DE2164814C2 - Tubular structure consisting of two corrugated tubes arranged coaxially with one another - Google Patents

Description

The invention relates to a tubular structure according to the preamble of claim 1.

There is already a multilayer pipeline known (DE-OS 19 Ol 069), which consists of two coaxial corrugated Pipes consists of, for example, metal, the corrugated pipes in this pipe arrangement existing band held at a radial distance from each other, which is twisted about its own axis and so alternately with opposite edges against the circumference of the inner tube at points of contact This should allow the heat transfer as a result of heat conduction from the inner pipe to the outer pipe be reduced. According to a special embodiment, the tape can on its longitudinal edges Have cutouts whose distance from one another is dimensioned so that the cutouts in the assembled Condition touch the inner tube at the points where the twisted ribbon extends approximately radially across extends the annular space between the pipes This pipe construction has the disadvantage that during transport from pressurized media, the inner corrugated pipe can expand unhindered and if there is enough high pressures can even be "deformed". To increase the compressive strength is used for the inner tube an additional braided reinforcement sleeve is used, but this is detrimental to the flexibility of the Rohres affects

The invention is based on the object, based on the known type mentioned at the beginning tubular structure to be found when it is acted upon of the inner pipe does not lengthen at higher pressures,

without the flexibility of the structure is significantly reduced.

The object is achieved by what is stated in the characterizing part of claim 1.
The indentations and / or elevations prevent the inner tube from elongating. The metal band acts as a mechanical connection between the tubes due to the elevations and / or indentations. The fact that the metal band is applied in a helical manner only in contact with the band edges, i.e. with a relatively long lay length, still has the effect that if the inner tube is slightly elongated, the diameter of the band is reduced and it is pulled tightly onto the inner tube.

The cavity located between the corrugated pipes is expediently provided with a small one Overpressured inert medium filled in. Corrosion within the space between the corrugated pipes is thus excluded, and in the selection of the material for the inner tube, for the metal band and for There are no limits to the corrosion of the outer tube. In addition, it is possible at If a leak occurs, immediately determine which of the pipes is defective. Since there is usually an increased in the inner tube Pressure prevails, the inner tube must be defective when the pressure in the cavity between the tubes increases be. If the pressure drops, the outer pipe is defective

On the outer corrugated pipe is expediently a Thermoplastic jacket applied to prevent corrosion of the outer pipe.

To this end, it is sometimes advantageous to provide a layer of an anti-corrosion agent, for example based on bitumen, between the outer pipe and the plastic jacket.
Particularly advantageous manufacturing processes for the pipe according to the invention are described in claims 3 and 4.

Because the metal band is applied with pretension, it deforms plastically and settles around the crests of the waves. When the outer tube waves, the wave depth is adjusted so that the Wave troughs of the outer pipe in the area between two wave crests of the inner pipe, the metal band also deform plastically.

However, it is also possible to place a metal band already provided with indentations and / or elevations around the Wrap the inner tube around. A combination of the listed procedures should be the optimal solution bring.

In any case, the indentations or elevations ensure a rigid connection between the interior and outer tube, so that an elongation of the inner tube is avoided the tubular structure according to the invention in almost

continuously produce unlimited length. Because of its flexibility, it can act like an electrical cable Cable drums are wound up and laid.

The tubular structure according to the invention can be used as a jacket for electrical cables operated under gas pressure be used. It has proven to be particularly advantageous but proved to be an oil safety line between a heating oil tank and an oil burner.

In the figure, an embodiment of a pipe according to the teaching of the invention is shown schematically.

On the corrugated interior. Copper pipe 1 has a metal band 2, which can be made of any metal, in such a way that it is plastically deformed and has indentations 3 and elevations 4. These indentations 3 and elevations 4 ensure a positive connection between the inner tube 1 and the Outer tube 5, so that an elongation of the inner tube 1 cannot occur. Due to the great length of lay with which the metal strip 2 is applied, the following effect also occurs. When the inner tube 1 strives to elongate, the inner diameter of the helix formed from the metal strip 2 is reduced and it pulls itself onto the inner tube 1 more tightly. This counteracts the tendency of the inner tube 1 to elongate. The cavity 6 located between the corrugated tubes I and 5 is filled with an inert medium, preferably under a slight excess pressure. If, for example, an internal pressure of approximately 4 atmospheres is applied to the inner tube 1 and a pressure of, for example, 0.5 to 1.5 atmospheres prevails in the cavity 6, a leak in the tubes can be quickly detected. If the pressure drops, the outer tube 5 is defective, if the pressure rises, the inner tube 1 is defective. The pressure in the cavity 6 can be maintained, for example, by a pressurized nitrogen bottle that is connected to the cavity 6 via a reducing valve. The cavity 6 is then at the ends of the pipeline

; o sealed, for example by solder. The filling of the cavity 6 with an inert medium has furthermore the advantage that no corrosion can occur between the tubes 1 and 5. In the The choice of materials is left to the manufacturer. For example, the inner tube 1 can consist of Copper or aluminum, the metal strip 2 made of copper, aluminum, etc. and the outer tube 5 made of copper, Aluminum or steel can be made. A plastic jacket 7, for example made of polyethylene, with between the outer tube 5 and the plastic jacket 7 a layer, not shown, of a corrosion protection agent, for example based on bitumen, is also provided can be.

The tubular structure according to the invention can be produced in almost any diameter extremely flexible and can be produced in almost any length.

For this purpose I sheet drawings

Claims (5)

Patent claims: 1. Tubular structure, consisting of two corrugated tubes arranged coaxially to one another, at least one of which is helically corrugated and one between the tubes flat metal band running helically without touching its band edges, which Has indentations (3) and / or elevations (4) which engage in the corrugation of the inner tube (1), characterized in that the indentations (3) produced by plastic deformation and / or elevations (4) are arranged in the broad side of the metal strip (2) and also in the Engage the corrugation of the outer tube (5). 2. Tubular structure according to claim 1, characterized in that the between the Corrugated tube (1.5) located cavity (6) with an inert under slight overpressure Medium is filled 3. A method for producing a tubular structure according to claim 1, characterized in that that a longitudinally running metal band is continuously formed into a slotted tube, welded longitudinally and is corrugated, on this corrugated pipe (1) a flat metal band (2) under such pretension in a helical shape is wound that the metal band (2) under plastic deformation around the Shaft crests of the inner tube (1) lays around this tube a metal band running lengthways to the Tube (5) is shaped, longitudinally welded and then corrugated with such a corrugation depth, that the metal band (22) is plastically deformed. 4. A method for producing a tubular structure according to claim 1, characterized in that that a longitudinally running metal band is continuously formed into a slot tube, longitudinally welded and is corrugated, on this corrugated pipe (1) with indentations produced by plastic deformation (3) and / or elevations (4) provided metal band (2) is applied helically around this Tube formed a metal band running lengthways to the tube (5), longitudinally welded and then is curled. 5. Use of a tubular structure according to one of claims 1 or 2 as an oil safety line.