RU2219426C2 - Method of preparation of multi-layer plastic pipe - Google Patents

Abstract

FIELD: pipe line transport; manufacture of multi-layer plastic pipes for erection of various pipe lines. SUBSTANCE: proposed method includes manufacture of tube blank and application of outer layers on it; layer of foamed plastic is applied by extrusion method on surface of pipe blank heated to melting point of plastic. EFFECT: enhanced efficiency; avoidance of heat insulation. 1 dwg

Description

 The invention relates to pipeline transport.

 A known method of manufacturing multilayer plastic pipes by extrusion, which includes the manufacture of the main inner layer (tube billet) and applying outer layers, for example, reinforcing and protective (SU 273416 A, CL B 29 D 23/00, 06/03/1970).

 When laying onshore pipelines, as well as underground pipelines in the permafrost zone, heat-insulating coatings are applied to the pipes, which increases the cost and slows down the pace of pipeline construction.

 The technical result of the invention is the creation of multilayer insulated plastic pipes that do not require additional thermal insulation during the construction of pipelines.

 For the manufacture of a heat-insulated pipe using the known method, after manufacturing a pipe billet consisting of a plastic pipe with or without a reinforcing layer, a layer of foamed plastic is applied on its surface by extrusion, and the surface of the billet is heated to the melting temperature of the plastic.

 The invention is illustrated by the drawing, which schematically shows a thermally insulated pipe made by extrusion of polyethylene.

 The pipe is multilayer. A reinforcing layer 2 is applied to the inner layer of polyethylene 1, on which a layer of foamed polyethylene 3 is applied. The surface of the pipe is covered with a protective layer of polyethylene 4.

 A method of manufacturing pipes is implemented on a production line, which, like the known extruder line, contains a node for manufacturing the inner layer, a node for applying a reinforcing layer and a node for applying a protective layer (coating), but in contrast to the one known in this line, between the node for applying a reinforcing layer and a unit for applying a protective layer is a unit for applying a heat-insulating layer.

 In the unit for manufacturing the inner layer by extrusion from granular polyethylene, a billet pipe is formed, which enters the unit for applying the reinforcing layer, where reinforcing tapes are applied to it with a winding machine.

 At the entrance to the application unit of the heat-insulating layer, the surface of the workpiece (the inner layer coated with a reinforcing layer) is heated, for example, in tunnel furnaces with infrared emitters to the melting temperature of the plastic, and then a layer of foamed plastic is applied to it with a side extruder.

 A lateral extruder of the protective layer application unit applies a protective polyethylene coating to a layer of foamed polyethylene (plastic), while the surface of the foamed polyethylene layer is heated to the melting temperature. Warming up ensures the integrity of the pipe layers.

 When laying pipelines, the pipes in the lash are connected as ordinary non-insulated pipes, but with additional thermal insulation of the joints.

 The heat-insulated reinforced multilayer polyethylene (plastic) pipes are intended for laying high-pressure trunk pipelines, as well as inside field product pipelines.

 In the processing chain (line), there may be no node for applying a reinforcing layer, in this case, non-reinforced heat-insulated multilayer plastic pipes are obtained, suitable for heat and water supply, as well as for the construction of gas distribution networks.

Sources of information
1. FR 2728049, MKI ⁷ F 16 L 15/08, 1996.

2. SU 273416, MKI ⁷ B 29 D 23/00, 1970.

Claims (1)

A method of manufacturing multilayer plastic, for example, polyethylene pipes, comprising manufacturing a tubular billet and applying outer layers to it, characterized in that a layer of foamed plastic is applied by extrusion to the surface of the tubular billet heated to the melting temperature of the plastic.