Coated pipe and pipe combination

Abstract

The invention relates to a pipe having a thermoplastic casing surface a glass-fibre-reinforced thermo-setting coating surrounding the thermoplastic casing surface. The thermo-setting coating is formed from multiple layers of glass-fibre matting or glass-fibre fabric, or a combination of the two, wherein the layers are applied to the thermoplastic casing surface a wet-on-wet method using a vinylester, polyester or epoxy resin. According to the invention, an outer layer of the thermo-setting coating is formed from cross-wound glass-fibre fleece or glass-fibre fabric.

Claims

1. A metal pipe, comprising: a thermoplastic casing surface and a fibre-reinforced thermo-setting coating surrounding the thermoplastic casing surface, wherein the fibre-reinforced thermo-setting coating is formed from multiple layers of textile glass fibres which are applied to the thermoplastic casing surface in a wet-on-wet method using a vinyl ester, polyester, or epoxy resin, wherein the individual layers of the fibre-reinforced thermo-setting coating are formed by cross-wound textile glass fibres.

2. The metal pipe according to claim 1, wherein the thermoplastic casing surface is applied to a steel pipe.

3. The metal pipe according to claim 1, wherein the fiber-reinforced thermo-setting coating is provided with peel ply on its outer side over a length of approximately 100 mm at the longitudinal ends of the metal pipe.

4. The metal pipe according to claim 1, wherein the layers of the fibre-reinforced thermo-setting coating formed by glass fibre mats or fabrics, with the exception of an outer layer, are formed by glass fibre webs which are wound around the metal pipe in such a way that edges of the respective glass fibre web overlap by two to five centimetres.

5. The metal pipe according to claim 1, wherein the layers of the fibre-reinforced thermo-setting coating formed by glass fibre mats or fabrics having one inner layer or two inner layers are each formed by a glass fibre mat or fabric with a grammage between 300 and 500 g/m.sup.2.

6. The metal pipe according to claim 5, wherein the inner layer or layers are formed by wound fiberglass webs having a width of less than 35 centimetres.

7. The metal pipe according to claim 1, wherein the layers of the fibre-reinforced thermo-setting coating formed by glass fibre mats or fabrics having one middle layer or two middle layers, are each formed by a glass fibre mat or fabric with a grammage of between 800 and 1200 g/m.sup.2, the middle layer or layers being located between, in the radial direction of the metal pipe, at least one inner layer and an outer layer of the fibre-reinforced thermo-setting coating.

8. The metal pipe according to claim 7, wherein the middle layer or the middle layers are formed by wound glass fibre webs with a maximum width of 40 cm.

9. The metal pipe according to claim 1, wherein the thermoplastic casing surface is formed by polyethylene, polypropylene, or polyurethane.

10. The metal pipe according to claim 1, wherein the metal pipe has a nominal diameter between 100 and 2,500 millimetres and the thickness of the fibre-reinforced thermo-setting coating is between two and eight millimetres.

11. A pipe combination having a plurality of pipes according to claim 1, wherein pipes are connected parallel to one another with sleeves of glass fibre reinforced plastic.

12. The pipe combination according to claim 11, wherein the pipe combination is formed by two to five pipes.

13. The pipe combination according to claim 11, wherein center lines of the pipes in the area of the sleeves have a distance from one another which is greater than outer diameters of the pipes.

14. The pipe combination according to claim 11, wherein the sleeves are adhesively connected to the pipes.

15. The pipe combination according to claim 11, wherein the glass fibre reinforced plastic of the sleeves has a resin matrix of the same thermosetting plastic as the fibre-reinforced thermo-setting coating of the pipes.

16. The metal pipe according to claim 5, wherein the grammage of the glass fibre mat or fabric is about 450 g/m.sup.2.

17. The metal pipe according to claim 7, wherein the grammage of the glass fibre mat or fabric is about 1000 g/m.sup.2.

18. The metal pipe according to claim 10, wherein the thickness of the fibre-reinforced thermo-setting coating is about five millimetres.

19. The metal pipe according to claim 12, wherein the pipe combination is formed by three to four pipes.

Description

(1) Further features and properties as well as variants of pipes and pipe combinations according to the invention can be found in the following description of exemplary embodiments. Therefore, the following exemplary embodiments are used to explain the invention in more detail. Among the figures illustrating the exemplary embodiments, the individual figures show the following:

(2) FIG. 1: is a longitudinal section through a pipe with a thermoplastic casing surface and the surrounding fibre-reinforced thermo-setting coating;

(3) FIG. 2: shows an example of a cross-section through a pipe that is coated according to the invention; and

(4) FIG. 3: shows a longitudinal end of a pipe with a thermo-setting coating with a thickness decreasing towards the longitudinal end;

(5) FIG. 4: shows a pipe combination of three pipes, which are connected by sleeves, in a partially cut front view;

(6) FIG. 5: shows the pipe combination from FIG. 4 in a side view; and

(7) FIG. 6 shows a longitudinal section through a pipe section with a pipe with a thermoplastic casing surface and a fibre-reinforced thermo-setting coating surrounding the thermoplastic casing surface as well as a skid attached to it as a spacer to a cladding pipe.

(8) FIG. 1 is a sectional longitudinal section through a pipe 100, which is formed by an outlet pipe 105, for example made of metal, a thermoplastic casing surface 150 applied to it and a fibre-reinforced thermo-setting coating 180 surrounding the thermoplastic casing surface 150.

(9) The outlet pipe 105 shown has a nominal diameter of 500 mm and is composed of multiple spiral-welded pipe sections 110 and 120 connected by a weld seam 130.

(10) A wall 140 of the pipe 100 is made of steel and carries a thermoplastic casing surface 150 made of polyethylene (PE) which serves as a corrosion protection layer.

(11) The thermoplastic casing surface 150 is interrupted in the area of the weld seam 130 and replaced by a polyethylene sleeve or repair tape 170 to bridge the interruption of the thermoplastic casing surface 150. In order to be able to weld pipe sections 110 and 120 together, the thermoplastic casing surface 150 is removed at the ends 115 and 125 of pipe sections 110 and 120 before they are welded together and replaced by the polyethylene sleeve or repair tape 170 after the welding process.

(12) FIG. 1 shows that the thickness of the thermoplastic casing surface 150 corresponds approximately to the thickness of the fibre-reinforced thermo-setting coating 180 and is about 5 mm.

(13) The thermo-setting coating 180 has one or two inner layers 182 and one or two middle layers 184 and one outer layer 186.

(14) Each of these layers is made of glass fibre reinforced plastic, i.e. textile glass fibres wound around the pipe 100 and embedded in a resin matrix of vinyl ester resin, polyester resin or epoxy resin.

(15) The fibre webs forming the inner layer 182 or the inner layers 182 and the fibre webs forming the middle layer 184 or the middle layers 184 are wound in the pipe 100 in such a way that the two edges of each fibre web overlap by about two to five centimetres.

(16) The inner layer 182 or the inner layers 182 are formed in the exemplary embodiment by a glass fibre mat with a grammage of about 450 g/m2, while the middle layer 184 or the middle layers 184 are formed by a glass fibre mat with a grammage of about 1,030 g/m2.

(17) The outer layer 186, unlike the inner layer 182 or inner layers 182 and the middle layer 184 or middle layers 184, is not applied with a uniform winding direction for each layer, but cross-wound, i.e. the outer layer is formed by two fibre webs wound in opposite directions and crossing each other so that, as a result, they are interwoven.

(18) All layers 182, 184 and 186 are applied wet-on-wet to thermoplastic casing surface 150, i.e. a subsequent layer is applied in each case to the previous layer before the resin forming the resin matrix of the previous layer is cured. In this way, layers 182, 184 and 186 are closely connected together.

(19) The glass content of thermo-setting coating 180 is at least 35 mass percent, i.e. the resin content is less than 65 percent.

(20) FIG. 2 shows an example of a cross-section of a pipe 100 coated according to the invention.

(21) FIG. 3 shows a longitudinal end of a pipe 100 with a thermo-setting coating 180, the thickness of which decreases over a length L towards the longitudinal end of the pipe 100. The thermo-setting coating 180 is provided with peel ply 300 on its outer side in its area L of decreasing thickness. Both measures—the decreasing thickness as well as the peel ply 300—contribute to the fact that the longitudinal ends of the pipes 100 can easily be joined together by welding and that after welding the pipes in the area of the weld seam a thermo-setting coating can easily be built up. The peel ply ensures that the original thermo-setting coating in the area of the pipe ends does not have to be sanded. The decreasing thickness of the original thermo-setting coating leads to an almost constant transition from the original thermo-setting coating to the local thermo-setting coating that is applied after welding the pipes in the area of the weld seam.

(22) FIG. 4 shows a pipe combination of three pipes 100, which are connected to each other with sleeves 400 made of glass fibre reinforced plastic to form the pipe combination 410.

(23) The pipes 100 are spaced apart in the area of the sleeves 400 so that the pipes 100 of the pipe combination 410 do not laterally touch each other and do not directly connect to each other. This makes it easier to install the pipe combination 410 along a slightly curved section. To ensure this distance, spacers 420 are provided in the area of the sleeves 400, which keep the pipes 100 laterally at a distance from each other.

(24) The glass-fibre-reinforced plastic sleeves 400 are adhesively connected to the pipes. The resin matrix of the sleeves is made of the same thermosetting plastic as the thermo-setting coating 180 of the pipes 100, for example vinyl ester or polyester resin.

(25) The required sleeve width as well as the sleeve distance in longitudinal direction are based on the project-related static calculations.

(26) As shown in FIG. 5, the sleeves 400 are spaced at a distance A of 2 to 4 m from each other in the longitudinal direction of the pipe 410. The width B of each sleeve 400 is preferred to amount to about 40 cm.

(27) Instead of three pipes (as shown), a pipe combination can also be formed of two to six pipes. The advantage of such a pipe combination is that multiple pipes 100 can be installed or advanced at the same time, whereby the sleeves 400 made of glass-fibre-reinforced plastic are closely connected with the thermo-setting coating 180 of the pipes 100, so that the pipe combination is stable.

(28) FIG. 6 shows a longitudinal section through a pipe section with a pipe 100 having a thermoplastic casing surface 150 and a fibre-reinforced thermo-setting coating 180 surrounding the thermoplastic casing surface 150 and a skid 450 applied to it as a spacer to form a cladding pipe 500. Here, the cladding pipe 500 serves as an external protection into which the pipe 100 together with the thermoplastic casing surface 150, thermo-setting coating 180 and skid 450 applied to it is inserted. Preferably, multiple skids 450 with a longitudinal distance between them are provided.

(29) The skids 450 are a feature that can be realised independently of a thermoset coating or in combination with any thermo-setting coating.

LIST OF REFERENCE SIGNS

(30) 100 Pipe 105 Metal outlet pipe 110,120 Pipe section 115,125 Longitudinal end of a pipe 130 Weld seam 140 Wall 150 Thermoplastic casing surface 170 Repair tape 180 Thermo-setting coating 182 Inside layer of the thermo-setting coating 184 Middle layer of the thermo-setting coating 186 Outer layer of the thermo-setting coating 300 Peel ply 400 Sleeve 410 Pipe combination 420 Spacers 450 Skid 500 Cladding pipe