RU40429U1 - HEAT-INSULATED ASBESTOCEMENT PIPE - Google Patents

Abstract

The utility model relates to pipelines used in external heating networks from pressure head asbestos-cement pipes. The proposed utility model will allow the creation of sectional pipelines in which moistening the thermal insulation of one pipe does not lead to damage to the thermal insulation of the entire pipeline. A thermally insulated asbestos-cement pipe is proposed, including the asbestos-cement pipe 1 itself, around which polyurethane foam 3 is located in a protective polyethylene sheath 2. A sealing element is applied to the ends of each polyurethane foam pipe for waterproofing. The sealing element can be made in the form of a polyurethane mastic 4. Placing the sealing elements on the ends of the waterproofing of each asbestos-cement pipe allows localizing damage to the shell to limit the wetting zone of the thermal insulation to only one pipe and eliminates the wetting of the thermal insulation in general when the couplings 5 leak.

Description

The utility model relates to pipelines used in external heating networks from pressure head asbestos-cement pipes.

Currently, asbestos-cement pressure pipes and steel pipes are used for pipelines, for example, underground heating networks. Thermal insulation of such pipes can be made with polyurethane foam under a polyethylene protective sheath (see "Design and installation of underground pipelines for heat supply and hot water supply from asbestos-cement pipes", "Code of Practice" introduced by Gosstroy Resolution No. 51 of 04/07/04 and GOST 3073201 "Pipes and fittings steel products with thermal insulation from polyurethane foam in a polyethylene sheath. Specifications "). The pipeline in polyurethane foam insulation is enclosed in a polyethylene sheath, forming a sealed circuit along the entire length of the pipeline. The described design of thermal insulation allows you to lay the pipeline without a channel.

Since high-quality insulation of the joints laid at the bottom of the pipe trench is difficult, ground water falls under the shell, wet polyurethane foam substantially loses its heat-insulating properties, and then completely collapses. Breakage in the pipe or damage to the polyethylene sheath can also lead to wetting. Even worse, if the seal in the coupling is leaked, then pressurized water from the pipe will fill the entire shell.

According to SNiP 41.02.2003 “Heat Networks”, electrical conductors are laid on steel pipes along the entire route in the thickness of the polyurethane foam. Using a special electronic system, the humidity of the polyurethane foam insulation is monitored. After detecting a change in the humidity of the polyurethane foam, urgent repair of the heating main is necessary, because corrosion of steel pipes is sharply accelerated due to the design features of the pipeline.

Asbestos-cement pipes do not deteriorate from moisture, however, if the insulation is damaged (wet), heat loss increases and the entire section of the pipeline with wetted insulation must be replaced.

The task to which the creation of the proposed utility model is aimed is to reduce the cost and operating costs by eliminating the operational monitoring system for the moisture content of the insulation and eliminating the need to repair the pipeline from asbestos-cement pipes due to wetting of the insulation in individual sections.

The problem is solved as follows: in a thermally insulated asbestos-cement pipe, which includes the asbestos-cement pipe itself, around which polyurethane foam in a protective polyethylene shell is located, a sealing element is applied to the ends of each polyurethane foam, which can be made in the form of polyurethane mastic.

Distinctive features of the proposed technical solution is that the ends of the polyurethane foam on each pipe are sealed.

The technical result that is achieved by using the proposed utility model is that the placement of sealing elements on the ends of the insulation of each asbestos-cement pipe allows local damage to the shell to limit the wetting zone of the thermal insulation with only one pipe and eliminates moisture in general when the couplings leak.

The utility model is illustrated in the drawing, which shows an asbestos-cement pipe with insulation in section.

Asbestos-cement pipe 1 is enclosed in a polyethylene sheath 2. Polyurethane foam 3 is placed between the outer surface of the pipe 1 and sheath 2. Polyurethane mastic 4 is applied to the ends of the polyurethane foam insulation. thermal insulation.

The pipeline is assembled from asbestos-cement pipes not more than 5000 mm long, each pipe has the thermal insulation described above.

With mechanical damage to the shell 2, humidification will occur in the insulation of only one pipe of the heating main. Asbestos-cement pipes do not collapse from exposure to water, and damage to thermal insulation in a separate short section leads to a small increase in heat loss by an amount significantly less than the cost of emergency repairs.

In case of loss of tightness of the coupling joint of 5 adjacent pipes, water enters the soil, and not into the thermal insulation.

Claims (2)

1. Heat-insulated asbestos-cement pipe, including the asbestos-cement pipe itself, around which polyurethane foam is located in a protective polyethylene shell, characterized in that a sealing element is applied to the ends of the polyurethane foam of each individual pipe. 2. The pipe according to claim 1, characterized in that the sealing element is made in the form of polyurethane mastic.