of application of the coating and a high level of manufacturability in its production.

Claims (1)

A heat-insulating coating containing a heat-insulating layer made of a binder material and microspheres, a shielding layer containing a metal with a high reflection coefficient, characterized in that a shielding layer is applied to the heat-insulating surface, on which the heat-insulating layer is applied, the material of the binder heat-insulating layer is made of foam material, forming cavity.

Images