Method and apparatus for connecting coupler fittings to conduit sections
A preferred apparatus for connecting a fitting to a conduit section comprises a rigid insert designed to be affixed to the fitting and one or more retainers designed to fit over the external surface of the conduit section. A preferred insert includes at least two axially-spaced, raised detents. Suitable retainers include rigid, one-piece collars and clamps. An especially preferred method for connecting the coupler fittings and the section of pipe comprises the steps of positioning a one-piece collar over the external surface of the conduit section; pressing the insert into a receiving end of the conduit section; and pushing the one-piece collar along the external surface of the conduit section toward the receiving end to substantially align the one-piece collar between two axially-spaced, raised detents on the insert. Most preferably, a seal is positioned between the two axially-spaced, raised detents. The preferred retainer cinches the wall of the conduit section against the outer surface of the insert between the two raised detents so as to decrease the likelihood that the conduit section will leak or slip from the fitting during use.
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1. Field of the Invention
The present invention relates to methods and apparatus for connecting coupler members to conduit sections. More particularly, the invention relates to methods and apparatus for connecting rigid, most preferably metal, coupler members to resilient conduits such as, without limitation, resilient pipe and flexible hose.
2. Description of Related Art
Conduit such as pipe or hose typically is manufactured in lengths or sections which are coupled together during construction or installation to form a pipeline. Couplers affixed to the ends of the conduit sections couple the sections together. Often, such couplers include fittings affixed to adjoining ends of adjacent conduit sections as well as mechanisms for permanently or detachably connecting the fittings to each other to form fluid-tight joints.
One type of coupling used for connecting such conduit sections, available from Röhren-und Pumpenwerk Bauer GmbH of Voitsberg, Austria, includes separate male and female coupler fittings affixed to adjoining ends of the sections as well as a clamping sleeve slidably installed behind the male fitting. The male fitting consists of a spherical shell having openings at opposite ends to provide a passage through the shell. The female fitting includes a hemispherical socket for receiving the spherical shell. The male fitting fits into the hemispherical socket of the female fitting. A rubber gasket seated in the female fitting helps to form a fluid-tight seal between the male and female fittings. The clamping sleeve includes hooks for securing the sleeve to the female fitting so as to clamp the male fitting between the clamping sleeve and the female fitting.
This type of coupling permits the conduit section connected to the male fitting to pivot up to about 15°-30° relative to a centerline of the conduit section to which the female fitting is connected. This arrangement allows for curvature in a pipeline formed using the coupling so as to adapt to terrain on which the pipe line is placed.
Often, sections of pipe used in pipeline applications are formed from polymeric materials. For example, high density polyethylene (“HDPE”) pipe is well suited for applications such as mining, road construction, fresh water systems and wastewater systems, among others. HDPE material is lightweight compared to other piping materials such as metals. HDPE pipe is durable—its resiliency provides protection against damage from external loads, vibrations and pressure surges such as water hammer. It is resistant to scale build-up as well as to damage from most aggressive chemicals and corrosive agents.
Flexible hosing is well suited to other applications. One popular type of flexible hosing includes a flexible polymeric material such as a rubber material reinforced by a woven material formed from metal, ceramic or polymer. Known applications require coupling of flexible hosing at either the suction or discharge ends of pumping systems. Tremendous amounts of thrust can be generated at the discharge ends of the sections of hosing in such applications.
The use of a rigid materials such as metal to form couplings helps to ensure the dimensional stability of the couplings and, consequently, the tightness of the seals between the coupler fittings. One drawback to the use of couplers formed from rigid materials such as metals in joining sections polymeric pipe and flexible hose is the need for a mechanism to connect the fittings to the ends of the conduit sections. Another drawback to the use of metal couplings in connection with plastic pipes and flexible hoses lies in the difference between the thermal expansion rates of the materials forming the fittings and the conduit, which can lead to leakage between the section of pipe and the coupler fitting as the environmental temperature varies. Typically, this problem is addressed by increasing the wall thickness of the pipe or hose above the minimum required to contain the anticipated fluid pressure so as to maintain engagement between the conduit section and the coupler. There remains a need in the art for a relatively simple and inexpensive method, and for a relatively simple and inexpensive apparatus, for connecting a coupling formed from a rigid material such as metal to a section of resilient conduit.
SUMMARY OF THE INVENTIONThis need and others are addressed by a method and apparatus for connecting a fitting to a conduit section. (For present purposes, “conduit” broadly refers to any structure capable of conducting a fluid.) Preferred apparatus in accordance with the invention comprises a rigid insert designed to be affixed to the fitting and one or more retainers designed to fit over an external surface of the conduit section. The preferred insert includes a body defining a central lumen.
In accordance with one especially preferred embodiment, the insert includes two axially-spaced, raised detents and the retainer is in substantial alignment between the two raised detents. Suitable retainers include rigid, one-piece collars and clamps. The preferred retainer cinches the wall of the conduit section against the outer surface of the insert between the two raised detents so as to decrease the likelihood that the section will slip or come loose from the fitting during use. The insert optionally includes one or more smaller raised detents between the two axially-spaced, raised detents to increase the engagement between the insert and the conduit section to further decrease the likelihood of slippage.
Without wishing to be bound by any theory of operation, it is believed that the one or more retainers serve to clamp the conduit section against the insert even when the conduit section, the insert and the one-piece collar expand or contract with change in temperature. This is particularly true when the insert and the one-piece collar comprise the same material or have similar rates of thermal expansion. Consequently, the designer need not increase the wall thickness of the conduit section beyond the minimum thickness required to contain the anticipated fluid pressure, thereby increasing the cost, as a means of reducing the risk of leakage due to temperature changes.
Most preferably, a seal is positioned between the two axially-spaced, raised detents. A preferred arrangement includes a retainer substantially aligned between the two raised detents cinches the pipe against the seal to improve the tightness of the seal between the wall of the conduit section and the insert.
In accordance with another especially preferred embodiment, the preferred retainer is a rigid, one-piece collar having a first end, a second end and an opening extending from the first end to the second end large enough to receive the insert and the wall of the conduit section. A preferred method for connecting the coupler fittings and a section of resilient conduit comprises the steps of positioning the one-piece collar over the external surface of the conduit section; pressing the insert into a receiving end of the conduit section; and pushing the one-piece collar along the external surface of the conduit section toward the receiving end to substantially align the one-piece collar between the two axially-spaced, raised detents.
In an especially preferred one-piece collar, the opening is flared from a position intermediate the first and second ends. The first end of the one-piece collar faces the receiving end of the conduit section (and the fitting once the fitting is connected to the section). A preferred method for connecting the fitting and the conduit section comprises the steps of positioning the one-piece collar over the external surface of the section; pressing the insert into a receiving end of the section; and pushing the one-piece collar along the external surface of the conduit section toward the receiving end of the section to substantially align the one-piece collar between the two axially-spaced, raised detents. The flaring of the opening facilitates the steps of pressing the insert into the receiving end and of pushing the one-piece collar toward the receiving end.
In accordance with an embodiment especially preferred for use in connecting sections of flexible hose, the insert includes three or more axially-spaced, raised detents and the apparatus includes two or more retainers positioned between adjacent pairs of raised detents. Preferred retainers include rigid, one-piece collars and clamps. This configuration further increases the engagement between the insert and the conduit section (e.g., the section of flexible hose) so as to decrease the likelihood of slippage when the section is subjected to high thrusts. The insert optionally includes one or more smaller raised detents between the adjacent pairs of the three or more axially-spaced, raised detents to further increase the engagement between the insert and the conduit section to further decrease the likelihood of slippage.
The preferred insert includes a cylindrical body and the preferred raised detents are annular. The use of annular, raised detents improves the engagement between the insert and the conduit section so as to tighten the seal between the two. Nevertheless, the present invention is not limited to inserts having raised detents of any size or configuration. Likewise, the present invention is not limited to inserts or sections of pipe having cylindrical cross-sections.
In accordance with yet another preferred embodiment of the invention, the insert includes a staple mounted on the outer surface of the insert. A strap or fetter includes a strap middle section which passes through the staple and a pair of opposed strap end portions, one of which engages the retainer. An especially preferred method for connecting a coupler fitting to a conduit section includes the additional straps of threading the strap or fetter through the staple, bending the strap near the staple and pushing the one-piece collar over one of the strap end portions. So arranged, the engagement of the strap end portions with the retainer serves to bind the insert, retainer and conduit section together.
The preferred apparatus is relatively simple to manufacture and install. It also is relatively inexpensive to produce, requiring a minimum of machining.
Therefore, it is one object of the invention to provide an improved method and apparatus for connecting a fitting to a conduit section. Other objects and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The preferred clamping sleeve 14 includes a hollow member 50 terminating in a pair of opposed eyes 52 and 54; a lever 56 pivotally coupled to the eye 52; a hook 58 pivotally coupled to the lever 56 by means of an axle 60; and another hook 62 pivotally coupled to the eye 54 by means of an axle 64.
During construction, the male fitting 10 is positioned in the hemispherical socket 38 of the female fitting 12. The clamping sleeve 14 is slid against the exposed surface of the male fitting 10. The male fitting 10 and the clamping sleeve 14 are tilted slightly to permit the hook 62 to engage the lip 40 of the female fitting 12. The hook 58 is engaged with the lip 40 on the opposite side of the female fitting 12. The lever 56 then is pivoted toward the section of pipe 22 to tighten the hook 58 against the lip 40 to press the male fitting 10 against the annular resilient seal 44 and the female fitting 12 in fluid-tight relation. Optionally, a pin 66 (
As shown in
The preferred insert 70 additionally includes an annular channel 108 positioned between the axially-spaced, raised detents 102 and 104. The annular channel is designed to receive and seat an annular seal or gasket, such as an elastomeric O-ring seal, indicated in phantom at 110.
As shown in
The preferred insert 70 and the preferred retainer 74 most preferably are formed from a high-tensile steel or stainless steel. One technique for forming the barbs 84, 86, 88 and the annular groove 90 on the exterior of the insert 70 is by machining a cylindrical blank. Other techniques for manufacturing the preferred insert 70 and the preferred retainer 74 will be apparent to those of ordinary skill in the art without resort to undue experimentation.
Referring to
Then, as illustrated at reference numeral 156 in
Next, as illustrated at reference numeral 158 in
Most preferably, the preferred retainer 74 is pushed along the external surface 78 (
Without wishing to be bound by any theory of operation, it is believed that the retainer 74 cinches the wall of the section of pipe 20 against the insert 70 even when the section of pipe 20, the insert 70 and the retainer 74 expand or contract with change in temperature. This is particularly true when the insert 70 and the retainer 74 comprise the same material or have similar rates of thermal expansion. Consequently, the designer need not increase the wall thickness of the section of pipe 20 above the thickness required to contain the anticipated fluid pressure, thereby increasing the cost, as a means of reducing the risk of leakage due to temperature changes.
As shown in
Referring to
In addition, the preferred insert 270 includes a first set of smaller raised detents 312 between the first and second axially-spaced, raised detents 300, 302; and a second set of smaller raised detents 314 between the second and third axially-spaced, raised detents 302, 304. (In the particular embodiment shown in
One technique for forming the barbs 300, 302, 304 and the annular groove 308 on the exterior of the insert 270 is by machining a cylindrical blank. Other suitable techniques will be apparent to those of ordinary skill in the art without undue experimentation.
Referring once again to
Where the inserts 270, 272 include staples 296, 297, 298 and 299, the inserts 270, 272; the retainers 274, 275, 276, 277; and the sections of flexible hose 220, 222 preferably are bound together by means of straps or fetters 330, 332, 334 and 336. Strap 332, for example, includes strap end portions 338, 339. In the particular example illustrated in
Referring to
Then, as illustrated at reference numeral 358 in
Where the insert 270 includes staples 296, 298 mounted on its outer surface, the straps 330, 332 are threaded through the staples 296, 298 as illustrated at 360 and 362 in
Next, as illustrated at reference numeral 368 in
Most preferably, as discussed earlier, the preferred retainers 274, 275 are pushed along the external surface 278 (
Those skilled in the art will appreciate that the methods of the present invention provide relatively simple and inexpensive means for connecting the fittings 12 (
Nevertheless, it is within the contemplation of the invention to substitute known bands or mechanical clamps for the rigid, one-piece collars 74 (
Referring to
While the preferred method and apparatus have been described in terms of metal fittings; HDPE pipe or flexible hose; a metal insert; and a metal collar, the invention is not limited to any particular set of materials. Likewise, while the preferred inserts 70 (
While the method herein described, and the form of apparatus for carrying this method into effect, constitute preferred embodiments of this invention, it is to be understood that the invention is not limited to this precise method and form of apparatus, and that changes may be made in either without departing from the scope of the invention, which is defined in the appended claims.
Claims
1. A method for connecting a fitting to a conduit section using an insert affixed to the fitting, the insert defining a first raised detent and a second raised detent, said first and second raised detents being axially spaced from one another, the method comprising the steps of:
- positioning a one-piece collar over an external surface of the conduit section;
- pressing the insert into a receiving end of the conduit section; and
- pushing the one-piece collar along the external surface of the conduit section toward the receiving end of the conduit section to substantially align the one-piece collar between the first and second raised detents.
2. The method of claim 1, wherein the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar along the external surface until the one-piece collar straddles at least one of the first and second raised detents.
3. The method of claim 1, wherein the one-piece collar defines a first end, a second end and an opening extending from the first end to the second end, the opening flaring from a position intermediate the first and second ends toward the first end.
4. The method of claim 1, wherein the insert includes a generally cylindrical body; the first and second raised detents are annular, raised detents; and the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar along the external surface to substantially align the one-piece collar between the annular, raised detents.
5. The method of claim 1, wherein the insert includes a generally cylindrical body; the first and second raised detents are annular barbs; and the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar along the external surface to substantially align the one-piece collar between the annular barbs.
6. The method of claim 1, including the additional step of mounting a seal on the insert between the first and second raised detents prior to the step of pressing the insert into the receiving end of the conduit section.
7. The method of claim 1, wherein the insert includes a generally cylindrical body and an annular groove between the first and second raised detents; and the method includes the additional step of mounting an annular seal in the annular groove prior to the step of pressing the insert into the receiving end of the conduit section.
8. The method of claim 1, wherein the insert defines a third raised detent between the first and second raised detents, the third raised detent being smaller than the first and second raised detents; and the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar along the external surface to substantially align the one-piece collar over the third raised detent.
9. The method as recited in claim 1, wherein the insert includes a staple; the method includes the additional steps of threading a strap defining strap end portions through the staple and bending the strap near the staple; and the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar over one of the strap end portions.
10. A method for connecting a fitting to a conduit section using a rigid, one-piece collar, the one-piece collar defining a first end, a second end and an opening extending from the first end to the second end, the opening flaring from a position intermediate the first and second ends toward the first end, the method comprising the steps of:
- positioning the one-piece collar over an external surface of the conduit section such that the first end of the one-piece collar faces a receiving end of the conduit section;
- pressing an insert affixed to the fitting into the receiving end of the conduit section; and
- pushing the one-piece collar along the external surface of the conduit section toward the receiving end of the conduit section.
11. The method of claim 10, including the additional step of mounting a seal on the insert prior to the step of pressing the insert into the receiving end of the conduit section.
12. The method of claim 10, wherein the insert includes a generally cylindrical body and an annular groove; and the method includes the additional step of mounting an annular seal in the annular groove prior to the step of pressing the insert into the receiving end of the conduit section.
13. The method of claim 10, including the additional step of mounting a seal on the insert prior to the step of pressing the insert into the receiving end of the conduit section; and wherein the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar along the external surface to substantially align the one-piece collar over the seal.
14. The method as recited in claim 10, wherein the insert includes a staple; the method includes the additional steps of threading a strap defining strap end portions through the staple and bending the strap near the staple; and the step of pushing the one-piece collar along the external surface of the conduit section includes pushing the one-piece collar over one of the strap end portions.
15. A method for connecting a fitting to a conduit section using an insert affixed to the fitting, the insert defining a first raised detent, a second raised detent axially spaced from the first raised detent and a third raised detent axially spaced from the second raised detent, the method comprising the steps of:
- pressing the insert into a receiving end of the conduit section;
- placing a first retainer over an external surface of the conduit section in substantial alignment between the first and second raised detents; and
- placing a second retainer over the external surface of the conduit section in substantial alignment between the second and third raised detents.
16. The method of claim 15, wherein the step of placing the first retainer over the external surface of the conduit section includes placing the first retainer such that the first retainer straddles at least one of the first and second raised detents.
17. The method of claim 15, wherein the first retainer is a rigid, one-piece collar; and the step of placing the first retainer over the external surface of the conduit section includes:
- positioning the first retainer over the external surface; and
- pushing the first retainer along the external surface toward the receiving end of the conduit section.
18. The method of claim 15, wherein the first retainer is a rigid, one-piece collar, the one-piece collar defining a first end, a second end and an opening extending from the first end to the second end, the opening flaring from a position intermediate the first and second ends toward the first end; and the step of placing the first retainer over the external surface of the conduit section includes:
- positioning the first retainer over the external surface such that the first end of the first retainer faces the receiving end of the conduit section; and
- pushing the first retainer along the external surface toward the receiving end of the conduit section.
19. The method of claim 15, wherein the first retainer is a clamp; and the step of placing the first retainer over the external surface of the conduit section includes:
- positioning the first retainer over the external surface in substantial alignment between the first and second raised detents; and
- tightening the first retainer over the external surface.
20. The method of claim 15, wherein the insert includes a generally cylindrical body; the first and second raised detents are annular, raised detents; and the step of placing the first retainer over the external surface of the conduit section includes placing the first retainer in substantial alignment between the annular, raised detents.
21. The method of claim 15, wherein the insert includes a generally cylindrical body; the first and second raised detents are annular barbs; and the step of placing the first retainer over the external surface of the conduit section includes placing the first retainer in substantial alignment between the annular barbs.
22. The method of claim 15, including the additional step of mounting a seal on the insert between the first and second raised detents prior to the step of pressing the insert into the receiving end of the conduit section.
23. The method of claim 15, wherein the insert includes a generally cylindrical body and an annular groove between the first and second raised detents; and the method includes the additional step of mounting an annular seal in the annular groove prior to the step of pressing the insert into the receiving end of the conduit section.
24. The method of claim 15, including the additional step of mounting a seal on the insert between the first and second raised detents prior to the step of pressing the insert into the receiving end of the conduit section; and wherein the step of placing the first retainer over the external surface of the conduit section includes placing the first retainer over the seal.
25. The method of claim 15, wherein the insert defines a fourth raised detent between the first and second raised detents, the fourth raised detent being smaller than the first and second raised detents; and the step of placing the first retainer over the external surface of the conduit section includes placing the first retainer over the seal.
26. The method as recited in claim 15, wherein the insert includes a staple; the method includes the additional steps of threading a strap defining strap end portions through the staple and bending the strap near the staple; and the step of placing one of the first and second retainers over the external surface of the conduit section includes placing that one of the first and second retainers over one of the strap end portions.
27. A method for connecting a fitting to a conduit section using an insert affixed to the fitting, the insert defining two axially-spaced, raised detents and including a staple, the method comprising the steps of:
- pressing the insert into a receiving end of the conduit section;
- threading a strap defining strap end portions through the staple;
- bending the strap near the staple; and
- positioning a retainer over one of the strap end portions.
28. The method as recited in claim 27, including the additional step of positioning a one-piece collar over an external surface of the conduit section; and wherein the step of positioning the retainer over one of the strap end portions includes pushing the one-piece collar along the external surface of the conduit section toward the receiving end of the conduit section.
29. The method as recited in claim 27, wherein the retainer is a clamp and the method includes the additional step of tightening the retainer over the external surface.
Type: Application
Filed: Feb 7, 2006
Publication Date: Jun 22, 2006
Applicant: Wolf Creek Company, Inc. (Trotwood, OH)
Inventors: Charles Knowles (Clayton, OH), James Orban (Tipp City, OH), Sasenjko Radzepagic (Middletown, OH)
Application Number: 11/349,407
International Classification: F16L 33/00 (20060101); F16L 25/00 (20060101);