Metal deforming – By tool-couple pressing together adjacent surface portions... – To form helically-seamed tube
Patent
1999-04-21
2000-05-30
Butler, Rodney
Metal deforming
By tool-couple pressing together adjacent surface portions...
To form helically-seamed tube
72135, B21C 3712, B21F 302
Patent
active
060678291
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The present invention relates to a device for continuously producing a tubular structure comprising a spiral winding made of at least one shaped wire of large cross section, particularly, although not exclusively, a noninterlocking wire delivered from a reel of wire and, as appropriate (that is to say when a noninterlocking wire is being used) at least one locking wire delivered from a reel of locking wire, which device will hereafter be known as a wire-spiralling machine.
The applicant company has developed and marketed for various applications, and particularly for offshore oil production, flexible tubular pipes which have high mechanical properties, particularly as regards the tensile strength and the ability to withstand the pressures exerted both from the outside of the pipe and from the inside, by the transported products particularly hydrocarbons.
Reference may, for example, be made to the patents EP-A-0,148,061 and EP-A-0,494,299, which disclose an example of a general structure for flexible tubular pipes, and a device for producing such a structure. In these two documents, the question is one of producing a tubular structure consisting of a spiral winding (generally the carcass of a flexible pipe) from an interlocking strip. The strip has a cross section, generally likenable to an S or a Z, which allows each laid turn to catch on to the previous turn by virtue of their complimenting profiles. In the former of these documents, a spiralling machine that is suitable for these relatively flexible strips is described. The machine comprises a circular plate rotating about a horizontal axis that coincides with the longitudinal axis of the tubular structure that is to be formed and which, on one same face where the laying of the spiral winding takes place, supports a strip-feed reel, guide rolls, a collection of shaping wheels and press rolls cooperating with a lay mandrel to form the turns of the winding. The same spiralling machine is discussed again in the second document, it being specified that it is possible simultaneously to use two reels paying out either two interlocking wires or one noninterlocking wire and an additional wire which produces the locking through combination with the first wire. A first alternative form of the device, inspired by document U.S. Pat. No. 4,783,980 is described, together with a second alternative form, inspired by document U.S. Pat. No. 4,895,011. In the latter alternative form, profiled strips are unwound from stationary supply reels and are wound externally into turns around the rotating plate, the innermost turn of this winding being taken over a turn roll to despatch the strips to the lay point.
There are also known flexible tubular pipes which comprise a metal reinforcing layer, such as an internal carcass or a layer which provides resistance to the internal or external pressure, known as the pressure-armour layer. The reinforcing layer consists of the spiral winding of an interlocking wire of the shaped wire type which has a solid cross section in the shape of a Z, such as the wires known by the name of "zeta". Documents FR-A-2,052,057 and FR-A-2,182,372 describe such windings, respectively of relatively thick wire wound at a short pitch and of wire of a flattened cross section wound at a large pitch, and the means for manufacturing then. These documents in particular comprise means for giving the wire a permanent sword-blade deformation prior to winding. The shaped wires involved in the techniques described in these two patents and in the current state of the art of wire spiralling have a thickness which at its maximum, is 10 mm or, exceptionally, is 12 mm.
Although the interlocking wires that consist of a strip of typically S- or Z-shaped cross section may prove satisfactory up to a certain level of forces or stresses involved, it has become apparent that in order to produce the carcasses or pressure-armour layers of flexible pipes, particularly of those intended for a more arduous environment (for example very high internal pressu
REFERENCES:
patent: 4738008 (1988-04-01), Proctor
patent: 4783980 (1988-11-01), Varga
patent: 4895011 (1990-01-01), Varga
Guerin Jean
Harmelin Pascal
Maloberti Rene
Butler Rodney
Coflexip
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