RU23945U1 - INSULATING CUFF THICK-LAYER - Google Patents

Description

2001130590

 iiffliilp | ipi | iiiillp “t IPC (7) F16L 59/00, 59/10, 55/02

INSULATING CUFF THICK-LAYER

The invention relates to the field of heat and water insulation of pipelines and can be used for thermal insulation of existing pipelines and heating networks, as well as for sound insulation of onshore pipelines.

Cuff designs are known whose heat-insulating elements are made of two hollow cylindrical segments (Skugorova L.P. Materials for the construction of gas and oil pipelines and storages, M., Nedra, 1989, p.305).

The disadvantage of these designs is the difficulty of attaching hollow cylindrical segments to the pipeline, which consists in the use of additional clamps, as well as the difficulty of applying and attaching a waterproofing coating.

Closest to the claimed utility model is an insulating cuff, consisting of a thick hollow cylindrical layer of thermal insulation made in the form of two segments fastened with a protective metal sheath (RF patent No. 2135884, F16L59 / 00, publ. 27.08.99g., BI№24) .

The disadvantages of the ordered cuff include the difficulty of installing heat-insulating hollow cylindrical segments and a metal shell.

The technical problem solved by the proposed utility model is to simplify the installation of the cuff on the pipeline and improve the waterproofing of pipelines, through the use of polymer tapes as a protective shell, while maintaining the strength and durability of the pipeline protection.

The problem is solved due to the fact that in the cuff of the insulating thick-layer, consisting of a hollow cylindrical layer of thermal insulation made in the form of two or more segments, and covering its protective sheath, according to a utility model, the protective sheath is made in the form of a tape from a plastic single or multi-layer a waterproofing material with an adhesive coating on the inner layer, wherein the length of the tape of the protective sheath exceeds the circumference of the outer layer of thermal insulation, and the outer layer of the protective sheath is made of radiation-protected polyolefin composition and is additionally equipped on three sides of the perimeter with an adhesive coating with a width of not less than 30 mm.

The implementation of the protective shell of the cuff in the form of a tape from a plastic single and multilayer waterproofing material with an adhesive coating on the outer layer simplifies the fastening of a thick insulating layer and a protective shell and increases the tightness of the structure, because eliminates the connector line at the junction of the insulating segments. When the open insulating sleeve is installed on the pipe, the hollow cylindrical segments are tightly closed, and the allowance of the protective shell formed by the difference in the circumference of the outer layer of thermal insulation and the length of the tape

the protective shell allows you to fix it with an overlap and hermetically isolate the junction of the insulation layer and the pipe.

The use of the outer layer of the protective shell of the radiation-protective composition as a material allows, due to the high resistance of the mesh structure of the composition, to replace the metal protective shell of the cuff with a plastic tape, while maintaining high strength and durability of the pipeline.

Applying at least 30 mm of adhesive coating with a width of not less than 30 mm on three sides of the perimeter of the outer layer of the protective shell makes it possible to tightly fit the locking tape applied to the joint during installation and increase the tightness of the ring joints.

The utility model is illustrated by drawings, where Fig. 1 shows a cross-section of an insulating thick-walled cuff assembly; figure 2 is a cross section of a pipe with a cuff installed on it; Fig. 3 shows a protective shell with an adhesive coating made on three sides of the perimeter of its outer surface.

The thick insulating cuff consists of a thermal insulation layer 1 made in the form of hollow cylindrical segments, and a protective shell 2 made in the form of a tape from a single or multilayer waterproofing material.

The cuffs of the proposed design were manufactured at the pipe insulation factory. In a detachable form was placed made of heat-shrinkable polyethylene tape, a protective sheath applied to the inner

a layer with an adhesive coating; a polyurethane foam mixture was poured to obtain segments of a thermal insulation layer. The mold was closed, the mixture was foamed and held for some time to cure. A cuff with a protective shell 2 and a thick heat-insulating layer 1 of hollow cylindrical segments was obtained, the inner diameter of which corresponded to the outer diameter of the insulated pipe 3.

The disclosed insulating sleeve is mounted on the pipe 3, while the hollow cylindrical segments of the insulation layer 1 are tightly closed, and the allowance of the protective shell 2 is overlapped and hermetically insulates the joint of the insulation layer 1 and the pipe 3.

The use of the claimed technical solution makes it possible to simply and tightly insulate the ground sections of heating mains, the existing gas and product pipelines without dismantling the pipes, and the implementation of the heat-insulating layer of the cuff of acoustic material can simultaneously reduce the heat loss by reducing the noise level of the ground ducts and gas suction and discharge pipelines centrifugal blowers, starting contour and bypass lines.

Claims (2)

1. Thick-walled insulating cuff, consisting of a hollow cylindrical layer of thermal insulation made in the form of two or more segments, and a protective sheath covering it, characterized in that the protective sheath is made in the form of a tape of a plastic single or multilayer waterproofing material with an adhesive coating on the inner a layer, wherein the length of the tape of the protective shell exceeds the circumference of the outer layer of thermal insulation. 2. The thick insulating cuff according to claim 1, characterized in that the outer layer of the protective shell is made of a radiation-crosslinked polyolefin composition and is additionally provided with an adhesive coating on the three sides of the perimeter with a width of at least 30 mm.