Pinch Valve Assembly and Method for Using Same

Abstract

A pinch valve configured to be combined with an inversion apparatus. An elongated component, such as a rope, cable, or light train, is able to pass through the lumen of the pinch valve during the positioning and curing of a repair assembly into an underground pipe system. A deformable member positioned within the housing is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter. In the second position the deformable member is moved to constrict around the elongated component as the component passes through the valve. This helps prevent pressure from escaping through the pinch valve by decreasing the space between the deformable member and the elongated component. In this manner, the internal diameter of the pinch valve is able to conform to various diameters of elongated components passing through the valve in real time by moving the deformable member to create the desired internal diameter.

Claims

1. A pinch valve comprising: a housing having a lumen therein between a first opening and a second opening, the lumen configured to receive an elongated component; a deformable member positioned within the housing along the lumen, wherein the deformable member is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter; and an assembly configured to selectively move the deformable member from the first position to the second position; wherein the assembly is an electromechanical assembly comprising a plunger movable between a retracted position and an engaged position by a motor.

2. The pinch valve of claim 1 wherein the assembly is one of a pressure assembly, a vacuum assembly, a mechanical assembly, and an electromechanically assembly.

3. The pinch valve of claim 1 wherein the assembly is a pressure assembly comprising a fluid channel configured to selectively introduce fluid pressure from a fluid pressure source into a cavity formed between the housing and the deformable member.

4. The pinch valve of claim 1 where a first portion of the deformable member is sealed with the housing at a first point and a second portion of the deformable member is sealed with the housing at a second point creating a sealed volume between an outer diameter of the deformable member and an inner diameter of the housing, wherein a fluid channel is in fluid communication with the sealed volume to selectively introduce fluid pressure from a fluid pressure source into the sealed volume.

5. (canceled)

6. A pinch valve comprising: a housing having a lumen therein between a first opening and a second opening, the lumen configured to receive an elongated component; a deformable member positioned within the housing along the lumen, wherein the deformable member is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter; an assembly configured to selectively move the deformable member from the first position to the second position; and a containment sleeve positioned radially outward from the deformable member, the containment sleeve movable between a first containment sleeve position having a first containment sleeve internal diameter and a second containment sleeve position having a second containment sleeve internal diameter that is smaller than the first containment sleeve internal diameter.

7. The pinch valve of claim 6 wherein the containment sleeve is biased in its first containment sleeve position.

8. The pinch valve of claim 6 where a first portion of the containment sleeve is sealed with the housing at a first attachment point and a second portion of the containment sleeve is sealed with the housing at a second attachment point creating a sealed volume between an outer diameter of the containment sleeve and an inner diameter of the housing.

9. The pinch valve of claim 6 where the deformable member is made from a first material having a first elastic modulus and the containment sleeve is made from a second material having second elastic modulus that is higher than the first elastic modulus.

10. The pinch valve of claim 6 wherein the deformable member is made from a compressible material configured to engaged the elongated member and create a seal between the deformable member and the elongated member.

11. The pinch valve of claim 6 wherein the containment sleeve is made from a material that is less compressible than the deformable member.

12. The pinch valve of claim 6 further comprising an opening in the deformable member to allow fluid to pass through the deformable member.

13. The pinch valve of claim 1 wherein the deformable member is further movable to a third position having a third internal diameter.

14. The pinch valve of claim 1 wherein the deformable member is a sleeve.

15. The pinch valve of claim 1 wherein the pinch valve is combined with a primary fitting configured to receive an inverting repair assembly.

16. A pinch valve comprising: a housing having a lumen therein between a first opening and a second opening, the lumen configured to receive an elongated component; a deformable member positioned within the housing along the lumen, wherein the deformable member is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter; an assembly configured to selectively move the deformable member from the first position to the second position; a lubricator having a lumen between an entrance opening and an exit opening, the lumen configured to receive the elongated component; a fluid reservoir configured to receive a liquid lubricant; and a nozzle configured to be attached to a pressurized source of a gas; wherein the nozzle is configured to expel the gas into the fluid reservoir to splatter the liquid lubricant onto the elongated component.

17. The pinch valve of claim 16 wherein the lubricator further comprises a seal near the entrance opening.

18. A pinch valve comprising: a housing having a lumen therein between a first opening and a second opening, the lumen configured to receive an elongated component; a deformable member positioned within the housing along the lumen, wherein the deformable member is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter; an assembly configured to selectively move the deformable member from the first position to the second position; and a distance counter having a tensioner roller and a counter roller, the tensioner roller and the counter roller configured to engage opposite sides of the elongated component as the elongated component moves causing the counter roller to rotate, wherein the counter roller is attached to a counting mechanism configured to measure the length of elongated member passing over the counter roller.

19. The pinch valve of claim 1 wherein the elongated component is one of a rope, a cable, or a light train.

20. The pinch valve of claim 1 wherein deformable member is biased in the first position.

21. A pinch valve comprising: a housing having a lumen therein between a first opening and a second opening; a deformable member positioned within the housing along the lumen, wherein the deformable member is movable between a first position having a first internal diameter and a second position having a second internal diameter that is smaller than the first internal diameter; a containment sleeve positioned radially outward from the deformable member, wherein the containment sleeve is movable between a first containment sleeve position having a first containment sleeve internal diameter and a second containment sleeve position having a second containment sleeve internal diameter that is smaller than the first containment sleeve internal diameter; and a fluid channel configured to selectively introduce fluid pressure from a fluid pressure source into a cavity formed between the housing and the containment sleeve to cause the containment sleeve to move from the first containment sleeve position to the second containment sleeve position which causes the deformable member to move from the first position to the second position.

22. The pinch valve of claim 21 where the deformable member is made from a first material having a first elastic modulus and the containment sleeve is made from a second material having second elastic modulus that is higher than the first elastic modulus.

23. The pinch valve of claim 21 wherein the deformable member is made from a compressible material configured to engaged the elongated member and create a seal between the deformable member and the elongated member.

24. The pinch valve of claim 21 wherein the containment sleeve is made from a material that is less compressible than the deformable member.

25. The pinch valve of claim 21 further comprising an opening in the deformable member to allow fluid to pass through the deformable member.

26. The pinch valve of claim 21 wherein the deformable member is a sleeve.

27. The pinch valve of claim 21 wherein the pinch valve is combined with a primary fitting configured to receive an inverting repair assembly.

28. A method of repairing a pipeline having interior walls, said method comprising: operatively connecting a pinch valve to an inversion apparatus; taking a repair assembly and an elongated component, passing the elongated component through the pinch valve, wherein the elongated component has a diameter; moving the deformable member from a first position having a first internal diameter to a second position having a second internal diameter that is smaller than the first internal diameter; using fluid pressure to invert the repair assembly into the pipeline and urge the repair assembly into contact with the interior walls of the pipeline as the elongated component moves through the pinch valve; wherein the pinch valve further comprises a containment sleeve positioned radially outward from the deformable member and the method further comprising introducing fluid pressure from a fluid pressure source into a cavity formed between the housing and the containment sleeve to cause the containment sleeve to move from a first containment sleeve position to a second containment sleeve position.

29. The method of claim 28 further comprising attaching the elongated component to a trailing portion of the repair assembly so the inverting repair assembly pulls the elongated component through the pinch valve.

30. The method of claim 28 wherein the internal diameter of the deformable member approximates the diameter of the elongated component.

31. The method of claim 28 further comprising moving the deformable member to a third position having a third internal diameter while the elongated component is moving through the pinch valve.

32. The method of claim 28 wherein the method further comprises reducing the diameter of the deformable member from the first diameter to the second diameter while the elongated member is moving through the pinch valve.

33. (canceled)

34. The method of claim 28 further comprising taking a lubricator having a fluid reservoir and a nozzle, wherein the fluid reservoir is configured to receive a liquid lubricant, the method further comprising introducing a gas through the nozzle to expel the gas into the fluid reservoir and splatter the liquid lubricant onto the elongated component.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a perspective view showing a pinch valve combined with an inversion machine.

[0014] FIG. 2 is a perspective view of a pinch valve combined with a lubricator and a distance counter.

[0015] FIG. 3 is a section view of the pinch valve with the deformable member in the first position having an elongated component passing through the lumen.

[0016] FIG. 4 is a section view of the pinch valve with the deformable member in the second position having an elongated component passing through the lumen.

[0017] FIG. 5 is a section view similar to FIG. 3 but showing an embodiment further comprising a containment sleeve.

[0018] FIG. 6 is a section view similar to FIG. 4 but showing the embodiment further comprising a containment sleeve.

[0019] FIG. 7 is a section view similar to FIG. 3 but showing an embodiment wherein the sleeve is moved to the second position by a plunger.

[0020] FIG. 8 is a section view similar to FIG. 4 but showing the embodiment wherein the sleeve is moved to the second position by a plunger.

[0021] FIG. 9 is a section view of a lubricator.

[0022] FIG. 10 is a perspective view of an embodiment wherein the pinch valve is used with an assembly to invert a repair assembly into a length of pipe.

[0023] FIG. 11 is a perspective view of an embodiment wherein the pinch valve is used with an assembly to invert a repair assembly into a pipe from manhole to manhole.

[0024] FIG. 12 is a section view of an embodiment wherein the pinch valve is used with an assembly to invert a repair assembly through a launcher into a lateral pipe.

[0025] FIG. 13 is a section view similar to FIG. 12 showing the deformable member in the second position.

DETAILED DESCRIPTION

[0026] The invention generally relates to a pinch valve 10 which may be combined with a lubricator 30 and a counter 24 in some embodiments. As shown in FIG. 1, the pinch valve 10 is configured to be combined with an inversion apparatus 12 such as an inversion drum or curing cap. The inversion apparatus 12 typically includes a system configured to provide positive pressure to inflate and/or invert a repair apparatus 15, which may include a liner assembly 15A and/or a bladder assembly 15B, inside a pipe 42. As shown in FIG. 1, the inversion apparatus 12 includes a pressure fitting 46 configured to introduce pressure into the apparatus 12 from an outside source and a primary fitting 11 through which the repair assembly 15 is inverted. In some embodiments the repair assembly 15 is wound on a reel inside the inversion apparatus 12. The repair assembly 15 has a first end combined with the primary fitting 11 (or a component extending from the inversion apparatus 12) and a trailing portion which is the last portion of the repair assembly 15 to leave the inversion apparatus 12 and the portion of the repair assembly 15 which travels farthest through the pipe 42. FIG. 1 shows the pinch valve 10 combined with the primary inversion fitting 11 in a Y-configuration such that the pinch valve feeds into the primary fitting 11.

[0027] One embodiment of the pinch valve 10 is shown in more detail in FIGS. 2-4. The pinch valve 10 generally includes a housing 22 having a lumen therein between a first opening and a second opening. A deformable member 16, which may be a sleeve, is positioned within the housing 22 along the lumen between the first opening and the second opening. The deformable member 16 may be made of a rubber or other compressible material to help create a seal between the deformable member and the elongated member 14. A first portion of the deformable member 16 is combined with the housing 22 at a first point and a second portion of the deformable member 16 is combined with the housing 22 at a second point. The two portions of the deformable member 16 may be combined with the housing by a hose clamp, glue, or other suitable means. The deformable member 16 is fluidly sealed at each point such that a sealed volume is created between the outer diameter of the deformable member 16 and the inner diameter of the housing 22 wall.

[0028] The deformable member 16 is movable between a first position having a first internal opening (e.g. internal diameter when the cavity is circular) and a second position having a second internal opening that is smaller than the first internal opening. The deformable member 16 has elastic properties and is biased in the first position. In the second position the deformable member 16 is moved to close or narrow around the elongated component 14 as the component 14 passes through the valve 10 to help prevent pressure from escaping through the first opening of the pinch valve 10. The first position is shown in FIGS. 3, 5, 7, and 12 and the second position is shown in FIGS. 4, 6, 8, and 13. In some embodiments fluid pressure is used to inflate the deformable member 16 causing it to move to the second position. One or more fluid channels 26 are combined with the housing 22 to selectively provide fluid pressure from a pressure source into (or remove pressure from) the sealed volume between the housing 22 and the deformable member 16 to cause the deformable member 16 to move between the first and the second position. A pressure relief valve 27 may be in fluid communication with the sealed volume and set to open and release pressure into the atmosphere if the pressure within the sealed volume reaches a predetermined pressure.

[0029] The pinch valve 10 is able to conform to various diameters of elongated components 16 passing through the valve 10 in real time by inflating and deflating the member 16 to create the desired internal diameter within the lumen of the valve 10. For example, some types of elongated components 14, such as a light train, may have a first diameter D1 along a first portion, such as the portion having the lights, and a second diameter D2 along a second portion, such as the portion having a power cord but no lights. The member 16 may be inflated such that the diameter of the lumen inside the valve 10 approximates (or slightly larger than) the first diameter D1 when the larger diameter portion of the light train is passing through. Then, the deformable member 16 may be further inflated such that the diameter of the lumen inside the valve 10 approximates (or is slightly larger than) the second diameter D2 when the smaller diameter portion of the light train passes through.

[0030] Another embodiment of the pinch valve 10 is shown in more detail in FIGS. 5-6. This embodiment is similar to the embodiment described above, except a second layer referred to herein as a containment sleeve 17 is used in addition to the deformable member 16. The containment sleeve 17 is movable between a first position having a first internal opening (e.g. internal diameter when the cavity is circular) and a second position having a second internal opening that is smaller than the first internal opening and is biased in the first position. A first portion of the containment sleeve 17 is combined with the housing 22 at a first point and a second portion of the containment sleeve 17 is combined with the housing 22 at a second point to create a sealed volume between the outer diameter of the containment sleeve 17 and the inner diameter of the housing 22 wall. In this embodiment the deformable member 16 need not be fluidly sealed to the housing since the containment sleeve 17 serves that function. In some embodiments the containment sleeve 17 is made from a different material than the deformable member 16 and is positioned radially outward from the deformable member 16 so that the lower durometer (more compressible) deformable member 16 engages and creates a seal with the elongated component 14 as it passes through the pinch valve 10. The containment sleeve 17 may be combined with the deformable member 16 by gluing, stitching, or other suitable means. In other embodiments the containment sleeve 17 is adjacent to the deformable member 16 but is a separate component (not attached to the deformable member 16). The containment sleeve 17 is made from a material having a higher elastic modulus (i.e., less flexible/stretchable) and is more robust than the deformable member 16, however, the containment sleeve 17 has some elasticity and is configured to be urged toward the center of the lumen upon the application of pressure. For example, the containment sleeve 17 may be made from a calibration tube/bladder material or a PVC, TPU, PVC, NYLON, Tygon, or Teflon, material. The deformable member 16 is typically a low durometer low flexural strength elastomer/plastic while the containment sleeve 17 is specifically designed with higher flex strength and durometer than the deformable member 16 for mechanical reinforcement. The containment sleeve 17 receives and transfers the pressure to constrict the deformable member 16 to the second position so that the deformable member 16 is protected and not overinflated. The containment sleeve 17 distributes the pressure along the deformable member 16. This is beneficial since applying pressure directly to some types of deformable members 16 may cause weak spots which could overstretch or tear with the continued application of pressure. Further, even if the deformable member 16 gets a hole in it, the more robust containment sleeve 17 is maintained and there is no pressure leak. As shown in FIGS. 5 and 6, in some embodiments holes or openings 19 are made in the deformable member 16 to help prevent air/fluid from getting trapped between the deformable member 16 and the containment sleeve 17.

[0031] FIGS. 7 and 8 show an alternate embodiment similar to the embodiments described above but having a mechanical plunger 21 apply pressure to the deformable member 16 and/or containment sleeve 17 instead of using fluid pressure. Two or more plungers 21 may be positioned around the circumference of the deformable member 16 and/or containment sleeve 17 to move the deformable member 16 from the first position to the second position. The plungers 21 may be actuated by electric motors or any other suitable means.

[0032] In some embodiments the apparatus further includes a lubricator 30 for dispensing lubricant onto the elongated component 14 before it passes through the pinch valve 10. FIG. 2 shows the lubricator 30 combined with the pinch valve 10 and FIG. 5 shows the lubricator 30 separated from the pinch valve 10 and having an elongated component passing therethrough. The lubricator 30 generally includes a housing having a cavity therein with a first opening and a second opening. A reservoir 38 is positioned within the cavity, the reservoir 38 is configured to receive a lubricating solution. A fluid coupling 40 is configured to receive a flow of air which is expelled through one or more nozzles 36 in the lower portion of the reservoir 38 such that the nozzles 36 are beneath the lubricating solution when the reservoir contains solution. The air flowing out of the nozzles 36 causes the lubricating solution to spray or splatter toward and onto the elongated component 14 moving through the lubricator 30 to help lubricate the exterior surface of the elongated component 14. A seal 28 may be positioned between the reservoir 38 and the first opening to help prevent lubricating solution from splattering out of the cavity. As shown in FIG. 5, the seal 28 is an annular brush having a central opening configured to receive the elongated component 14.

[0033] In some embodiments the apparatus further includes a distance counter 24 for determining and displaying the length of liner and/or bladder that has passed through the apparatus. FIG. 2 shows the counter 24 combined with the other components and FIG. 9 shows portions of the counter 24 inside the lubricator 30. The counter 24 may include one or more rollers 32, 34 which engage the elongated component 14 as it moves through the apparatus causing the rollers 32, 34 to rotate. The rollers 32, 34 are attached to a counting mechanism that tracks and displays the length of elongated member which passes over the rollers 32, 34. The rollers 32, 34 may include a tensioner 32 and a counter 34. The position of the tensioner 32 is adjustable relative to the counter 34. The adjustability allows the distance between the rollers 32, 24 to change to accommodate different widths of elongated members 14 while also ensuring the elongated member 14 engages the counter 34 with enough force to cause the counter 34 to rotate.

[0034] In use, one or more embodiments of the pinch valve 10 apparatus described above are used to repair a section of an underground pipe 42. FIG. 11 shows the pinch valve 10 apparatus used to help repair a straight length of underground pipe 42 from manhole to manhole. Generally, the apparatus described above with respect to FIG. 1 is used in these types of repairs. FIGS. 12 and 13 show the pinch valve 10 apparatus used in combination with other components to help repair an underground pipe 42 at the juncture between a main pipeline and a second or lateral pipeline. The method includes preparing a repair assembly 15, which may include a liner assembly 15A and/or a bladder assembly 15B, and attaching the repair assembly 15 to a launcher device 48 or a lay flat hose extension 50 extending from an end of a launcher device 48. Pressure is introduced into a coupling 46 in the inversion apparatus 12 or lay flat hose extension 50 to begin inverting the repair assembly into the pipe 42. An elongated component 14, such as a rope, cable, or light train is fed through the pinch valve and attached to the trailing portion of the repair assembly 15 so the trailing portion pulls the elongated component 14 through the pipe. In some embodiments, like the one shown in FIG. 1, the repair assembly 15 is on a reel which unwinds as the repair assembly 15 is inverted, pulled, or pushed into the pipe 24. In the inversion embodiments, the inversion is temporarily stopped about halfway to allows the elongated component 14 to be attached to the trailing portion before the trailing portion enters the pipe 42. A door or hatch 44 may be opened to allow a user to attach the elongated component 14 to the trailing end of the repair assembly 15 after the elongated component 14 has been fed through the pinch valve 10 and before the trailing end enters the pipe 42. The elongated component 14 is able to pass through the lumen of the pinch valve 10 during the inversion of repair assembly 15 into an underground pipe system 42. The deformable member 16 is inflated from a first position to a second position so that the internal diameter of the lumen approximates the diameter of the elongated component 14 to help minimize pressure loss during inversion. If the diameter of the elongated component 14 changes during inversion, then the diameter of the pinch valve 10 is similarly adjusted by inflating or deflating the deformable member 16 to approximate the changed diameter of the elongated component 14.

[0035] After the repair assembly 15 is inverted within the pipe 42, a fluid such as air is used to inflate the repair assembly 15 to urge the liner assembly 15A against the interior wall of the pipe 42. After the liner assembly 15A has cured and hardened, the launcher device (if any), bladder assembly 15B (if any), and elongated component 14 are removed from the pipe 42. In some embodiments the elongated component 14 is used to retrieve or pull portions of the repair assembly 15, such as an extension tube or lateral bladder 15B, out of the lateral pipe.

[0036] Having thus described the invention in connection with the preferred embodiments thereof, it will be evident to those skilled in the art that various revisions can be made to the preferred embodiments described herein without departing from the spirit and scope of the invention. It is my intention, however, that all such revisions and modifications that are evident to those skilled in the art will be included with in the scope of the following claims.