EA021754B1 - Thermally insulated flexible multilayer polymeric pipe and pipeline - Google Patents

Abstract

The invention relates to the design of a thermally insulated flame retardant pipe for water, particularly for hot water for use in heating and hot water supply systems, mainly for the purpose of installation and repair and maintenance work on technical floors of the buildings (basements and garrets). The thermally insulated flexible multilayer polymeric pipe, which is flame retardant, comprises a central pipe, a barrier layer, a reinforcing layer, an adhesive layer, a thermally insulating layer and a waterproofing layer, a layer with antipyretic and antidotal additives and an outer protective casing consisting of a zinc-plated flexible metal hose. The central pipe is made of crosslinked or heat-resistant polymer, preferably polyethylene or polybutene. The layer with antipyretic and antidotal additives is made of polymer material based on polyolefine. The pipeline for transporting water in heating and hot water supply systems consists of two or more thermally insulated flexible multilayer polymeric pipes. The technical result is that the pipe inhibits the spread of fire and of the decomposition products of its constituent elements when exposed to high temperatures in the event of a fire hazard, has sufficient flexibility for the purpose of installation and repair and maintenance work in hard-to-reach locations, has an outer surface with sufficient resistance to mechanical damage which could arise when working with the pipe in hard-to-reach locations.

Description

The invention relates to the construction of a heat-insulated pipe that does not spread flame, intended for water, namely for hot water, in district heating systems and hot water supply, mainly for installation and repair work on the engineering floors of buildings (basements and attics).

Insulated pipes used in heating and hot water pipelines have a very wide range of design features. At least a central pipe is included in the design of such pipes, on top of which a heat-insulating layer is applied, on which, in turn, a waterproofing layer is mounted.

Traditionally, the design of thermally insulated pipes was based on the use of a central metal pipe.

A known pipeline design using a thermally insulated pipe, comprising a metal pipe with a thermally insulated coating based on polyurethane foam (PUF) and an external waterproofing sheath made of polyethylene (RF patent No. 2249754 IPC Р16Ь 59/00).

A heat-insulated pipe is also known, which includes a metal pipe as a central pipe, a PPU heat-insulating layer and a galvanized sheet waterproofing membrane, additionally coated with a thin layer of polymer coating (RF patent No. 2200897 IPC Р16Ь 59/00).

The main disadvantage of such pipes is, firstly, their considerable mass, which negatively affects the complexity of installation and repair work, and secondly, heat-insulated pipes with a central metal pipe can be made only by measured sections, therefore, a pipeline consisting of such pipes, contains a large number of joints, which leads to the need for additional quality control of the finished pipeline.

The listed disadvantages of heat-insulated pipes with a central metal pipe are significantly reduced when used in a thermally insulated pipe as a central pipe of a pipe made of polymeric materials.

Known water insulated pipe with at least one inner pipe, a layer of thermal insulation based on polyurethane foam surrounding the inner pipe, a film surrounding the insulation layer, as well as a corrugated outer pipe of thermoplastic polymer, and the insulation material consists of polyurethane foam, and between the insulation layer and the film has an elastically deformable intermediate layer of soft polymer foam, which is at least glued to the film (KI No. 2339869, IPC Р16Ь 59/00; Р16Ь 59/14).

A flexible thermally insulated water pipe is also known, consisting of at least one environmentally conductive inner pipe, at least one outer pipe surrounding the inner pipe, and also a polyurethane-based thermal insulation layer located between at least one inner pipe and the outer pipe. or polyisocyanurate foam, wherein 0.1 to 7.5% by weight of hollow balls are added to said foam, the hollow balls having a shell of thermoplastic artificial material and filled with medium that elevated temperature contributes to the inflation of the shell (KI No. 2372551 IPC Р16Ь 59/147; Р16Ь 11/04).

The disadvantage of these pipes is that such pipes cannot be used in hot water supply and heating systems due to the low heat resistance of the polyethylene from which the inner pipe is made.

This drawback is eliminated by the use of thermally insulated pipes, in the construction of which pipes made of cross-linked polyethylene are used as the central pipe.

Known multilayer pipe made of a polymeric material for conducting water, preferably hot water, in district heating systems, heating networks or water supply systems, comprising a pipe body, preferably consisting of cross-linked polyethylene, at least one layer forming a barrier against diffusion of water through a multilayer pipe, moreover, the barrier layer consists of a liquid crystal polymer (KI No. 2224160, IPC Р16Ь 9/12).

The disadvantage of such a pipe is the fact that, to ensure operational parameters, such a pipe must have a significant wall thickness, which significantly reduces its flexibility and significantly affects the increase in its mass.

This disadvantage can be eliminated if a central pipe made of cross-linked polyethylene with additional reinforcement is included in the composition of the insulated pipe.

Of the known pipes, the closest technical option to the claimed pipe is the Isoproflex A pipe, manufactured according to TU 2248 021-40270293-2005. The design of this pipe includes a central pipe made of cross-linked polyethylene, a barrier layer against oxygen diffusion, a reinforcing layer formed by weaving synthetic fibers (Kevlar), an adhesive layer, a heat-insulating layer of polyurethane foam (PUF) and an external waterproofing corrugated layer of medium density polyethylene.

This pipe is successfully used in central heating and hot water supply networks for channelless and channel laying. However, the limitation of the use of such a pipe is due to the fact that, in terms of its ability to spread flame, this pipe belongs to the group distributing flame 1,021,754 mens (RP) and therefore cannot be used as a collector for house building (in basements and in attics).

The technical problem to be solved in the claimed design of the pipe is to remove restrictions on its use as a collector for house building at engineering levels (in basements and in attics). In this case, the pipe should meet the following indicators:

not to spread the flame in case of fire hazard, not to spread decomposition products of structural elements under the influence of high temperatures in case of fire hazard, to have sufficient flexibility for installation and repair work in hard-to-reach places, to have sufficient resistance of its external surface to mechanical damage that may occur when working with a pipe in hard to reach places.

The technical result is achieved in a thermally insulated flexible multilayer polymer pipe that does not spread flame, including a central pipe, a barrier layer, a reinforcing layer, an adhesive layer, a heat insulating layer and a waterproofing layer, additionally containing a layer with antipyretic and antidote additives and an outer protective shell made of galvanized flexible metal hose.

The differences in the claimed design are that the pipe additionally contains a layer with antipyretic and antidote additives and a protective shell made of galvanized flexible metal hose.

The central pipe of the structure is made of a cross-linked or heat-resistant polymer, preferably polyethylene or polybutene.

The layer with antipyretic and antidote additives is made of a polyolefin-based polymer material.

Significant advantages of the claimed pipe are that in the event of a fire such a pipe does not spread flame, and when the components of its structure decompose in a fire, the emission of decomposition products (harmful gases) is reduced due to the content of a layer with antipyretic and antidote additives in the pipe structure and outer protective shell in the form of a galvanized metal hose, providing design flexibility and increased resistance to possible mechanical damage, which in turn nachitelno reduces the costs of installation and repair work in the conditions of the working area limitation - in basements and attics.

The inventive pipe can be used as an integral element of the pipeline in heat supply and hot water supply systems.

In FIG. 1 shows a General view of the pipe according to the invention. The pipe includes 1 - the central pipe, 2 - the barrier layer, 3 - the reinforcing layer, 4 - the adhesive layer, 5 - the insulating layer, 6 - the waterproofing sheath, 7 - the layer containing antipyretic and antidote additives, 8 - the outer protective sheath (galvanized flexible metal hose).

The central pipe, preferably made of a cross-linked or heat-resistant polymer, preferably polyethylene or polybutene, performs the function of transporting water (coolant). The barrier polymer layer prevents the diffusion of oxygen and water vapor. The reinforcing layer improves the functional performance of the main pipe, and the adhesive layer ensures stabilization of the reinforcing threads during winding. The heat-insulating layer reduces heat loss, the waterproofing shell provides waterproof protection of the heat-insulating layer. A layer containing antipyretic and antidote additives reduces the release of decomposition products (harmful gases) in the event of a fire hazard. The protective sheath (metal sleeve) also provides a reduction in the release of decomposition products, while maintaining design flexibility and resistance to mechanical damage.

The thermally insulated flexible multilayer polymer pipe according to the invention belongs to the group of hydraulic distributors (non-flame propagating) in accordance with GOST R 53327-2009 Thermal insulation structures of industrial pipelines. Flame propagation test method.

Claims (3)

CLAIM 1. A thermally insulated flexible multilayer polymer pipe that does not spread flame, including a central pipe, a barrier layer, a reinforcing layer, an adhesive layer, a heat insulating layer and a waterproofing layer, characterized in that it further comprises a layer with antipyretic and antidote additives made of a polymer material polyolefin-based, and a protective shell made of galvanized flexible metal hose. 2. The pipe according to claim 1, characterized in that the central pipe is made of a crosslinked or heat-resistant polymer, preferably polyethylene or polybutene. 3. A pipeline for transporting water in heat supply and hot water supply systems, consisting of two or more heat-insulated pipes according to any one of claims 1, 2.