AU1857299A

AU1857299A - Clampable pipe coupling

Info

Publication number: AU1857299A
Application number: AU18572/99A
Authority: AU
Inventors: Reiner Schreiter
Original assignee: Rasmussen GmbH
Current assignee: Norma Germany GmbH
Priority date: 1998-03-04
Filing date: 1999-03-03
Publication date: 1999-09-16
Anticipated expiration: 2019-03-03
Also published as: ATE280349T1; EP0940618B1; EP0940618A2; CA2264211A1; KR19990077532A; EP0940618A3; DE29803713U1; JPH11294655A; DE59910870D1; ES2226216T3; AU743533B2

Abstract

The rings (12) are formed from a metal strip and have end parts enclosing the pipes (3) with at least one gap. The radial inner edges of the rings have teeth (13) on the same plane as the metal band and whose free ends grip into the pipes' material when the pipe coupling is tensioned. The teeth of one pipe slope towards the teeth of the other pipe. The teeth have an edge (21) extending across the axial direction of the pipe coupling. The side (19) of each tooth facing the outside of the pipe inserted into the coupling includes an acute angle with the tooth's end surface (20) next to the tooth-side and extending as far as the tooth side facing away from the pipe.

Description

S F Ref: 451582

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

ORIGINAL

Th oloig ttmeti aflldsrito o hs nenin icuin h Name and Address of Applicant: Actual Inventor(s): Address for Service: Invention Title: Rasmussen GmbH Edisonstrasse 4 D-63477 Maintal

GERMANY

Reiner Schreiter Spruson Ferguson, Patent Attorneys Level 33 St Martins Tower, 31 Market Street Sydney, New South Wales, 2000, Australia Clampable Pipe Coupling The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845

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Clampable Pipe Coupling Background of the Invention 1. Field of the Invention The present invention relates to a clampable pipe coupling to axially connect two pipes having a smooth outer surface. The coupling includes split annular or ring-shaped elements that are made from a metal strip. The rings have a radially inner edge that, in the clamped position, surrounds the pipe ends. The radially inner edge of the rings have teeth that extend in the plane of the ring. The free ends of the teeth penetrate into the pipe material when the pipe coupling is in the clamped position.

The teeth penetrating into one pipe extend at an angle relative to the longitudinal axis of the pipe and lo also extend at an angle relative to the teeth that engage in the other pipe. A side of each tooth facing toward the pipe inserted in the coupling encloses an acute angle with an end surface of the free end of the tooth, 2. Discussion of the Related Arts Conventional pipe couplings have teeth (which are also referred to as "claws") that are configured like pointed sawteeth. Circumferentially neighboring edges of the sawteeth are V-shaped.

A radial inner front face of the sawteeth is inclined relative to the longitudinal axis of the pipes that are t ec joined by the coupling, The pointed tips of these teeth penetrate deeply into the pipe material, even metal pipes, thereby preventing the pipe ends from slipping out of the coupling when the pipes are subject to a high internal pressure. If the teeth are made of a sufficiently rigid material, with increasing o 20 internal pressure, the pipes will try to separate, which causes the teeth to move from their radially inclined position relative to the longitudinal axis toward a position where the teeth are normal to the .longitudinal axis. In other words, the teeth tend to stand up radially as the pipes attempt to move apart due to internal pressure. As the teeth stand up, their grip and depth of penetration into the pipe around the perimeter of the pipe intensifies, thereby ensuring the axial integrity of the pipe connection in spite of rising internal pressure. But in the case of very high internal pressures, the teeth bend because they are not strong enough. The bending of the teeth is mostly due to their tapered, pointed ends. If the pipes are made from a softer material plastic), under very high internal pressures, the pipes can be pressed apart axially because the teeth's pointed tips do not remain penetrated within the pipes, but form V-shaped axial grooves in the outer surface of the pipes.

Summary of the Invention It is an object of the present invention to provide a pipe coupling that has teeth which have greater strength and flexural stiffness, and substantially prevent the formation of axial grooves in the outer surface of the pipes even if the pipes are made of a relatively soft material.

According to an exemplary embodiment of a pipe coupling according to the present invention, this and other objects are achieved with a split circular ring, which has a radial inner edge surrounding the end of the pipe to be clamped. The radial inner edge extends transversely with respect to the longitudinal axis of the pipe coupling. Teeth are disposed at the radial inner edge of the split circular ring. A side of each tooth faces the outside surface of the pipe inserted in this side of the coupling.

This side of the tooth encloses an acute angle (13) with an end surface of the tooth that adjoins this C00249

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2 side. The free end of the teeth on one side of the pipe coupling are level with the free end of the teeth on the other side of the pipe coupling.

In this exemplary embodiment of a pipe coupling the teeth, when viewed in the axial direction, do not form V-shaped points. Therefore, the teeth are unable to tear grooves into the pipe material.

Additionally, the teeth have an increased flexural stiffness in the vicinity of their free ends.

Nevertheless, the free ends of the teeth penetrate sufficiently into the pipe material so that the pipe connection prevents the pipe ends from slipping out of the coupling even when the pipes are subject to a very high internal pressure.

In accordance with a currently preferred exemplary embodiment of a pipe coupling according to the present invention, the acute angle ranges from approximately 500 to approximately 800, preferably approximately 700. The side of the tooth facing the outside of the pipe that is introduced into the tooth's side of the pipe coupling encloses an angle with respect to the longitudinal axis of the pipe coupling, in the range from approximately 350 to approximately 550, preferably approximately 450.

Brief Description of the Drawing Figures S•The above and still further objects, features and advantages of the present invention will become apparent upon consideration of the following detailed description of a specific embodiment thereof, especially when taken in conjunction with the accompanying drawing, wherein: Fig, 1 is a front view, in partial cross-section, of the pipe coupling according to the present 0 20 invention; ••Fig. 2 is an axial side view of the pipe coupling of Fig. 1; Fig. 3 is an axial sectional view of the pipe coupling of Fig. 1 shown in the clamped position, 0 axially connecting two smooth surfaced pipes; Fig. 4 is an enlarged detail of Fig. 3; and 25 Fig. 5 is a cross sectional view, in the proximity of a tooth, of the ring illustrated on the left in o Figs. 1,3 and 4.

Detailed Description of a Preferred Embodiment Referring now to Figures 1-5, a pipe coupling according to the present invention is illustrated.

The pipe coupling includes an outer sheet steel casing 1 that is bent into less than a complete ring (see Fig. Radially bent in front faces 2 are provided at each axial end of casing 1. The inner diameter of each front face 2 is larger than the outer diameter of the pipes 3 to be connected by the pipe coupling (see Fig. Casing 1 is split or open in the circumferential direction, thereby forming the incomplete ring. The free ends of casing 1 are bent radially outwardly and back, thereby forming a loop 4 at each free circumferential end of the incomplete ring (see Figs. 1 and The free ends of casing 1 are attached, via buckle weldments 7, to the outer surface of casing 1 (see Fig. A bolt 5, 6 is inserted in each loop 4. Each loop 4 has a slot 8 that extends around a major portion of each bolt 6 (see Fig. Each bolt 5,6 has a through bore that is located in an area corresponding to the location of slot 8 in the assembled position. The through bore in bolt 6 is threadless, whereas the through bore in bolt 5 is threaded. A headed clamping screw 9 extends through each slot 8 and the C00249 through bore in bolts 5,6. A threaded shaft of clamping screw 9 mates with the internally threaded through bore in bolt 5. Each clamping screw 9 has a socket head 10 with a shoulder that abuts against a flared pocket 11 at the end of the through bore in bolt 6 that faces head 10 in the clamped position.

A radially outer edge of a frustum-shaped, circumferentially discontinuous ring 12 abuts against the inner surface of each radially bent in front face 2 of casing 1. The free ends 14 of each ring 12 overlap in the circumferential direction (see Fig. Rings 12 are shaped from a metal strip. Teeth 13 are disposed at the radially inner edge of rings 12. Teeth 13 are disposed in the plane of the metal strip forming rings 12.

An elastomer gasket 15 is disposed radially inside of casing 1 (see Figs. 3 and The axial ends of gaskets 15 form sealing lips 16 and 17 that protrude radially inwardly. In the clamped position, sealing lips 16, 17 press against the outside of pipes 3. A sheet-metal ring 18 is located between lip seals 16. Ring 18 is disposed radially inside of a middle portion of gasket 15. Ring 18 is a split ring in the circumferential direction and has free end sections that overlap each other in the circuTnferential direction. Ring 18 ensures, in the clamped position, that the material of elastomer gasket 15 will not squeeze between the ends of the pipes 3. The gap between the two ends of the circular casing 1 is "spanned by a bridge which abuts against the outer circumference of gasket 15 and is overlapped by the end sections of the casing 1.

As illustrated in Figs. 3-5, ring 12, including its teeth 13, are inclined relative to the pipe by an angle a between about 350 and about 550 preferably about 450 The side 19 of each tooth 13 that faces toward the pipe 3 that is inserted in the side of the pipe coupling having this ring 12 encloses an angle A with an end surface 20 of the free end of the tooth 13. Angle A ranges from approximately Sto approximately 800, preferably approximately 700 The free end of each tooth has a sharp edge tip 21 formed by the intersection of side 19 and end surface 20. Sharp edge tip 21 is a circumferential S 25 edge that extends transversely with respect to an axis of the pipe coupling. Sharp edge tip 21 is arcuate in shape, but because the circumferential length of the edge 21 is relatively small, edge 21 is substantially straight.

When the coupling is in the clamped position, teeth 13 with their tips 21 disposed at their free ends, penetrate into the pipe material as shown in Figs. 3 and 4. Thus, teeth 13 prevent pipes 3 from pulling apart when there is high internal pressure in the pipes 3. Moreover, rings 12 along with teeth 13 have a tendency to stand up radially as the pipes 3 attempt to move apart due to the internal pressure. Thus, as a result of increasing internal pressure, teeth 13 will penetrate even more deeply into the pipe material, thereby increasing the axial load capacity of the pipe connection provided by the coupling as the internal pressure increases. Because teeth 13 penetrate into the pipe material, the formation of axial grooves in pipes 3 due to teeth 13 moving axially is avoided.

Having described the presently preferred exemplary embodiment of a clampable pipe coupling in accordance with the present invention, it is believed that other modifications, variations and changes will be suggested to those skilled in the art in view of the teachings set forth herein. For example, the front faces 2 may not extend precisely radially, but may be bent in an axial relation with respect to one another. Rings 12 are preferably provided with teeth 13 that are configured to bite into C00249 4 the pipe material. Additional rings 12 may also be used. In certain instances, rings 12 may not be needed, with the front faces 2 alone constituting appropriate rings. Alternatively, the inside of casing 1 may be equipped with a dual row of serrated rings, with the teeth of each ring angled either in the same direction or in opposite directions relative to the longitudinal axis. It is, therefore, to be understood that all such modifications, variations, and changes are believed to fall within the scope of the present invention as defined by the appended claims.

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Claims

1. A pipe coupling for axially connecting two pipes having a smooth outer surface, said pipe coupling comprising: a first split circular ring; and a second split circular ring, wherein said first and said second split circular rings are each made from a metal strip, each of said strips having a radial inner edge surrounding the ends of the pipes in the clamped position, a plurality of teeth being disposed at said radial inner edge of said strips, said teeth being disposed in the plane of said respective rings, a free end of each of said teeth penetrating into said pipe when the coupling is in the clamped position, said free end of each of said teeth having a circumferential edge that extends transversely with respect to an axis of said pipe coupling, said teeth of said first split circular ring extending at an angle relative to said teeth of said second split circular ring, a side of each of said teeth facing toward the pipe inserted in the coupling enclosing an acute angle with an end surface of said free end of said tooth.

2. The pipe coupling according to claim 1, wherein said acute angle ranges from approximately 500 to approximately 800.

3. The pipe coupling according to claim 2, wherein said acute angle is approximately 700.

4. The pipe coupling according to claim 1, wherein said side of each of said teeth encloses a second acute angle with respect to a longitudinal axis of the pipes.

5. The pipe coupling according to claim 4, wherein said second acute angle ranges from approximately 350 to approximately 550 20

6. The pipe coupling according to claim 5, wherein said second acute angle is approximately 450.

7. The pipe coupling according to claim 2, wherein said side of each of said teeth encloses a second acute angle with respect to a longitudinal axis of the pipes.

8. The pipe coupling according to claim 7, wherein said second acute angle ranges from approximately 350 to approximately 550 0

9. The pipe coupling according to claim 8, wherein said second acute angle is approximately 450.

10. A pipe coupling for axially connecting two pipes having a smooth outer surface, S substantially as hereinbefore described with reference to the accompanying drawings. Dated 16 February 1999 RASMUSSEN GMBH Patent Attorneys for the ApplicantlNominated Person SPRUSON&FERGUSON C00249