DE2125575A1 - Flexible composite piping - with polyethylene or ptfe interior and nylon exterior - Google Patents

Abstract

Piping for low-pressure liquid or gas transfer has a connector at each end. Pref. it is extruded as usual on a 2-body extruder; or the outer tube is extruded over the inner, with an intermediate layer of appropriate adhesive.

Description

Flexible tubing and method of making it. The invention refers to a flexible pipe that is used to convey under low Pressurized liquid or gaseous media is used and as a compound Pipeline is formed connected at both ends thereof by deforming the pipeline fastened connections is provided.

Flexible pipelines made of two coaxial tubes are already known, which are generally manufactured by separate or simultaneous extrusion are made using an extruder. The core pipe and the jacket pipe must each have certain characteristic properties to meet the requirement to suffice. Above all, the soul tube must offer absolute security against chemical agents Influences from the medium conveyed in the pipeline, while the jacket pipe, which serves as a protective coating, strength against abrasion, against Impacts, against deformations as a result of the load, as well as against solar radiation must be able to withstand external damage to all components.

The jacket pipe must also have the resistance and strength reinforce the core tube and the mounting of the connections when pressure occurs and deformations of the core tube caused by operation in an optimal way ve # that can arise from strong bending or kinking loads.

The known pipelines of this type are not sufficient for all those to be provided Requirements and Conditions. The invention is based on the object of a flexible Train the pipeline so that it meets all of these conditions in a satisfactory manner enough. This is achieved according to the invention in that the pipeline consists of two coaxial tubes, of which the inner core tube is made of a polyolefin and the outer jacket tube is made of a polyamide, each end with one by deformation the pipeline is provided with a firm connection.

Another feature is that the soul tube as Polyethylene high density and strength and the jacket tube is made of Polymmid-11, # ~ # iter It is essential that the core tube made of polytetrafluoroethylene and the jacket tube made of polyamide.

The process for producing the pipeline is characterized by that the pipeline is extruded through a twin extruder. Here is of importance that the jacket tube is extruded onto the core tube, and that between the two pipes an adhesive coating that increases the adhesion of the pipes to one another is applied. It is also essential that the adhesion of the two coaxial tubes by suction at the nozzle of the extrusion press during the extrusion of the jacket pipe is obtained.

The accompanying drawing shows an exemplary embodiment of the pipeline according to the invention, and it means: Fig. 1 perspective view a part of the pipeline consisting of two coaxial tubes, FIG. 2 in part Longitudinal section through one end of the pipeline which is provided with an integration.

First, the core tube is extruded in a known manner, then as soon as the core tube has cooled, the second tube in the same way, namely the jacket tube is applied to the core tube by extrusion.

The adhesion of the two pipes to one another can be obtained by means of a coating of a suitable adhesive arranged between the two tubes or also advantageously in that during the extrusion of the jacket tube is sucked off at the nozzle of the extruder.

The very close contact between the touching surfaces of the two pipes is ensured in particular by suction, with the shrinkage of the material an absolutely secure adhesion of the core tube 1 to the jacket tube when it cools 2 guaranteed.

The core tube 1 can be made of ainem polyethylene of high density and strength are produced, the chemical resistance was very high, and its water absorption is very small and on the order of 1 / 100S. The jacket pipe 2 is made of polyamide 11 whose mechanical resistance is very high, and which therefore satisfactorily meets all requirements.

The core tube 1 can also be made from a polytetrafluoroethylene be, a material that in particular has a high resistance to chemical Attacks of all kinds, such as those caused by the media conveyed through the pipeline can be evoked; the mechanical properties of this material are on the other hand very weak, but they are completely compensated by the jacket pipe 2, which, as previously stated, consists of polyamide. This can be used as a soul pipe a material can be used, the relatively high price of which prohibits its use would, if this pipe had to be given mechanical strength, the the mechanical strengthening of the two pipes would be the same as the pipeline.

The pipeline according to the invention is particularly suitable for receiving of connections that are connected to the pipeline by pressure deformation will.

Claims (6)

Expectations Flexible, conveying liquid or gaseous media under low Pressure-serving pipeline, indicating that it is made from consists of two coaxial tubes, of which the inner core tube is made of a polyolefin and the outer jacket tube is made of a polyamide, each end having a is provided by deformation of the pipeline attached integration, 2nd pipeline according to claim 1, characterized in that the core tube made of polyethylene higher Density and strength and the jacket pipe is made of polyamide 11. 3. Pipeline according to claim 1, characterized in that the core tube made of polytetrafluoroethylene and the jacket tube made of polyamide. 4. Approach for the production of a pipeline according to claim 1 to 3, characterized in that the pipeline is passed through a double extruder is extruded. 5. The method according to claim 4, characterized in that the jacket tube is extruded onto the core tube, and that a die between the two tubes Adhesion of the pipes increasing adhesive coating is applied. 6. The method according to claim 4 and 5, characterized in that the Adhesion of the two coaxial tubes by suction at the nozzle of the extrusion press is obtained during the extrusion of the jacket tube. Blank page