NL1013798C2 - Coupling is for high pressure conduit of plastic with fluid-tight inner cover and fiber-reinforced outer cover working in conjunction with coupling sleeve - Google Patents

Abstract

The coupling (1) is for a high pressure conduit (2) of plastic, with a fluid-tight inner cover (3) together with a fiber-reinforced outer cover (4) working in conjunction with a coupling sleeve. The sleeve on its inner surface (21) has teeth (7). The coupling has two identical halves (5,6) fixed to each other by tangentially running tension devices (8). The diameter of the inner surface (21) of the sleeve increases in the direction turned away from the end of the high pressure conduit. The couplng halves at their end facing the free end of the high pressure conduit carry an internal O-ring which can work in conjunction with the fluid-tight inner cover of the high pressure conduit. From the inner cover, the fiber outer-reinforced cover at the level of the O-ring is removed.

Description

Coupling for high pressure pipe

The invention relates to a coupling for a high-pressure pipe made of plastic with a liquid-tight inner jacket and a fiber-reinforced outer jacket, which coupling has a coupling sleeve which can be mated to interact with the fiber-reinforced outer jacket and which has a toothing on its internal surface, which coupling comprises two identical coupling halves, which by means of tensioning means extending substantially tangentially.

Such a coupling is known from GB-A-1385668. The toothing of the coupling sleeve penetrates into the fiber-reinforced outer jacket of the high-pressure pipe, and must thus be able to transfer the fairly high tensile forces into the pressurized high-pressure pipe.

A problem here is that those tensile forces are not evenly distributed over the toothing of the coupling sleeve. This uneven distribution results from the differences in elongation that occur between the coupling sleeve and the end of the high-pressure pipe cooperating therewith. As a result, initially the outer part of the toothing, i.e. the part remote from the end of the high-pressure pipe, carries most of the tensile forces. There is a good chance that there will be symptoms of failure in the outer jacket. Then the 20 tensile forces must be transferred through the next part of the toothing, and eventually the outer casing gradually collapses further and further until complete fracture.

The object of the invention is to provide a coupling of the type described above which is more resistant to the high tensile loads in the high-pressure pipe.

That object is achieved in that the diameter of the internal surface of the coupling sleeve increases towards the end of the high-pressure pipe, and that the coupling halves at their end facing the free end of the high-pressure pipe carry an internal O-ring which can be brought into cooperation with the liquid-tight inner jacket of the high-pressure pipe, from which inner jacket the fiber-reinforced outer jacket at the level of the O-ring has been removed.

The shape of the internal cavity in the welding sleeve means that initially the portion of the teeth near the end of the welding sleeve that faces away from the end of the high pressure pipe does not contribute to the force transfer. The t θ 1 3798 · 2 force transfer therefore takes place initially in the part of the toothing which is located near the end of the high-pressure pipe, which part hardly played a role in the earlier, known coupling.

At higher pressures in the interior of the high-pressure pipe, the radial dimensions thereof increase, as a result of which an increasingly larger part of the toothing, and of the outer jacket, take part in the power transfer.

The end result is that the full toothing of the coupling sleeve participates in the interplay of forces, without locally occurring too high stress concentrations in the outer casing that could lead to failure thereof.

The internal surface of the coupling sleeve can have a gradually widening course, for instance trumpet-shaped or conical.

Alternatively, the internal surface of the coupling sleeve may have a stepped widening progression, such as stepped.

The toothing is firmly pressed into the external surface of the outer casing by tightening the biasing means. In that connection, each coupling half can have two radially extending flanges, which flanges are fastened together in pairs by means of bolt / nut connections directed transversely of the flanges.

In order to ensure that desired fluid density, the coupling halves 20 at their ends facing the free end of the high-pressure pipe have an internal O-ring which can interact with the liquid-tight inner jacket of the high-pressure pipe, the inner jacket of which has the fiber-reinforced outer jacket at the level of the seal is removed.

The coupling can be used in various ways for coupling, for example, a closing piece, vessel, a further pipe section, etc. For this purpose, the coupling halves have undercut annular recesses, in which recess a radially outwardly extending thickening of a support ring is received, as a result of which the O-ring is supported.

The O-ring is included in the inner surface of a piston ring, which piston ring is slidably supported in the support ring. In this version, any spring changes and displacements of the pipe in the coupling can be compensated for without leaks.

1013798 «3

Preferably, the piston ring has an internal, circumferential groove incorporating a first O-ring that interacts with the outer surface of the inner shell, as well as an outer, circumferential groove incorporating a second O-ring that interacts with the inner surface of the support ring.

According to a first possibility, in which the coupling is used for closing off the high-pressure pipe, the support ring extends beyond the free end of the high-pressure pipe, and the support ring is closed by means of a radial end wall.

According to a second possibility, the coupling is used for interconnecting two pipes. In that case, a coupling system is arranged between the two high-pressure pipes, comprising a first coupling as described above, wherein the support ring extends beyond the free end of the high-pressure pipe, and is mirror-symmetrical with respect to a radial plane, and at the mirror-symmetrical end an identical second coupling 15 is arranged mirror-symmetrically with respect to the other coupling.

The invention will be explained in more detail below with reference to an exemplary embodiment of an end closure of a high-pressure pipeline, shown in the figures.

Figure 1 shows a longitudinal section through the coupling.

Figure 2 shows a cross section through the coupling.

The coupling 1 shown in the figures is connected to the end of a high-pressure pipe 2. This high-pressure pipe 2 consists of a liquid-tight inner jacket 3 and a fiber-reinforced outer jacket 4.

The coupling comprises two halves 5, 6, each of which is provided with a barb-shaped toothing 7. These coupling halves 5,6 are secured to each other by means of bolt connections 8.

The barb-shaped toothing 7 is thereby firmly pressed into the external surface of the fiber-reinforced outer jacket 4.

At the extreme end, the fiber-reinforced outer jacket 4 is removed, and the liquid-tight inner jacket 3 is exposed. There, the liquid-tight inner jacket is sealed by means of an O-ring 9, which is received in an inner groove 11 of the piston ring 10. This piston ring 10 also has an outer groove 12, in which a further O-ring 13 is received.

^ 013798 «4

The piston ring 10 is slidable in the support ring indicated in its entirety by 14. The outer O-ring 13 of the piston ring 10 seals against the internal surface 15 of this support ring.

The support ring has a thickened portion 16 which is bounded by a circumferential groove 17. When assembling the coupling halves 5, 6, this thickened portion 16 has come to lie in the undercut annular recess 18, the radially inwardly pointing flanges 19 engaging the circumferential groove 17.

The support ring is closed at its end by an end wall 20.

When the high-pressure pipe 2 is pressurized, some settlement will occur with respect to the coupling 1. This can be easily absorbed in view of the axial displaceability of the piston ring 10 in the support ring 14.

According to the invention, the cavity 21 enclosed by the coupling 5,6 has a barb-shaped toothing 7 which widens towards the end of the high-pressure pipe 2. In practice, therefore, the toothing closest to that end of the high-pressure pipe will first engage firmly in the outer jacket 3 thereof. The further removed parts of the toothing 7 are less tightly engaged with the outer casing 4, the extreme end 4 itself being entirely free as shown with the solid lines.

When the high-pressure pipe is pressurized, it will expand in the radial direction 20, such that an increasingly larger part of the outer jacket 4 comes into firm contact with the toothing 7.

In the end situation shown by broken lines, the pipe is radially expanded, as shown by the contour 22. The outer jacket 4 of the pipeline 2 now rests uniformly over almost the entire length of the coupling, allowing a force transfer without excessive stress peaks. is.

1013798 «

Claims (5)

1. Coupling (1) for a high-pressure plastic pipe (2) with a liquid-tight inner sheath (3), as well as a fiber-reinforced outer sheath (4), which coupling (1) 5 is a coupling sleeve (23) which can be combined with the fiber-reinforced outer sheath (4) ) which has a toothing (7) on its internal surface (21), the coupling (1) comprising two identical coupling halves (5,6), which are fastened together by means of substantially tangentially extending clamping means (8), with characterized in that the diameter of the internal surface (21) of the coupling sleeve (23) 10 increases in the direction away from the end of the high-pressure pipe (2), and that the coupling halves (5,6) at their end face the free end of the high-pressure pipe (2) bear an internal O-ring (9) that can be brought into contact with the liquid-tight inner jacket (3) of the high-pressure pipe (2), of which inner jacket (3) the fiber-reinforced outer jacket (4) at the height of the O-ring (9) has been removed. 15 Coupling according to claim 1, wherein the internal surface (21) of the coupling sleeve (23) has a gradually widening course, such as trumpet-shaped or conical. 3. I Μ B 8: is SN 5: to g- ^ a «g 'e 8 * g & 3 § ^ ^ g * 2. be 8 g * a TO S, <£' T 'E' TO« 2 g <TO g 0 ^ 0 ►SSr-fKOSS ^ Ο n> & 2. 2 J3 * t3 - s. fr “a £ O o-a> g w Ό fl> f + ^ * 0 KW W» “t. rto TO - _ E O CTQ 2 ^ P'1 3 <! a «<® & S. Ο Λ 25 E - E <<“ “o ^ qo'S 05 5 Π> l" 1 ig ^ 8 E - ° ° SI g- s: & rf a * 1 - & £ § I g - 8 »7 5 g S §. g s! I 1 1 s I sg »g - fi: & 3 £ f - q 5 £„ a 5 2 e 3 aïïss: esg - _ 3 ft to C £ 5 »e: 0« g I f «a S s · - ”B · e- a 8- IS: 5- so -" gb, 2 log * 3 * 8 i ^ 3 i? 5 S3, ig · (8 5 B * g 1 I * S £ S '1 IE a ^ ^ 3 g * <=: o R. (tq ^ S, ¾ § ^ £) =: E 2 IQ 0 ^ <a 3 e 5 E 0 p (rq II S- w S ® g- g * Ci 'P ss · “53 a. Ng .-» 5 g K oS ^ § · 0 3' 8 * §j a- ° w * §g «Ö. G * S3 * _ eaa Ö. To 3 g 8 a S S § 0 I-a So Coupling according to claim 1 or 2, wherein the internal surface (21) of the coupling sleeve (23) has a step-wise widening course, such as stepped. Coupling according to claim 1,2 or 3, wherein the toothing (7) is barb-shaped. 25 Coupling according to any one of the preceding claims, wherein each coupling half (5, 6) has two radially extending flanges, which flanges are fastened together in pairs by means of bolt / nut connections (8) directed transversely to the flanges. 1 1013798 « Coupling according to any one of the preceding claims, wherein the coupling halves (5, 6) define an undercut annular recesses (18), in which recess (18) a radially outwardly extending thickening (16) of a support ring (14) is received supporting the O-ring (9). . tO tO I— *) - 'mm oiooto oo * E = · cr <e ^ £ * r cfq> - 3 <ό ggg "* S ·} 8« "g · 4" I. §' 111 S 1111II I * »1 s-1« ill <0 ί · "I 8 · §: I B. U § · ϊ I a <ga ΓΧ) ^ I ί ί - 5 g JL PB jf 3 SL Z na •" I 8 11 M '^ l «I' II § I g * 5 g 1 & p 1 s * g ü I £ f § ig IJ δ j <gg ^ 5 *» 8 5 · 5 E 3 o ö 0 a E e 00}? »I 8 g S! 8 * B. 3 «3 g. a. S 3 3 T g gg § 5 5 s g. I I ft Is I if 8 5