Flexible pipe is useful in a myriad of environments, including in the oil and gas industry. Flexible pipe may be durable and operational in harsh operating conditions and can accommodate high pressures and temperatures. Flexible pipe may be bundled and arranged into one or more coils to facilitate transporting and using the pipe.
Coils of pipe may be positioned in an “eye to the side” or “eye to the sky” orientation. When the flexible pipe is coiled and is disposed with its interior channel facing upwards, such that the coil is in a horizontal orientation, then the coils of pipe are referred to as being in an “eye to the sky” orientation. If, instead, the flexible pipe is coiled and disposed such that the interior channel is not facing upwards, such that the coil is in an upright or vertical orientation, then the coils of pipe are referred to as being in an “eye to the side” orientation.
The flexible pipe may be transported as coils to various sites for deployment (also referred to as uncoiling or unspooling). Different types of devices and vehicles are currently used for loading and transporting coils of pipe, but usually extra equipment and human manual labor is also involved in the process of loading or unloading such coils for transportation and/or deployment. Such coils of pipe are often quite large and heavy. Accordingly, there exists a need for an improved method and apparatus for loading and unloading coils of pipe.
This summary is provided to introduce a selection of concepts that are further described below in the detailed description. This summary is not intended to identify key or essential features of the claimed subject matter, nor is it intended to be used as an aid in limiting the scope of the claimed subject matter.
In one aspect, embodiments of the present disclosure relate to a system that includes a frame and a first pair of rollers coupled to a first side of the frame. The first pair of rollers is configured to support a first end of a pipe reel. The system also includes a first cradle disposed longitudinally between the first pair of rollers and a second pair of rollers coupled to a second side of the frame. The second pair of rollers is configured to support a second end of a pipe reel. The system also includes a second cradle disposed longitudinally between the second pair of rollers, a pipe guide coupled to a third side of the frame between the first and second sides, a pipe brake coupled to the frame, and a pipe re-spooler coupled to the frame.
In another aspect, embodiments of the present disclosure relate to a method that includes providing a pipe reel cradle. The pipe reel cradle includes a frame and a first pair of rollers coupled to a first side of the frame. The first pair of rollers is configured to support a first end of a pipe reel. The pipe reel cradle also includes a first cradle disposed longitudinally between the first pair of rollers and a second pair of rollers coupled to a second side of the frame. The second pair of rollers is configured to support a second end of a pipe reel. The pipe reel cradle also includes a second cradle disposed longitudinally between the second pair of rollers, a pipe guide coupled to a third side of the frame between the first and second sides, and a pipe brake coupled to the frame. The method also includes setting the pipe reel in the pipe reel cradle. A spoolable pipe is disposed about the pipe reel. The method also includes guiding the spoolable pipe through the pipe guide as spoolable pipe is removed from the pipe reel, rotating the pipe reel against the first and second pairs of rollers as spoolable pipe is removed from the pipe reel, and at least one of slowing or stopping rotation of the pipe reel by engaging the pipe brake against the pipe reel.
In another aspect, embodiments of the present disclosure relate to a method that includes providing a pipe reel cradle. The pipe reel cradle includes a frame and a first pair of rollers coupled to a first side of the frame. The first pair of rollers is configured to support a first end of a pipe reel. The pipe reel cradle also includes a first cradle disposed longitudinally between the first pair of rollers and a second pair of rollers coupled to a second side of the frame. The second pair of rollers is configured to support a second end of a pipe reel. The pipe reel cradle also includes a second cradle disposed longitudinally between the second pair of rollers, a pipe guide coupled to a third side of the frame between the first and second sides, and a pipe re-spooler coupled to the frame. The method also includes setting the pipe reel in the pipe reel cradle. A first portion of spoolable pipe is disposed about the pipe reel and a second portion of spoolable pipe extends away from the pipe reel. The method also includes engaging the pipe re-spooler against the pipe reel, rotating the pipe re-spooler to cause rotation of the pipe reel against the first and second pairs of rollers to re-spool the second portion onto the pipe reel, and guiding the second portion through the pipe guide as the section portion is re-spooled.
Other aspects and advantages of the claimed subject matter will be apparent from the following description and the appended claims.
Embodiments of the present disclosure relate generally to systems used for deploying reels of flexible pipe. Pipe reel cradles according to embodiments of the present disclosure may include a frame, rollers, cradles, a pipe guide, a pipe brake, and a pipe re-spooler.
Embodiments of the present disclosure will be described below with reference to the figures. In one aspect, embodiments disclosed herein relate to embodiments for deploying spoolable pipe using the pipe reel cradle.
As used herein, the term “coupled” or “coupled to” may indicate establishing either a direct or indirect connection, and is not limited to either unless expressly referenced as such. The term “set” may refer to one or more items. Wherever possible, like or identical reference numerals are used in the figures to identify common or the same elements. The figures are not necessarily to scale and certain features and certain views of the figures may be shown exaggerated in scale for purposes of clarification.
Pipe, as understood by those of ordinary skill, may be a tube to convey or transfer any water, gas, oil, or any type of fluid known to those skilled in the art. The spoolable pipe 12 may be made of any type of materials including without limitation plastics, metals, a combination thereof, composites (e.g., fiber reinforced composites), or other materials known in the art. One type of spoolable pipe 12 is flexible pipe, which is used frequently in many applications, including without limitation, both onshore and offshore oil and gas applications. Flexible pipe may include Bonded or Unbonded Flexible Pipe, Flexible Composite Pipe (FCP), Thermoplastic Composite Pipe (TCP), or Reinforced Thermoplastic Pipe (RTP). A FCP/RTP pipe may itself be generally composed of several layers. In one or more embodiments, a flexible pipe may include a high-density polyethylene (“HDPE”) liner having a reinforcement layer and an HDPE outer cover layer. Thus, flexible pipe may include different layers that may be made of a variety of materials and also may be treated for corrosion resistance. For example, in one or more embodiments, pipe used to make up a coil of pipe may have a corrosion protection shield layer that is disposed over another layer of steel reinforcement. In this steel-reinforced layer, helically wound steel strips may be placed over a liner made of thermoplastic pipe. Flexible pipe may be designed to handle a variety of pressures, temperatures, and conveyed fluids. Further, flexible pipe may offer unique features and benefits versus steel/carbon steel pipe lines in the area of corrosion resistance, flexibility, installation speed and re-usability. Another type of spoolable pipe is coiled tubing, which may be made of steel. Coiled tubing may also have a corrosion protection shield layer.
The pipe reel cradle 10 of
As shown in
The illustrated embodiment of the pipe reel cradle 10 includes a first pair of rollers 76 coupled to a first side 78 of the frame 16 and a second pair of rollers 80 coupled to a second side 82 of the frame 16. The first pair of rollers 76 may support the first reel end 50 and the second pair of rollers 80 may support the second reel end 52. Thus, widths 83 of the rollers 76 and 80 may be approximately equal to or greater than the widths of the first and second reel ends 50 and 52. For example, the widths 83 of the rollers 76 and 80 may be two, three, four or more times the nominal width of the first and second reel ends 50 and 52. The additional width 83 of the rollers 76 and 80 may be useful to accommodate reels 14 with first and second reel ends 50 and 52 that are not perpendicular to one another or to accommodate reels 14 of different reel widths 56. The first and second pairs of rollers 76 and 80 may be wheels configured to rotate against the first and second reel ends 50 and 52. For example, the first and second pairs of rollers 76 and 80 may rotate about axles 84 coupled to roller frames 86 that are coupled to the frame 16.
In certain embodiments, the first and second pairs of rollers 76 and 80 may be fixedly coupled to the frame 16 and in other embodiments, positions of the first and second pairs of rollers 76 and 80 may be adjustable. For example, the first and second pairs of rollers 76 and 80 may be moved radially 44 (e.g., up and down), which could be used to move the reel 14 radially 44, or the rollers 76 and 80 may be moved axially 42 (e.g., closer or farther apart from one another), which could be used to accommodate reels 14 of different reel widths 56. In certain embodiments, the rollers of each pair of rollers 76 and 80 may be adjusted closer or farther apart from one another, which could be used to accommodate reels 14 of different reel diameters 58. Adjustment of the first and second pairs of rollers 76 and 80 may be accomplished hydraulically or electrically. In further embodiments, the first and second pairs of rollers 76 and 80 may be shaped to match the first and second reel ends 50 and 52. In other words, the shape of the first and second pairs of rollers 76 and 80 may help prevent the reel 14 from moving axially 42. For example, the first and second pairs of rollers 76 and 80 may include a flange similar to a train wheel. In some embodiments, the rollers 76 and 80 may be shaped like hourglasses, which may also help to prevent the reel 14 from moving axially 42 in either direction. Rollers 76 and 80 with hourglass shapes may also provide for smoother rotation of the reel 14 with less possibility of binding. In certain embodiments, the roller frames 86 may help prevent the reel 14 from moving axially 42. For example, the roller frames 86 may include extensions 87 that extend away from the rollers 76 and 80 to help constrain movement of the first and second reel ends 50 and 52 between the extensions 87. In further embodiments, the extensions 87 may be flared outward from a centerline of the rollers 76 and 80 to provide a funnel shape to facilitate placement of the reel 14 onto the pipe reel cradle 10. In addition, the flared extensions 87 may constrain large movement of the first and second reel ends 50 and 52 without excessively contacting the first and second reel ends 50 and 52 during small axial 42 and/or radial 44 movement of the reel 14.
The illustrated embodiment of the pipe reel cradle 10 includes a first cradle 88 disposed longitudinally between the first pair of rollers 76 and a second cradle 90 disposed longitudinally between the second pair of rollers 80. The first and second cradles 88 and 90 may support the reel 14 if the reel 14 is not supported by the first and second pairs of rollers 76 and 80, such as if the first and second pairs of rollers 76 and 80 are lowered radially 44 or damaged or worn. Thus, the first and second cradles 88 and 90 have a curved or arcuate shape that generally corresponds to the shape of the first and second reel ends 50 and 52. In certain embodiments, the first and second cradles 88 and 90 may be manufactured with different radii of curvature to accommodate reels 14 of different reel diameters 58. In addition, widths 92 of the first and second cradles 88 and 90 may be approximately equal to or greater than the widths of the first and second reel ends 50 and 52. The first and second cradles 88 and 90 may be made from curved sheet metal or other suitable material coupled to the frame 16.
In the illustrated embodiment, the pipe reel cradle 10 includes four pipe guides 22, with two disposed at the front side 70 and two disposed at the rear side 72. In other embodiments, the pipe reel cradle 10 may include two pipe guides 22 at only the front side 70 or the rear side 72. During deployment, the spoolable pipe 12 is contained between the two pipe guides 22. In certain embodiments, the pipe guides 22 includes brackets 94 and rollers 96, with pairs of rollers 96 at the front side 70 or the rear side 72 facing each other. The rollers 96 help to reduce friction if the spoolable pipe 12 contacts the pipe guides 22 during deployment. In certain embodiments, the pipe guides 22 may be coupled to a pipe guide beam 98 of the frame 16 and the pipe guides 22 may be adjustable axially 42 along the pipe guide beam 98. For example, the pipe guides 22 may be moved closer to one another for narrower reels 14 or when additional containment of the spoolable pipe 12 between the pipe guides 22 is desired. In other embodiments, the pipe guides 22 may be fixed to the frame 16 or the pipe guide beam 98. In further embodiments, the pipe guides 22 may not include rollers 96. For example, the pipe guides 22 may be coated with a low-friction material or use other techniques for reducing friction, such as bearings.
As shown in
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The wheel 126 of the pipe re-spooler 26 may be made from various materials, such as, but not limited to, rubber, plastic, or metal. The material for the wheel 126 may be selected to provide sufficient friction or grip to be able to cause the reel 14 to rotate when the wheel 126 is rotated. In addition, the wheel 126 may have a flexible or compliant surface to accommodate variations in roundness of the first and second reel ends 50 and 52 and to provide additional contact surface area when the wheel 126 is pushed against the first and second reel ends 50 and 52. In one embodiment, the wheel 126 may be a pneumatic vehicle tire. In addition, the wheel 126 may be detachably coupled to the re-spooler bracket 128 to be easily replaced when worn. The re-spooler actuator 130 may be an electric or hydraulic actuator or motor to enable movement of the wheel 126 toward or away from the first and second reel ends 50 and 52. The re-spooler bracket 128 may take different forms, but serves to support the wheel 126 and the re-spooler actuator 130. For example, the re-spooler bracket 128 may be coupled to the frame 16. In certain embodiments, the pipe re-spoolers 26 may be adjustable axially 42 to accommodate reels 14 of different reel widths 56. In further embodiments, the rollers 18 may include the functionality of the pipe re-spooler 26. In other words, the rollers 18 may be powered or actuated such that rotation of the rollers 18 in a first direction causes rotation of the reel 14 in a second direction opposite from the first direction. In such embodiments, the surface of the rollers 18 may be made from a material similar to the wheel 126 to provide sufficient friction between the rollers 18 and the first and second reel ends 50 and 52.
When deploying spoolable pipe 12 using the pipe reel cradle 10, the pipe reel cradle 10 may be moved to a desired location using the forklift tine pockets 100 and/or pad eyes 102. Then the reel 14 may be set in the pipe reel cradle 10 using a crane or similar equipment. An end of the spoolable pipe 12 may be pulled away from the stationary reel 14 and pipe reel cradle 10, thereby causing the reel 14 to rotate against the rollers 18 as the spoolable pipe 12 is removed from the reel 14. Alternatively, the pipe reel cradle 10 may be placed on a trailer or similar equipment. The end of the spoolable pipe 12 may be removed from the reel 14 and secured. Then the pipe reel cradle 10 may be moved away from the stationary end causing additional spoolable pipe 12 to be deployed as the reel 14 rotates against the rollers 18. In either deployment method, the spoolable pipe 12 may be guided through the pipe guide 22 as the spoolable pipe 12 is deployed. When a desired amount of spoolable pipe 12 has been deployed or it is desired to pause or stop deployment for any reason, the pipe brake 24 may be engaged to slow or stop rotation of the reel 14. Deployment may be resumed after disengaging the pipe brake 24.
In some situations, it may be desired to re-spool deployed spoolable pipe 12. For example, the reel 14 may be in the pipe reel cradle 10 with a first portion of spoolable pipe 12 disposed about the reel 14 and a second portion of spoolable pipe 12 extending away from the reel 14. The pipe re-spooler 26 may then be engaged with the reel 14 and the pipe re-spooler 26 rotated to cause rotation of the reel 14 against the rollers 18 in a direction to cause the second portion to be re-spooled onto the reel 14. The spoolable pipe 12 may be guided through the pipe guide 22 during re-spooling. After re-spooling, the pipe re-spooler 26 may be disengaged from the reel 14 and the reel 14 may be removed from the pipe reel cradle 10 to be transported to another location.
While the present disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that other embodiments may be devised which do not depart from the scope of the disclosure as described herein. Accordingly, the scope of the disclosure should be limited only by the attached claims.
This application is a continuation of U.S. Non-Provisional application Ser. No. 16/423,495 filed on May 28, 2019, now U.S. Pat. No. 10,730,719, which is a continuation of U.S. Non-Provisional application Ser. No. 16/176,086 filed on Oct. 31, 2018, now U.S. Pat. No. 10,301,149, which claims the priority benefit, of U.S. Provisional Application 62/579,980 filed Nov. 1, 2017, the contents of each of which are incorporated by reference herein in their entirety.
Number | Date | Country | |
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62579980 | Nov 2017 | US |
Number | Date | Country | |
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Parent | 16423495 | May 2019 | US |
Child | 16985126 | US | |
Parent | 16176086 | Oct 2018 | US |
Child | 16423495 | US |