Assembly for Engaging the Interior of a Pipe
An assembly is provided that includes first and second end plates adapted to be coaxially aligned when in use. One or more members extend from the end plates or an annular ring, the annular ring provided between the end plates, the other of the end plates or annular ring comprising one or more first slots at one end thereof to be aligned with and for receiving the one or more members of the first end plate, and one or more second slots at the other end thereof to be aligned with and for receiving the one or more members. Resilient sealing members are provided around the one or more members between the end plates and annular ring, and an urging mechanism urges the first and second end plates towards the annular ring to deform the first and second resilient sealing members to engage the inner wall of the pipe.
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This application is a Continuation of U.S. patent application Ser. No. 15/733,251 filed on Oct. 3, 2018, which is a National Entry of PCT Application No. PCT/CA2018/051250, filed on Oct. 3, 2018, which claims the benefit of priority to U.S. Provisional Patent Application No. 62/608,152 entitled “Assembly for Engaging the Interior of a Pipe”. The contents of the aforementioned applications are incorporated herein by reference as if set forth in their entirety.
TECHNICAL FIELDThe following relates to an assembly for engaging the interior of a pipe, in particular a self-centering assembly used to secure testing or isolation tools within the pipe.
BACKGROUNDIt is common for testing tools to be utilized for testing the integrity of pipes or welds provided on pipes. In addition, various isolation tools are known, which are used to isolate a particular section of a pipe from another, e.g., to prevent fumes, combustible vapours, etc., contained or generated within the pipe from reaching a welding region wherein heat from the welding procedure may result in ignition of such fumes. An isolation tool may also be used to prevent heat generated by the welding process from being conducted over the length of the pipe, and can be provided with a cooling water flow to act as a thermal barrier. Examples of such tools are provided in, e.g., U.S. Pat. Nos. 5,844,127 and 6,131,441; and PCT Publication No. WO 2010/022502 (the entire contents of these references being incorporated herein by reference).
In testing or isolation tools such as those exemplified in WO 2010/022502, a front plate and a back plate are coupled to an annular ring positioned therebetween using a series of threaded rods. To seal against the inner wall of a pipe, resilient sealing members (e.g., O-rings) are coaxially provided between the front plate and the annular ring, and between the annular ring and the back plate respectively. Either or both the front plate and the annular ring can provide a beveled surface to direct deformation and extrusion of one of the sealing members radially outward when tightened. Similarly, either or both the back plate and the annular ring provide a beveled surface to direct deformation and extrusion of the other of the sealing members radially outward when tightened.
One issue that may be encountered with this arrangement is that when the plates and annular ring are loosely coupled or otherwise not engaged with the sealing members, the sealing members may shift or slide out of alignment with the beveled surfaces causing an inconsistent seal about the circumference of the tool, among other things. Another related issue is that any such misalignment can make it difficult to insert the tool into the pipe or cause undue stress on the sealing members when positioning and securing the tool therein.
Thus, there exists a need for an improved testing or isolation tool that addresses at least one of these issues.
SUMMARYA testing or isolation tool is provided in which a circumferential flange is provided between at least one of front and back plates and a centrally positioned annular ring to limit or inhibit radial movement of a sealing member interposed between the plate(s) and the annular ring.
In one aspect, there is provided an assembly for engaging an inner wall of a pipe, the assembly comprising: first and second end plates adapted to be coaxially aligned when in use, the first and second end plates each comprising one or more members extending from a first surface thereof; an annular ring provided between the end plates, the annular ring comprising one or more first slots at one end thereof to be aligned with and for receiving the one or more members of the first end plate, and one or more second slots at the other end thereof to be aligned with and for receiving the one or more members of the second end plate; a first resilient sealing member provided around the one or more members of the first end plate, between the first end plate and the annular ring; a second resilient sealing member provided around the one or more members of the second end plate, between the annular ring and the second end plate; and an urging mechanism adapted to urge the first and second end plates towards the annular ring to deform the first and second resilient sealing members to engage the inner wall of the pipe.
In another aspect, there is provided an isolation tool comprising the assembly.
In yet another aspect, there is provided a testing tool comprising the isolation tool.
In yet another aspect, there is provided a method of engaging an inner wall of a pipe using the assembly, comprising: placing the first and second resilient sealing members over the one or more members of the first and second end plates; coupling the first and second end plates to the annular ring in a loose manner using the urging mechanism to prepare the assembly; inserting the assembly into an interior of the pipe; and operating the urging mechanism to deform the first and second resilient sealing members outwardly into engagement with the inner wall.
Embodiments will now be described with reference to the appended drawings wherein:
Turning now to the figures,
First and second resilient sealing members 22 and 24 are coaxially provided, wherein the first sealing member 22 is provided between the front plate 12 and the annular ring 16, while the second sealing member 24 is provided between the annular ring 16 and the back plate 14. In the embodiment shown in
The front plate 12 is provided with the series of threaded tie rods 18 that are generally circumferentially- and equidistantly-spaced. The rods 18 are sized and positioned to extend through the inner diameter of the sealing members 22, 24, and the annular ring 16. The back plate 14 is provided with a series of corresponding blind holes 20 that are reamed, drilled or milled thereinto for threadingly receiving the tie rods 18. The rods 18 allow circumferential tightening to urge together the plates 12, 14 and annular ring 16 using, for example, a series of corresponding nuts (not shown) threaded on the distal ends of the rods 18. It can be appreciated that the tie rods 18 and blind holes 20 are one example of an urging mechanism that, in general, urges the plates 12, 14 towards the annular ring 20 to deform the sealing members 22, 24 as described below.
In operation, the assembly 10 is preferably pre-assembled in a loose manner and inserted into a pipe 52 as shown in
To address this problem, and referring again to
It can be appreciated that the flanges 30, 40 could instead extend from the annular ring 16, with the slots 32, 42 extending from the plates 12, 14. Similarly, while the flanges 30, 40 and slots 32, 42 in this example are shown as continuous circumferential members, multiple discontinuous flanges, posts or other members having various shapes or contours (with corresponding slots to receive same) could also be used without departing from the principles discussed herein. That is, various one or more members extending from the plates 12, 14 or annular ring 16 could be incorporated in order to provide a barrier to limit shifting of the sealing members 22, 24 as herein described.
Also shown in
Turning now to
The front plate 12 is shown in isolation in
Moreover, it can be appreciated that the diameter of the sealing members 22, 24 can be varied to accommodate different schedules of pipe 52. For example, a single 8″ tool could be used to isolate or test an 8″ sched 80, sched 60, sched 40 or sched 20 pipe, by increasing the diameter of the O-ring being used as the resilient sealing member 22, 24, from ½″ to ⅝″ to ¾″ to ⅞″ respectively. In this way, multiple schedules of pipe 52 can be accommodated with only requiring one assembly 10. This can reduce or minimize the need to manufacture additional schedules of the assembly 10. Similarly, additional training would not be required to choose the size of the O-ring in this example, since this would already be predetermined as being dependent on the schedule of pipe 52.
The annular ring 16 is shown in isolation in
The back plate 14 is shown in isolation in
The second sealing member 24 can therefore be placed over the second flange 40, and the tie rods 18 threaded into the blind holes 20 as shown in
For simplicity and clarity of illustration, where considered appropriate, reference numerals may be repeated among the figures to indicate corresponding or analogous elements. In addition, numerous specific details are set forth in order to provide a thorough understanding of the examples described herein. However, it will be understood by those of ordinary skill in the art that the examples described herein may be practiced without these specific details. In other instances, well-known methods, procedures and components have not been described in detail so as not to obscure the examples described herein. Also, the description is not to be considered as limiting the scope of the examples described herein.
It will be appreciated that the examples and corresponding diagrams used herein are for illustrative purposes only. Different configurations and terminology can be used without departing from the principles expressed herein. For instance, components and modules can be added, deleted, modified, or arranged with differing connections without departing from these principles.
Although the above principles have been described with reference to certain specific examples, various modifications thereof will be apparent to those skilled in the art as outlined in the appended claims.
Claims
1. An assembly for engaging an inner wall of a pipe, the assembly comprising:
- first and second end plates adapted to be coaxially aligned when in use, the first and second end plates each comprising one or more members extending from a first surface thereof;
- an annular ring provided between the end plates, the annular ring comprising one or more first slots at one end thereof to be aligned with and for receiving the one or more members of the first end plate, and one or more second slots at the other end thereof to be aligned with and for receiving the one or more members of the second end plate;
- a first resilient sealing member provided around the one or more members of the first end plate, between the first end plate and the annular ring;
- a second resilient sealing member provided around the one or more members of the second end plate, between the annular ring and the second end plate; and
- an urging mechanism adapted to urge the first and second end plates towards the annular ring to deform the first and second resilient sealing members to engage the inner wall of the pipe.
2. The assembly of claim 1, wherein the annular ring comprises a beveled edge on at least one of the ends thereof for directing the deformation of a corresponding one of the first and second resilient sealing members.
3. The assembly of claim 2, wherein the annular ring comprises a first beveled edge on the one end for directing the deformation of the first resilient sealing member, and a second beveled edge on the other end for directing the deformation of the second resilient sealing member.
4. The assembly of claim 1, wherein at least one of the end plates comprises a beveled edge for directing the deformation of a corresponding one of the first and second resilient sealing members.
5. The assembly of claim 1, wherein the urging mechanism comprises a series of circumferentially and equidistantly spaced tie rods engaged with a series of corresponding circumferentially and equidistantly spaced holes in one of the end plates, the tie rods extending through the annular ring and the other of the end plates for tightening the end plates to the annular ring using a series of nuts.
6. The assembly of claim 5, wherein the holes in one of the end plates are blind holes.
7. The assembly of claim 1, wherein the annular ring comprises at least one coupler for directing a fluid to a port extending to a surface thereof.
8. The assembly of claim 1, wherein the first and second resilient sealing members are O-rings.
9. The assembly of claim 1, wherein the one or more members of the first and second end plates are provided as a circumferential flange extending from each of the first and second end plates.
10. An isolation or testing tool comprising the assembly of claim 1.
11. An assembly for engaging an inner wall of a pipe, the assembly comprising:
- first and second end plates adapted to be coaxially aligned when in use;
- an annular ring provided between the end plates; each end of the annular ring comprising one or more members extending from a surface thereof; each of the first and second end plates comprising one or more slots at one end thereof to be aligned with and for receiving the one or more members of the corresponding end of the annular ring;
- a first resilient sealing member provided around the one or more members of the first end of the annular ring, between the first end plate and the annular ring;
- a second resilient sealing member provided around the one or more members of the second end of the annular ring, between the annular ring and the second end plate; and
- an urging mechanism adapted to urge the first and second end plates towards the annular ring to deform the first and second resilient sealing members to engage the inner wall of the pipe.
12. The assembly of claim 11, wherein the annular ring comprises a beveled edge on at least one of the ends thereof for directing the deformation of a corresponding one of the first and second resilient sealing members.
13. The assembly of claim 12, wherein the annular ring comprises a first beveled edge on the one end for directing the deformation of the first resilient sealing member, and a second beveled edge on the other end for directing the deformation of the second resilient sealing member.
14. The assembly of claim 11, wherein at least one of the end plates comprises a beveled edge for directing the deformation of a corresponding one of the first and second resilient sealing members.
15. The assembly of claim 11, wherein the urging mechanism comprises a series of circumferentially and equidistantly spaced tie rods engaged with a series of corresponding circumferentially and equidistantly spaced holes in one of the end plates, the tie rods extending through the annular ring and the other of the end plates for tightening the end plates to the annular ring using a series of nuts.
16. The assembly of claim 15, wherein the holes in one of the end plates are blind holes.
17. The assembly of claim 11, wherein the annular ring comprises at least one coupler for directing a fluid to a port extending to a surface thereof.
18. The assembly of claim 11, wherein the first and second resilient sealing members are O-rings.
19. The assembly of claim 11, wherein the one or more members of the ends of the annular ring are provided as a circumferential flange extending from each end of the annular ring.
20. An isolation or testing tool comprising the assembly of claim 11.
Type: Application
Filed: Sep 8, 2022
Publication Date: Jan 5, 2023
Applicant: Vital Industrial Solutions Inc. (Sarnia)
Inventor: Thomas John LANNAN (Sarnia)
Application Number: 17/930,486