RU27803U1 - PIPELINE - Google Patents

Abstract

1. A pipeline containing a metal pipe with heat-insulating and waterproofing coatings applied to its surface, characterized in that the thermal insulation coating is made on the basis of mats from chopped inorganic fibers, and the waterproofing coating is made of galvanized steel or fiberglass. 2. The pipeline according to claim 1, characterized in that the inorganic fibers can be glass, quartz, silica, kaolin or basalt fiber. The pipeline according to claim 1, characterized in that the metal pipe is made sectional, and the sections can be straight in the form of tees, bends, etc., and their joints are sealed with heat-resistant silicone paste. The pipeline according to claim 1, characterized in that using a heat-resistant silicone paste, the heat-insulating coating is attached to the surface of the metal pipe, and the waterproofing, in turn, to the heat-insulating.

Description

PIPELINE

The invention relates to the construction of insulation pipes - chimneys for heating systems for residential and industrial premises, and in particular, pipelines used in modern residential construction with autonomous heating systems.

Known insulated chimneys (US Pat. UK No. 2073841, CL P 16 L 54/19, 10.21.81) made of a sowing, each of which contains a brushed steel outer wall and an inner wall made of refractory material containing aluminosilicate fibers bound by inorganic binder.

Design flaws include:

- low thermal protection of a design;

- the use of aluminosilicate does not provide sufficient chemical resistance of the inner wall of the pipe to the effects of condensate formed during the passage of hot flue gases. Also known piping, mainly for heating networks

(RF application No. 97109240, class F L6 L 59/02, application form 05.29.97) the metal inner pipe of which has a heat-insulating coating of rigid polyfoam foam and an external waterproofing coating of massive polyurethane foam.

The design flaws include insufficiently high thermophysical characteristics, ul5D1shenie which requires an increase in the thickness of the insulating layer, and therefore makes the structure cumbersome, increases its cost. In addition, foamed polyurethane is short-lived and heat-resistant.

The closest in technical essence to the claimed one is the pipeline (RF AS No. L620769, class F 16 L 59 / 06.15.01.91), containing a metal pipe with thermal insulation applied on its surface20001 / 2 4V9G

MEKF 16 L 59/06

with waterproofing and waterproofing coatings, where the thermal insulation coating is made in the form of a fiberglass cloth wound around its surface and the outer waterproofing coating is a layer of foam plastic.

The disadvantage of the design is the use of foam, which does not provide the necessary durability, impact resistance and fire resistance during operation and, as a result of this, insufficient thermal protection of the structure.

The objective of the present invention is to create a pipeline with reliable thermal insulation of the outer surface, ensuring the constancy of its temperature, protection from external mechanical and climatic influences, long service life, fire safety.

The technical result obtained from the use of the invention is to achieve reliable sealing, ensuring the passage of heated flue gases in a temperature regime of up to 150 ° C with a constant external temperature not exceeding 40 ° C.

This result is achieved by the fact that in a known pipeline containing a metal pipe with heat-insulating and waterproofing coatings applied to its surface, the heat-insulating coating is made on the basis of mats from chopped inorganic fibers, and the waterproofing one is made of galvanized steel or fiberglass. Inorganic fibers can be glass, quartz, silica, kaolin or basalt fibers. Moreover, the metal pipe is made of sections that can be straight in the form of tees, bends, etc., their joints are sealed with heat-resistant silicone paste. Using heat-resistant organosilicon paste, the heat-insulating coating is attached to the surface of the metal pipe, and the waterproofing, in turn, to the heat-insulating.

Pipe manufacturing example

Each of the sections of the inner metal pipe 1 is made of stainless steel sheet grade B-O-GSh-0.6 GOST 19904-90 with a thickness of 0.5 - 0.6 mm. A pipeline of a given length is assembled from sections, the joints of which are fastened with heat-resistant silicone paste 2. Then, on the outer surface of the metal pipe with the help of a layer of 0.1 - 0.3 mm silicone paste 3 applied to it, a heat-insulating coating is made of pre-cut mat 4 on the basis of silica fibers of the MIK brand (TUB 48-139-97) 10 mm thick. Then the outer pipe is made of galvanized steel 5 (OTs B-0-1Sh-0.6 GOST 19904-90) with a thickness of 0.5 - 0.6 mm, or glass ON-KR-1 GOST449D-8-Zh) plastic 1-2 mm, on the inner surface of which a layer of heat-resistant silicone paste is applied 6. After that, a metal pipe with a heat-insulating coating applied to it is inserted into a galvanized or fiberglass pipe 5. In the assembled state, the manufactured pipeline is kept for 5 hours until the adhesive layers dry. The set of essential features allows you to achieve the necessary thermophysical parameters of the product, to ensure tightness, durability, fireproofing, resistance to mechanical and climatic influences. High-quality industrial design 12hD-ShShT-M2a GOST

Claims (4)

1. A pipeline containing a metal pipe with heat-insulating and waterproofing coatings applied to its surface, characterized in that the thermal insulation coating is made on the basis of mats from chopped inorganic fibers, and the waterproofing coating is made of galvanized steel or fiberglass.  2. The pipeline according to claim 1, characterized in that the inorganic fibers can be glass, quartz, silica, kaolin or basalt fiber.  3. The pipeline according to claim 1, characterized in that the metal pipe is made sectional, and the sections can be straight in the form of tees, bends, etc., and their joints are sealed with heat-resistant silicone paste. 4. The pipeline according to claim 1, characterized in that using a heat-resistant silicone paste, the heat-insulating coating is attached to the surface of the metal pipe, and the waterproofing, in turn, to the heat-insulating.