RU27667U1 - HEAT INSULATION DESIGN - Google Patents

Abstract

1. The design of thermal insulation containing the main heat-insulating layer, an external protective coating and a device for attaching the main heat-insulating layer to the insulated surface, characterized in that the material is basalt rolled as the main heat-insulating layer. 2. The thermal insulation design according to claim 1, characterized in that fiberglass fabric is used as the outer protective coating. The thermal insulation construction according to claim 1 and 2, characterized in that the construction further comprises a fire retardant coating that is applied to the insulated surface. Thermal insulation construction according to any one of claims 1 to 3, characterized in that the fastening of the main heat-insulating layer to the insulated surface is carried out using metal studs welded to it. The thermal insulation design according to any one of claims 1 to 3, characterized in that the fastening of the main heat-insulating layer to the insulated surface is carried out using studs welded to metal strips fixed to it.

Description

Thermal insulation design

The utility model relates to the field of construction, and can be used for thermal insulation of objects in the oil, chemical, metallurgical industries, energy, transport, industrial and civil engineering, agriculture, etc., in particular for integrated fire and heat protection of air ducts.

Thermal insulation objects include: equipment and pipelines of technological installations and energy systems with positive temperature, heating networks, industrial networks and chimneys, residential and industrial buildings and structures, vehicles. A special case of thermal insulation is the fire protection of products.

Fire protection of products (materials and structures) is an integral part of the general system of measures to ensure fire safety and fire resistance of buildings and structures. Fire protection is designed to increase the actual fire resistance of the structure to the required values and to limit the fire propagation limit over them, while paying attention to reducing side effects (smoke generation, emission of toxic gaseous substances). This task is performed by using heat-shielding and heat-absorbing screens, special design solutions, flame retardants, technological methods and operations, as well as the use of materials with reduced combustibility.

As a rule, thermal insulation is a structure that consists of a main thermal insulation layer, an external protective coating and fasteners.

The main heat-insulating layer provides protection of the insulated surface from heat loss, it must maintain a constant volume, not be compressed during vibration, and fit snugly against the insulated surface. It should not have voids, through seams.

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necessary strength.

The outer protective coating protects the main thermal insulation layer from mechanical damage, moisture, exposure to aggressive environments, weathering, decay, etc. The outer protective layer must be strong, monolithic, without cracks.

Depending on the purpose of the structure, their service conditions, the material of the base layer, an anti-corrosion layer is additionally introduced into the structure, spraying, lubrication, leveling layer, vapor and waterproofing layers, etc. are performed. The configuration of thermal insulation must correspond to the size and shape of the insulated object.

Known heat-insulating structure for insulation of the pipeline with the implementation of the main heat-insulating layer of mastic materials ("Heat-insulating work, AN Matyukhin, p. 73, Fig. 19, 1975). The heat-insulating structure consists of: a lubricating (pro-void) layer, which is applied to the surface with a spray of liquid mastic from asbestos or asbosurite, the main heat-insulating layer of mastic, which is sprayed with individual dowels to a given thickness, a frame of mesh with cells and a protective layer of plaster. The advantages of mastic insulation include: solidity, the ability to perform work on objects of complex configuration. The reasons that impede the achievement of the technical result indicated below when using the known device include the high complexity and duration of installation, the need to heat the insulated object, the dependence of the quality of insulation on the qualifications and individual abilities of the insulator.

The closest device of the same purpose to the claimed utility model in terms of the essential features is the design of the pipeline insulation (“Heat Insulation Works, A.N. Matyukhin, p. 73, Fig. 18, 19975), adopted as a prototype, including the main heat-insulating layer formed by stuffing mineral wool under the net, which is the outer protective coating and protects the main heat-insulating layer from mechanical damage, and the fastening device in the form of bandages at the locations of the supporting

rings and between them.

The reasons that impede the achievement of the technical result indicated below when using the known device adopted for the prototype include the fact that in the known device the main heat-insulating layer formed by packing mineral wool under the net has a number of significant drawbacks: the complexity of manufacturing, volume inconsistency (shrinkage, formation of voids), instability during vibration, low mechanical strength, heterogeneity. In addition, such isolation must be performed by a highly qualified insulator. Such insulation is used in limited cases.

The problem to which the claimed utility model is directed is to industrialize the construction of thermal insulation.

The technical result that can be obtained by implementing the claimed utility model is to reduce the complexity, increase the manufacturability and reliability of the structure, increase the thermal insulation properties.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known construction of thermal insulation containing the main heat-insulating layer, the outer protective coating and the device for attaching the main heat-insulating layer to the insulated surface, basalt roll material is used as the main heat-insulating layer.

Roll basalt material meets the following design requirements for thermal insulation:

- has a low bulk density and high thermal insulation properties,

- mechanical strength of the structure provides long-term service and reliability in operation,

- materials and structures do not burn and do not support combustion, do not smolder after removing an open flame, Table 1 provides a comparative analysis of the indicators characterizing

the main operational properties of the main heat-insulating layer of the lrototype (mineral wool) and the claimed utility model (basalt rolled material), which allows us to conclude that the higher performance of the heat-insulating layer used in the utility model is higher.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed utility model, made it possible to establish that the applicant did not find an analogue characterized by features identical (identical) to all essential features of the claimed useful models. The definition of the prototype as the closest technical solution in terms of a set of features similar to the set of essential features of a utility model made it possible to identify the distinguishing features that are essential to the applicant’s technical result in the claimed device, as set forth in the utility model formula.

Therefore, the claimed utility model meets the condition of “novelty.

This useful model is illustrated by a concrete example of integrated fire and heat protection of the duct, which is not the only possible one, but clearly demonstrates the possibility of achieving the essential features of the above technical result given in the formula.

The assembly design drawing shows:

1-insulated surface

2 fire retardant coating

3-material basalt rolled

4-fiberglass

5-metal stud welded to the insulated surface The design of the integrated fire and heat protection of the duct contains an insulated

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basalt roll 3. Fiberglass 4 is used as the outer covering of the structure.

The main heat-insulating layer in this example is the basalt fireproof roll material (hereinafter referred to as the material) is a canvas of basalt superthin fibers sewn with a knitting-piercing method with or without a facing (protective coating) material. Nominal dimensions of a roll of material in mm:

. - length - up to 30 000

- width - from 700 to 2400 with an interval of 100

-thickness-5, 10. As a protective coating, apply:

glass fabric in accordance with GOST 8481-75, GOST 191907-83

Silica fabric according to TU 6-48-64-91.

As the firmware used:

-nit glass with a linear density of at least 50 tex. and the nominal diameter of the filament is not more than 7 microns,

-Nit silica grade K-11S6-180 according to OST 6-11-389-74 and grade K-11C: -170-BA according to TU 6-11-444-76.

As one of the elements of the fire retardant coating applied to the insulated surface, the OFPM-12 flame retardant (TU 5767-002-23110955-94) is used, which is a two-component system consisting of a dry mixture of VDF (TU 5761-001-23110955-94 ) and a liquid glass binder (TU 10.1452-91).

The technological process of mounting the design of a comprehensive fire and heat protection duct, includes:

-checking the bearing capacity of the air duct suspension and (if necessary) its strengthening,

-preparation and fastening on the duct of metal strips with studs welded to them or welding of studs on the surface of the duct,

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- applying OFPM-12 fire-retardant coating to the surface of the duct,

- cutting and fixing of basalt roll material

-fixing fiberglass.

The above information indicates the following conditions are met when using the claimed design of thermal insulation:

-a tool that implements the claimed device in its implementation, is intended for use in any industry, namely: thermal insulation of objects in the oil, chemical, metallurgical industries, energy, transport, industrial and civil engineering, agriculture, etc. d.

- for the claimed device, in the form as described in the independent clause of the stated utility model formula, the possibility of its implementation using the means and methods described before the priority date and described in the application is confirmed;

-the advantage of the utility model is that the combination of its essential features is necessary and sufficient to ensure the technical result indicated by the applicant, which consists in reducing the complexity, increasing the manufacturability and reliability of the structure, increasing the thermal insulation properties.

Therefore, the claimed utility model meets the condition of "industrial applicability.

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Claims (5)

1. The design of thermal insulation containing the main heat-insulating layer, an outer protective coating and a device for attaching the main heat-insulating layer to the insulated surface, characterized in that the material is basalt rolled as the main heat-insulating layer.  2. The design of thermal insulation according to claim 1, characterized in that fiberglass is used as the outer protective coating.  3. The design of thermal insulation according to claim 1 and 2, characterized in that the structure further comprises a fire retardant coating that is applied to the insulated surface.  4. The design of thermal insulation according to any one of claims 1 to 3, characterized in that the fastening of the main heat-insulating layer to the insulated surface is carried out using metal studs welded to it. 5. The design of thermal insulation according to any one of claims 1 to 3, characterized in that the fastening of the main heat-insulating layer to the insulated surface is carried out using studs welded to metal strips fixed to it.