SE441732B - SET FOR MANUFACTURING A PIPE OF INSULATING MATERIALS INCLUDING ONE OR MORE INTERNAL PIPES, A PLASTIC FOAM INSULATION AND PLASTIC LAYER - Google Patents

Description

8405008-7 10 15 20 25 30 35 2 A means is also known in the art, by means of which a plastic-coated pipe of insulating material can be produced in a continuous extrusion process. In addition to the surface layer, the inner tube can also be produced by extrusion, and the plastic foam is injected between the inner and surface layers in connection with the extrusion process.

Finnish patent 54878 describes a means by which the inner tube can be coated with a foam layer and a plastic surface layer in one step by means of an extrusion press. The foaming nozzle of the member is arranged to follow the surface layer nozzle in such a way that the plastic foam insulation can be injected into the space defined by the surface layer and the inner tube between the nozzle head and the calibration means. The calibration means, which mainly consist of a vacuum calibration means, have been arranged at a distance from the surface layer nozzle, so that the surface layer can be cooled down to a suitable calibration temperature.

The disadvantages of the device according to Finnish patent 54878 include the placement of the foaming nozzle as late as after the surface nozzle in the direction of movement of the pipe, whereby a void is formed behind the foaming nozzle. If the air in the void is trapped in the foam, a vacuum is generated in the surface layer immediately after the nozzle. This causes the soft surface layer to be pulled towards the foaming nozzle and production is stopped.

The void can also be filled with hardened foam, which has a detrimental effect on the quality of the surface layer.

Another disadvantage of the device according to Finnish patent 54878 is the location of the calibration means at a distance from the surface layer nozzle. This involves the use of vacuum calibration, as also pointed out in the patent. However, the production of large dimension (over 100 mm) tubes with vacuum calibration is difficult because it is difficult to achieve a strong sealing contact between the tube and the calibration tube. The object of the invention is to bring about an improvement in the known methods. A more detailed object of the invention is to provide a method in which the foaming and production of the outer tube can be accomplished simultaneously in one step around the inner tube, and in which no vacuum calibration is required. It is also an object of the present invention to provide a method which is as suitable for a steel pipe as one of plastic. The objects of the invention are achieved by a method, which is mainly characterized in that the calibration pressure is generated by means of the foaming, whereby release of the calibration pressure is prevented by the plug which the foam forms when it solidifies. Other features of the method according to the invention appear from claim 2. A I Through the method according to the invention innumerable, remarkable advantages are obtained. The invention enables, for example, a method for the production of district heating elements, in which method the foaming and the production of the outer casing can take place simultaneously in one step around a steel or polyester pipe. The method according to the invention also does not require a vacuum calibration, as is the case with, for example, the device according to Finnish patent 54878. The method according to the invention is just as suitable for inner tubes of steel as of plastic.

As the foaming material in the process according to the invention, it is possible to use all such foams which have properties, such as heat tolerance and insulating ability, which are suitable for the purpose.

A suitable foaming material is, for example, polyurethane.

The invention is described in detail with reference to an advantageous embodiment of the invention, which is shown in the accompanying drawing figure, but to which the invention is not intended to be limited. 10 The drawing figure shows a preferred embodiment of the device used in the method according to the invention, seen in longitudinal section. In the drawing figure, the device used in the method according to the invention has generally been indicated by the reference numeral 10. In the present embodiment, the device 10 comprises a plastic pipe nozzle 11, which is provided with a hollow mandrel, a guide support 12 for the inner tube 17, which is provided with centering possibility, a combined inner tube guide and foam nozzle body 13, an outer water-cooled caliper. 14, pipe 15, which supplies the foam materials, and supply channels 19 for the plastic raw material to the surface layer. The plastic layer of the insulating pipe produced by the method according to the invention is indicated by the reference numeral 16 and the foam plastic insulation by the reference numeral 18.

In the method according to the invention, a foam insulation 18 and a surface layer 16 are formed around the inner tube 17 simultaneously in one working step. During foaming, a calibration pressure is generated, which can be regulated by regulating the feed material supply and the temperature of the foam raw materials. External cooling 14 is applied to lightly cool the surface layer 16 at the correct dimension. When it solidifies, the foam forms a plug, which prevents the calibration pressure from being released. The rate of action, the foam constituents and the length of the calibration tube 14 must be chosen so that the foam has solidified at the time the element emerges from the calibration tube 14. Additional cooling means and traction means may be constituted by means traditionally used in the manufacture of tubes. , and the same applies to the means feeding the inner tube 17. The foam nozzle body 13 also serves as a guide means for the inner tube 17. The nozzle body 13 is insulated from the tube nozzle 11 and may be water cooled if required. In the nozzle body 13, a plurality of foam nozzles may be provided to provide uniform foam, and pressure sensing means may be provided to control the dosing. The foam nozzles have been installed so that the foam fills the entire space between the surface layer 16 and the inner tube 17 immediately after the surface layer nozzle. The gap between the inner tube 17 and the nozzle body 13 is sealed by conventional technology.

If required, an aeration valve may also be mounted on the nozzle body 13, which valve is operative in the initial stage. The construction of the nozzle body 13 can also be of the type extending in the machine direction, and in this way the inner surface of the protective cover 16 is pre-cooled. The calibration tube 14 is arranged next to the nozzle as required by the pressure calibration technique.

The pipe nozzle 11 may be provided with conventional centering and with a helical distributor or similar constructions known in the art.

The plastic mixture can be fed into the nozzle 11 by means of one or more extruders. To provide the surface layer 16, coextrusion methods can also be used.

The cross section of the slot to the nozzle 11 and to the calibration tube 14 need not be circular.

An oval shape or some other shape may be more advantageous when two or more tubes are insulated.

By means of the present method, district heating elements can be manufactured in one working step. Through the new type of pressure calibration, large dimensions can also be produced. The thickness profile of the protective layer 16 can also be carefully adjusted and the outer surface of the protective layer 16 is smooth and adapts exactly to the dimension.

The location of the foam nozzles in connection with the surface layer nozzle ensures that no voids are left in the foam. The method also ensures good adhesion between the foam and the inner tube 17 and between the foam and the surface layer.

Claims (2)

10 15 20 84050B8Tf = 7 PATENT CLAIMS A method of making a pipe of insulating material comprising one or more inner pipes (17), a plastic foam insulation (18) and a plastic surface layer (16), in which manner foaming material is guided so as to surround the inner pipe (17) to create a ' foamed plastic insulation (18), and correspondingly plastic raw material is led to create a surface layer (16), and around the inner tube (17) the foamed plastic insulation (18) and the surface layer (16) are provided simultaneously in a working layer. step, and in the method the surface layer (16) is cooled to the desired dimension in a calibration means (14), against whose inner surface the surface layer (16) is pressed by means of a calibration pressure, characterized in that the calibration pressure is achieved by means of the foaming, release of the calibration pressure is prevented by the plug formed by the foam as it solidifies. 2. A method according to claim 1, wherein control of the calibration pressure is achieved by controlling the supply of foam raw material and the temperature of the raw material.