RU2640555C1 - Fire-protective thermal insulation panel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: fire-protective thermal insulation panel comprises an outer layer, thermal insulation layers and an inner layer located behind it, and is characterised in that the outer layer is made with lateral sides of inorganic glass fibre plastic with outer heat-resistant hydrophobic and inner heat-resistant metal-containing coatings; the inner thermal insulation layers are made in the form of packages of microspheres, between which an interlayer of copper foil is arranged; the inner layer is made of microspheroidal glass-cloth-base laminate and connected to the lateral sides of the outer layer; the outer heat resistant hydrophobic coating comprises heat resistant silicone putty, an enamel and a sublimating hydrophobic teflon varnish; the heat-resistant metal-containing coating is represented by silicone enamel with aluminium paste. The inner layer of microspheroidal glass-cloth-base laminate is joined to the lateral sides by means of a fluorosiloxane or silicone sealant.

EFFECT: non-combustible reusable panel with high thermal insulation properties provides the temperature reduction from 1100 degrees on the outer surface up to 50 degrees on the inner surface.

2 cl, 1 dwg

Description

The claimed technical solution relates to fire-retardant heat-insulating products made in the form of a panel used in various fields of technology to protect against the effects of an open flame of a rescue vehicle and engineering structures operating in the waters of the seas.

Currently, an urgent problem is the development of fireproof thermal protection, in particular for rescue equipment and engineering structures operating in the waters of the seas, capable of providing a temperature of the protected surface of not more than 50 ° C when exposed to a flame with a temperature of up to 1100 ° C on its outside. The urgency of this problem is due to the high pace of development of the implementation of the natural resource potential of the Arctic zone, in particular, the production of hydrocarbon raw materials, and, as a result, the need to combat emergency situations, such as the burning of an oil slick or a fire on a production platform, to save human lives.

The prior art system for thermal protection of a descent spacecraft when moving in the atmosphere according to patent US 6497390, B32B 19/06, publ. 12/24/2002. The system includes a flexible heat-insulating mat, a package of one or more layers of flexible fabric material, attached to the mat with glue, and a facing coating of inorganic material placed on the outer surface of the package, which ensures gas-tight heat insulation. This system effectively shields heat from the external heat flow to the housing in areas streamlined by the hot gas flow.

The disadvantage of this thermal protection system is the lack of a system of protection against water and moisture. Also, the use of glue based on organic resin as part of thermal protection makes it impossible to maintain the integrity of the structure when exposed to temperatures exceeding the temperature of degradation of the glue.

A known system of thermal protection of a descent spacecraft containing sequentially placed a flexible heat-insulating mat and a heat-insulating bag comprising several layers of heat-resistant fabric material, characterized in that the flexible heat-insulating mat is multilayer and placed in a cover of heat-resistant fabric, each layer of heat-resistant fabric material of the heat-insulating bag is impregnated and coated with sublimating substance, while the coating thickness of the different layers is not the same and increases as it is removed a layer from the heat-insulating mat, all layers of the flexible heat-insulating mat, the cover into which it is placed, and all layers of the heat-insulating bag are connected to each other along their end edges, while all these layers and the cover are installed with the possibility of their relative movement, except these connected end edges (RU 2383476, B64G 1/58, publ. 10.03.2010).

The disadvantage of this invention is the likelihood of water, pollutants and combustion products getting inside the thermal protection system, which will inevitably lead to an increase in thermal conductivity and an increase in the temperature of the protected surface.

Known heat-insulating multilayer package containing a bearing base layer, located on the side of one of its surfaces, two heat-insulating layers and a substrate with heat-saving properties located between these heat-insulating layers, each heat-insulating layer is a film coating formed by a composition made on the basis of a liquid foil with evenly distributed in its volume air-filled glass-ceramic microspheres (RU 63389, E04B 7/00, publ. 05.27.2007).

The disadvantage of this package is the insufficient level of thermal insulation characteristics of the coatings based on alkyd paint, fine metal powder and microspheres 1-2 mm thick when exposed to flame and temperatures up to 1100 ° C.

The closest analogue of the claimed invention is a thermal insulation package operating under conditions of cryogenic temperatures, aerodynamic heating and high working pressures, containing an insulated external surface with a thermal insulation layer in the form of foam installed on the cushioning layer, a thermal insulation layer and fixed to the last antistatic coating. The insulated surface is made of a polymer composite material, the foam is equipped with a moisture-proof and sealing coating of vibration-proof adhesive based on epoxy resin, a tape of glass filament yarn wound with 50% overlap of the coils fastened with glue, and having an adhesive layer coated with a thermal protection layer in the form rubber-like elastic coating. (RU 2459743, B64C 1/40, published on 08.27.2012).

The disadvantages of this package are insufficient thermal insulation characteristics when exposed to flame temperatures up to 1100 ° C, a high level of emission of combustion products of layers of thermal protection and the inability to reuse.

The technical task of the claimed technical solution is to create a heat-insulating hydrophobic reusable panel that protects the product from high temperatures, open flame and mechanical stress.

The technical result of the claimed invention consists in the creation of a non-combustible panel with improved heat-insulating properties of reusable use, providing a temperature reduction from 1100 ° C on the outer surface to 50 ° C on the inner surface.

The technical result is achieved by the fact that the fireproof thermal insulation panel includes an outer layer, heat-insulating and inner layers located behind it. The outer layer is made with inorganic fiberglass sides with an external heat-resistant hydrophobic and internal heat-resistant metal-containing coatings. The internal heat-insulating layers are made in the form of packets of microspheres, between which is a layer of copper foil. The inner layer is made of microspheres and textiles and connected to the sides of the outer layer. As an external heat-resistant hydrophobic coating, a paint and varnish coating is used, including a heat-resistant silicone filler, enamel and sublimating hydrophobic fluoroplastic varnish. As a heat-resistant metal-containing coating, organosilicon enamel with aluminum paste can be used.

In an embodiment, the inner layer of microsphero stelotextolite can be bonded to the sides using a fluorosiloxane or organosilicon sealant.

The claimed invention is illustrated in FIG. 1 - general view of the panel

Fireproof thermal insulation panel includes an external carrier layer (1) made of fiberglass, on the outer surface of which a heat-resistant hydrophobic coating is applied (2). A heat-resistant metal-containing coating is applied to the inner surface of the outer layer (3). Behind the outer carrier layer of fiberglass, heat-insulating packages (4) of microspheres with a layer of copper foil (5) between them are sequentially arranged. On the lateral sides (6) of the outer layer, an inner layer (7) of microsphero stelotextolite is installed. The inner layer can be connected to the sides using a sealant (8) fluorosiloxane or organosilicon.

As the outer layer (1), which is affected by an external heat source, high-temperature fiberglass is used, for example, VPS-56 / KT-11 based on an inorganic binder that maintains strength characteristics at temperatures up to 1200 ° C. For hydrophobic protection, a heat-resistant hydrophobic coating is applied to the outer surface of the fiberglass (2). The hydrophobic coating is a paint system consisting of a heat-resistant silicone filler KO-0067M, enamel KO-5189 and a sublimating hydrophobic fluoroplastic varnish FP-5182M. The coating provides high heat resistance (up to 1200 ° C) and moisture-proof properties. The inner surface of the fiberglass carrier layer is coated with a heat-resistant metal-containing coating (3) (for example, enamel VE-77 or VE-30). The metal-containing coating reduces thermal radiation and promotes uniform heating of the insulating layers. For the metal-containing coating, the main heat-insulating layers are placed.

Packages with microspheres (4) are used as heat-insulating layers (4), which are an envelope made of fiberglass, for example, KT-11-C8 / 3-TO brand silica fiberglass with microspheres embedded in it (for example, MS-VP-A9 brand). These heat-insulating layers provide high heat-insulating properties of the panel. A layer of copper foil (5) is placed between packages of microspheres and is used as a heat-distributing layer between packages of microspheres. The inner layer (7) with the sides (6) of the outer surface is connected using fasteners, or using fluorosiloxane sealant of the brand VGF-2A or silicone sealant U-10-80, with a maximum operating temperature of up to 500 ° C. The use of microspheroglass-textolite (for example, grade MCT-5), which has low thermal conductivity and is in contact with the product, provides an additional reduction in the temperature of the inner surface of the panel.

As a result of using the declared fire-retardant thermal insulation panel, the temperature of the protected surface of the product is increased to no more than 50 ° C, when exposed to the outer layer of the panel of an open flame with a temperature of up to 1100 ° C for 10 minutes. At the same time, the panel retains its geometric dimensions and shape.

Claims (2)

1. Fire-retardant heat-insulating panel, including an outer layer, heat-insulating and inner layers located behind it, characterized in that the outer layer is made of inorganic fiberglass with lateral sides with an external heat-resistant hydrophobic and internal heat-resistant metal-containing coatings, the internal heat-insulating layers are made in the form of microsphere packets between which a layer of copper foil is located, the inner layer is made of microspherosteel textolite and is connected externally to the sides layer, the external heat-resistant hydrophobic coating includes heat-resistant silicone filler, enamel and sublimating hydrophobic fluoroplastic varnish, as a heat-resistant metal-containing coating, organosilicon enamel with aluminum paste is used. 2. The panel according to claim 1, characterized in that the inner layer of microspherostelotextolite is connected to the sides with a fluorosiloxane or silicone sealant.

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