CA2059594C - Pipe coupling - Google Patents
Pipe couplingInfo
- Publication number
- CA2059594C CA2059594C CA 2059594 CA2059594A CA2059594C CA 2059594 C CA2059594 C CA 2059594C CA 2059594 CA2059594 CA 2059594 CA 2059594 A CA2059594 A CA 2059594A CA 2059594 C CA2059594 C CA 2059594C
- Authority
- CA
- Canada
- Prior art keywords
- sealing
- frusto
- male
- load
- female
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Abstract
A pipe coupling or connection comprises a female coupling component and a mating male coupling component. Each component is matingly threaded for coupling engagement, and each is provided with an adjacent frusto-conical sealing surface. The sealing surface is provided with a controlled surface roughness, viz. very shallow fine surface variations, preferably formed as microgrooves at a pitch small relative to the pitch of the threads. The slope of the frusto-conical surface of the sealing area of the male component is slightly mismatched with that of the sealing area of the female component to simulate the bearing force vs. axial distance characteristic of shrunk-fit circular cylindrical sealing surfaces. The slight mismatch enables the sealing pressure to be above a design minimum throughout the entire sealing area yet higher at each end of the sealing area.
As the coupling is assembled, thread interference in the vicinity of the sealing surface lags the occurrence of interference between the sealing surfaces. Load threads are provided with negatively inclined load flank faces. The slope of the load thread pitch line of the male element is slightly steeper than the slope of the load thread pitch line of the female element.
As the coupling is assembled, thread interference in the vicinity of the sealing surface lags the occurrence of interference between the sealing surfaces. Load threads are provided with negatively inclined load flank faces. The slope of the load thread pitch line of the male element is slightly steeper than the slope of the load thread pitch line of the female element.
Claims (34)
1. A pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness;
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is selected to be slightly less than that of the frusto-conical sealing surface of the female component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled qualitatively simulates that of a pair of mating shrunk-fit circular cylindrical sealing surfaces; and (c) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is selected to be slightly less than that of the frusto-conical sealing surface of the female component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled qualitatively simulates that of a pair of mating shrunk-fit circular cylindrical sealing surfaces; and (c) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
2. A pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness;
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is slightly less than that of the frusto-conical sealing surface of the female component;
(c) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof; and (d) the mismatch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is slightly less than that of the frusto-conical sealing surface of the female component;
(c) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof; and (d) the mismatch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
3. A pipe connection as defined in claim 1, wherein the load flank faces of the load threads of both the male and female components are negatively inclined to the radial.
4. A pipe connection as defined in claim 2, wherein the load flank faces of the load threads of both the male and female components are slightly negatively inclined to the radial, the angle of negative inclination of the load flank faces not exceeding about 10 degrees.
5. A pipe connection as defined in claim 4, wherein the mismatch between male and female thread pitch line angle is less than that which would afford 50% contact between the distal threads of the male component and the mating threads of the female component.
6. A pipe connection as defined in claim 2, wherein the female component is provided with an interior torque shoulder forming an annular seat engageable by and mating with the distal end of the male component.
7. A pipe connection as defined in claim 6, wherein the face of the annular seat is negatively inclined to the radial.
8. A pipe connection as defined in claim 2, wherein the slope of the frusto-conical sealing surface of the male component is substantially the same as the slope of the thread pitch line of the male component.
9. A pipe connection as defined in claim 2, wherein prior to assembly, to at least one of the sealing surfaces is applied a high-temperature high-solids sealing lubricant containing mashable solid particles.
10. A pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness;
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(c) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (d) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(c) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (d) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
11. A pipe connection as defined in claim 10, wherein upon complete assembly of the connection, there is no thread interference creating a radial force between the said frusto-conical sealing surfaces.
12. A pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness;
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is selected to be slightly less than that of the frusto-conical sealing surface of the female component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled is characterized by a relatively uniform sealing force at least equal to a design minimum force throughout the axial length of the sealing area between the end regions of the sealing area, a distal sealing force peak at the distal end (relative to the male component) of the sealing area, and a proximal force peak at the proximal end (relative to the male component) of the sealing area, the proximal force peak being substantially higher than the distal force peak but less than the force at which deleterious galling of the sealing area occurs, and the distal force peak being substantially higher than the uniform sealing force between the end regions of the sealing area but less than the force at which deleterious galling of the sealing area occurs;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before any occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing sur-faces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (e) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is selected to be slightly less than that of the frusto-conical sealing surface of the female component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled is characterized by a relatively uniform sealing force at least equal to a design minimum force throughout the axial length of the sealing area between the end regions of the sealing area, a distal sealing force peak at the distal end (relative to the male component) of the sealing area, and a proximal force peak at the proximal end (relative to the male component) of the sealing area, the proximal force peak being substantially higher than the distal force peak but less than the force at which deleterious galling of the sealing area occurs, and the distal force peak being substantially higher than the uniform sealing force between the end regions of the sealing area but less than the force at which deleterious galling of the sealing area occurs;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before any occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing sur-faces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (e) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof.
13. A pipe connection as defined in claim 12, wherein upon complete assembly of the connection, there is no thread interference creating a radial force between the said frusto-conical sealing surfaces.
14. A pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness;
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is slightly less than that of the frusto-conical sealing surface of the female component;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection;
(e) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof; and (f) the mismatch in inches per inch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the male component is slightly less than that of the frusto-conical sealing surface of the female component;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection;
(e) the slope of the load thread pitch line of the male component relative to the axis thereof is slightly steeper than the load thread pitch line of the female component relative to the axis thereof; and (f) the mismatch in inches per inch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
15. A pipe connection as defined in claim 14, wherein the load flank faces of the load threads of both the male and female components are slightly negatively inclined to the radial, the angle of negative inclination of the load flank faces not exceeding about 10 degrees.
16. A pipe connection as defined in claim 15, wherein the mismatch between male and female thread pitch line angle is less than that which would afford 50% contact between the distal threads of the male component and the mating threads of the female component.
17. A pipe connection as defined in claim 16, wherein the female component is provided with an interior torque shoulder forming an annular seat engageable by and mating with the distal end of the male component.
18. A pipe connection as defined in claim 17, wherein the face of the annular seat is negatively inclined.
19. A pipe connection as defined in claim 15, wherein the slope of the frusto-conical sealing surface of the male component is substantially the same as the slope of the thread pitch line of the male component.
20. For use in a pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness; the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; a female component of the foregoing type characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is selected to be slightly greater than that of the frusto-conical sealing surface of the male component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled qualitatively simulates that of a pair of mating shrunk-fit circular cylindrical sealing surfaces; and (c) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is selected to be slightly greater than that of the frusto-conical sealing surface of the male component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled qualitatively simulates that of a pair of mating shrunk-fit circular cylindrical sealing surfaces; and (c) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
21. For use in a pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical surfaces, at least one of such surfaces having controlled surface roughness; the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; a female component of the foregoing type characterized in that :
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(c) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (d) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before the occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing surfaces;
(c) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (d) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
22. For use in a pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the coupling components being formed as mating frusto-conical sur-faces, at least one of such surfaces having controlled surface roughness; the respective sealing areas of the components being in axially aligned sealing engagement when the pipe connection has been assembled; a female component of the foregoing type characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is selected to be slightly greater than that of the frusto-conical sealing surface of the male component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled is characterized by a relatively uniform sealing force at least equal to a design minimum force throughout the axial length of the sealing area between the end regions of the sealing area, a distal sealing force peak at the distal end (relative to the male component) of the sealing area, and a proximal force peak at the proximal end (relative to the male component) of the sealing area, the proximal force peak being substantially higher than the distal force peak but less than the force at which deleterious galling of the sealing area occurs, and the distal force peak being substantially higher than the uniform sealing force between the end regions of the sealing area but less than the force at which deleterious galling of the sealing area occurs;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before any occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing sur-faces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (e) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is selected to be slightly greater than that of the frusto-conical sealing surface of the male component such that the sealing bearing load relative to axial distance of the contacting sealing surfaces of the components when the components have been assembled is characterized by a relatively uniform sealing force at least equal to a design minimum force throughout the axial length of the sealing area between the end regions of the sealing area, a distal sealing force peak at the distal end (relative to the male component) of the sealing area, and a proximal force peak at the proximal end (relative to the male component) of the sealing area, the proximal force peak being substantially higher than the distal force peak but less than the force at which deleterious galling of the sealing area occurs, and the distal force peak being substantially higher than the uniform sealing force between the end regions of the sealing area but less than the force at which deleterious galling of the sealing area occurs;
(c) when the connection is being assembled, interfer-ence between the sealing surfaces occurs before any occurrence of any radially-directed interference of the load threads of the male and female components in the vicinity of the sealing sur-faces;
(d) upon complete assembly of the connection, any interference between the load threads is insufficient to tend to pry the sealing surfaces apart to an extent that would reduce the sealing bearing load below the minimum design value for the connection; and (e) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof.
23. For use in a pipe connection of the type having a female component and a mating male component, each matingly threaded for connection therebetween, and each provided with a sealing area adjacent the threaded area, the sealing area of the in axially aligned sealing engagement when the pipe connection has been assembled; a female component of the foregoing type characterized in that:
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is slightly greater than that of the frusto-conical sealing surface of the male component;
(c) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof; and (d) the mismatch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
(a) the slopes of the frusto-conical sealing surfaces are each relatively shallow;
(b) the slope of the frusto-conical sealing surface of the female component is slightly greater than that of the frusto-conical sealing surface of the male component;
(c) the slope of the load thread pitch line of the female component relative to the axis thereof is slightly less steep than the load thread pitch line of the male component relative to the axis thereof; and (d) the mismatch between the slopes of the frusto-conical sealing surfaces of the male and female components is less than the nominal interference in inches at the gauge points of the said sealing surfaces.
24. A pipe connection as defined in claim 1, wherein the mismatch between male and female thread pitch line angle is less than that which would afford 50% contact between the distal threads of the male component and the mating threads of the female component.
25. A pipe connection as defined in claim 1, wherein the female component is provided with an interior torque shoulder forming an annular seat engageable by and mating with the distal end of the male component.
26. A pipe connection as defined in claim 25, wherein the face of the annular seat is negatively inclined to the radial.
27. A pipe connection as defined in claim 1, wherein the slope of the frusto-conical sealing surface of the male component is substantially the same as the slope of the thread pitch line of the male component.
28. A pipe connection as defined in claim 1, wherein prior to assembly, to at least one of the sealing surfaces is applied a high-temperature high-solids sealing lubricant containing mashable solid particles.
29. A pipe connection as defined in claim 12, wherein the load flank faces of the load threads of both the male and female components are slightly negatively inclined to the radial, the angle of negative inclination of the load flank faces not exceeding about 10 degrees.
30. A pipe connection as defined in claim 29, wherein the mismatch between male and female thread pitch line angle is less than that which would afford 50% contact between the distal threads of the male component and the mating threads of the female component.
31. A pipe connection as defined in claim 30, wherein the female component is provided with an interior torque shoulder forming an annular seat engageable by and mating with the distal end of the male component.
32. A pipe connection as defined in claim 31, wherein the face of the annular seat is negatively inclined.
33. A pipe connection as defined in claim 15, wherein the slope of the frusto-conical sealing surface of the male component is substantially the same as the slope of the thread pitch line of the male component.
34
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US07/770,566 | 1991-10-03 | ||
US07/770,566 US5330239A (en) | 1990-01-19 | 1991-10-03 | Pipe coupling |
Publications (2)
Publication Number | Publication Date |
---|---|
CA2059594A1 CA2059594A1 (en) | 1993-04-04 |
CA2059594C true CA2059594C (en) | 1995-06-27 |
Family
ID=25088999
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA 2059594 Expired - Lifetime CA2059594C (en) | 1991-10-03 | 1992-01-17 | Pipe coupling |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA2059594C (en) |
-
1992
- 1992-01-17 CA CA 2059594 patent/CA2059594C/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
CA2059594A1 (en) | 1993-04-04 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
EEER | Examination request | ||
MKEX | Expiry |