RU55082U1 - PIPELINE - Google Patents

Abstract

The utility model relates to the field of construction of pipelines from thermoplastic electrically heated pipes. The pipeline consists of thermoplastic pipes 1 with thermal insulation 2 and an electric cable 6 laid along the pipes. To reduce power consumption and improve pipe heating in winter, the electric cable 6 is passed through pipes 5 made of magnetic material located on the outer surface of the polyethylene pipes. To increase heat transfer pipes 5 are laid close to each other. The heating system provides high reliability of the pipeline in winter. 1 s.p. f-ly, 2 ill.

Description

The utility model relates to the field of construction of various pipelines from thermoplastic (plastic) electrically heated pipes.

Known pipelines with electric heating, including a pipe with insulation, placed along the pipe electric heating elements connected to the supply wires, and the outer layer of waterproofing [USSR author's certificate No. 1221458, MKI ⁷ F 16 L 53/00, 1986]. Electric heating elements are connected to the supply wires in separate groups and are powered by a voltage of 220 V.

The main disadvantage of the pipeline is the high energy consumption for heating the pipeline.

The technical challenge facing the utility model is to reduce energy consumption and improve pipe heating in winter.

To solve the problem in a pipeline of thermoplastic pipes with thermal insulation and an electric cable laid along the pipes, the latter was passed through pipes of magnetic material located on the outer surface of the polyethylene pipes.

To increase heat transfer, pipes of magnetic material are laid close to each other.

The utility model is illustrated by drawings, where Fig. 1 schematically shows a section of a pipeline, and in Fig. 2 a section along AA in Fig. 1.

The pipeline consists of interconnected pipes 1 of thermoplastic, for example, polyethylene. Pipes 1 are covered with a thermal insulation layer 2, for example, of polyurethane foam and a waterproofing sheath 3. From the bottom, close to thermoplastic pipes 1 along the pipeline using

Bandage 4 laid pipes 5 of magnetic material (steel - Art. 3), through which an electric cable 6 is passed.

To increase the heat transfer to thermoplastic pipes 1, pipes 3 of magnetic material are laid close to each other, and a layer 7 of heat-conducting mastic is applied between the thermoplastic pipe 1 and pipes 5 of magnetic material. Pipes 3 from the side of thermal insulation can be closed with a reflective screen made of light material, in particular aluminum foil, which also increases the heat flux towards thermoplastic pipes 1.

To heat the pipeline, cable 6 is connected to an electric current source, for example, a transformer 8, which converts the voltage of the industrial network to 24 V or any other values established by the calculation. The current flowing through the cable induces eddy currents in the magnetic pipes 56 that heat these pipes.

The heating system provides high reliability of the pipeline in winter.

Claims (2)

1. A pipeline consisting of thermoplastic pipes with heat insulation and an electric cable laid along the pipes, characterized in that the electric cable is passed through pipes of magnetic material located on the outer surface of the polyethylene pipes. 2. The pipeline according to claim 1, characterized in that in order to increase heat transfer, pipes of magnetic material are laid close to each other.