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The present invention relates to blowout preventers (or BOPs) that are used in the oil and gas well exploration industry (e.g., drilling and production). More particularly, the present invention relates to an improved blowout preventer bonnet handling apparatus/tool that is able to cradle and transport a BOP bonnet between a starting or home position and a laterally spaced, removed position that enables a lifting (e.g., overhead crane) and/or servicing of the bonnet. In one embodiment, actuators (e.g., hydraulic cylinders) extend and retract to transport a saddle assembly that supports the weight of the bonnet when removed from the BOP body.
Blowout preventers are safety devices used in the oil and gas exploration industry. They are well known in the art. Patents/publications discuss blowout preventers and the bonnet portions (e.g., see US Publication 2017/0107778A1, which is hereby incorporated herein by reference). The bonnet is a housing that holds a ram or other component. The bonnets must be removed for servicing/maintenance after a period of use. Bonnets are heavy and must be carefully handled to avoid injury to a worker/personnel, and/or damages to a bonnet, and/or bonnet components.
The following possibly relevant US Patents are each hereby incorporated herein by reference:
The present invention provides an improved method and apparatus for handling bonnets so that they can be lifted and/or serviced or repaired.
The present invention provides a blow out preventer bonnet removal method and apparatus for removing a bonnet from the body of a blow out preventer. The method includes an initial step of attaching a bonnet transporter or rail system to the BOP body. The transporter or rail system preferably extends laterally away from the body.
A carriage (or carrier) and ratchet sleeve apparatus is preferably attached to the transporter or rail system. The carriage supports a saddle or saddle assembly that can be connected to the bonnet to be transported.
The bonnet can be moved from a first position next to the body to a second position spaced away from the body wherein the carriage apparatus and ratchet sleeve transport the bonnet upon the rail system.
In one embodiment, transporter can be a rail system including spaced apart beams or rails and further comprising positioning the bonnet in between the rails.
In one embodiment, a saddle assembly that moves with the carriage apparatus is preferably clamped to the bonnet.
In one embodiment, the carriage apparatus with saddle is preferably ratcheted relative to the rail system with a ratchet sleeve or skidder ratchet. The ratchet sleeve or skidder ratchet moves the carriage and saddle in short increments along the rail system. Each increment can equate to the extension distance of a hydraulic cylinder (or cylinders) that extend and retract during ratcheting transport of the carriages and bonnet along the rail system.
In one embodiment, the method includes using hydraulic fluid during ratcheting transport (e.g., hydraulic cylinder(s)) to move each carriage and saddle assembly.
In one embodiment, the rail system is preferably supported by one or more support legs.
In one embodiment, lifting the saddle and bonnet with an overhead lifting device such as a crane can be accomplished after the saddle and bonnet are moved to an outer end portion of the rail system and spaced away from the BOP body.
In one embodiment, the saddle preferably has one or more lifting fittings or pad-eyes and the lifting device can be attached to the one or more pad-eyes with suitable rigging (e.g., slings, shackles, hooks or wire rope) for moving the bonnet to a location for servicing or repair.
In one embodiment, the present invention provides a blow out preventer bonnet removal method for removing a bonnet from the body of a blow out preventer wherein initially a pair of beams are preferably attached to the BOP body. The beams each preferably extend laterally away from the body.
In one embodiment, the carriage apparatus includes a pair of carriages or carriers. One carriage is preferably mounted on each rail or beam, each carriage supporting the saddle.
The saddle is preferably connected to the bonnet that is to be removed for service or repair.
The bonnet is preferably disconnected (e.g., unbolted) from the BOP body wherein the bonnet can then be moved from a first position next to the body to a second position that is spaced away from the body wherein the carriages transport the bonnet upon the beams to outer end portions of the beams.
In one embodiment, the beams have spaced apart slots that interface with cams or dogs on the ratchet sleeve mechanism.
In one embodiment, the saddle can be clamped to the bonnet.
In one embodiment, the carriages can be ratcheted relative to beams using a ratchet sleeve mechanism.
In one embodiment, the ratcheting preferably includes using hydraulic fluid to move the carriages along the beams.
In one embodiment, the step of lifting the saddle and bonnet with an overhead lifting device preferably enables transport of the bonnet from the rails and/or rail system to a location for service and/or repair and/or to a transport vehicle (e.g., tractor trailer).
In one embodiment, the elevation of the saddle can be changed with one or more lift cylinders or like operators to fine tune alignment of the saddle relative to the bonnet such as before clamping the saddle to the bonnet.
In one embodiment, the rail system or rails can include attaching a plurality of beam mounts to the body of the blow out preventer.
In one embodiment, the beams have outer or free end portions and the method includes supporting the beams with one or more legs at a position in between the body of the blow out preventer and the beam free ends.
The present invention includes a blow out preventer bonnet removal method for removing a bonnet from a body of a blow out preventer, including the steps of:
a) attaching a rail system to the body that extends laterally away from the body;
b) mounting a carriage apparatus to the rail system;
c) connecting a saddle assembly to the bonnet;
d) detaching the bonnet from the body after step “c”; and
e) moving the bonnet from a first position next to the body to a second position spaced away from the body wherein the carriage apparatus transports the bonnet upon the rail system.
In one embodiment, the rail system includes spaced apart rails and further comprising positioning the bonnet in between the rails.
In one embodiment, the saddle assembly can be clamped to the bonnet.
In one embodiment, preferably ratcheting the carriage apparatus relative to the rail system.
In one embodiment, the ratcheting includes using hydraulic fluid to move the saddle assembly.
In one embodiment, the rail system can be supported by one or more legs.
In one embodiment, preferably lifting the saddle and bonnet with an overhead lifting device.
In one embodiment, the saddle has one or more pad-eyes and the lifting device preferably attaches to the one or more pad-eyes.
In one embodiment, preferably changing the elevation of the saddle to fine tune alignment of the saddle relative to the bonnet.
The present invention includes a blow out preventer bonnet removal method for removing a bonnet from a body of a blow out preventer. The present invention includes the steps of:
a) attaching a pair of beams to the body that each preferably extend laterally away from the body;
b) mounting carriages on the rail beams, the carriages supporting a saddle;
c) connecting the saddle to the bonnet;
d) detaching the bonnet from the body after step “c”; and
e) moving the bonnet from a first position next to the body to a second position that is spaced away from the body wherein the carriages transport the bonnet upon the beams.
In one embodiment, the beams preferably include gearing that interfaces with ratchet mechanisms on the carriages.
In one embodiment, the saddle can be clamped to the bonnet.
In one embodiment, preferably ratcheting the carriages relative to the beams.
In one embodiment, the ratcheting preferably includes using hydraulic fluid to move the carriages along the beams.
In one embodiment, preferably lifting the saddle and bonnet with an overhead lifting device.
In one embodiment, preferably changing the elevation of the saddle to fine tune alignment of the saddle relative to the bonnet.
In one embodiment, preferably attaching a plurality of beam mounts to the body of the blow out preventer.
In one embodiment, each of the pair of beams preferably have a free end portion and further comprising supporting the pair of beams with one or more legs at a position in between the body of the blow out preventer and the free end portions.
In one embodiment, each beam can have a ratchet system that includes one or more ratcheting sleeves mounted on each rail and a hydraulic cylinder that extends and retracts to move the bonnet a distance with each extension of the hydraulic cylinder.
For a further understanding of the nature, objects, and advantages of the present invention, reference should be had to the following detailed description, read in conjunction with the following drawings, wherein like reference numerals denote like elements and wherein:
Blowout preventers are known, commercially available devices that are used to contain an oil well that is flowing at a high rate and at high pressure. Examples can be seen in U.S. Pat. Nos. 3,411,576; 4,206,929; 5,507,465; 5,875,841; 6,024,172; and 9,488,031, which are each hereby incorporated herein by reference. Blowout preventers are commercially available from Schlumberger Oilfield Services, National Oilwell Varco, Weatherford International, Cameron International Corporation and other suppliers/manufacturers. Many blowout preventers have a structural body to which are affixed housings or bonnets that contain known BOP components, such as rams for example. Many blow out preventers have external frames that make removal of the bonnets problematic.
In
Apparatus 10 provides a lateral transport or rail system (railway, skid or laterally extending track or tracks) that can include two spaced apart (first and second) beams, rails or tracks 18, 20. Beams 18, 20 preferably attach to brackets 28, 30 (see
Beams 18, 20 can be flanged beams (e.g., I beams or wide flanged beams) having a web 68 and flanges 70, 72. Each beam or track 18, 20 preferably has a free end. Beam 18 has free end 23. Beam 20 has free end 25.
In
Each carriage 42, 44 is preferably equipped with one or more lift cylinders 92 (which can be for example hydraulic cylinders), preferably enabling saddle 14 to be moved vertically to fine tune its elevation relative to a bonnet 12 (e.g., relative to upper 12A or lower 12B bonnets) and
BOP body 11 (see
The upper bonnet 12A to blowout preventer bolts 13 are loosened and the saddle lift cylinders 92 can then be adjusted to maintain alignment. The saddle 14 is then moved to the position of
Legs 34, 36 can be provided to support beams 18, 20 as seen in
In the starting or base position of
Saddle assembly 17 including saddle 14 and straps 16 are each mounted to carriages 42, 44 as seen in
Each beam 18, 20 is preferably provided with beam slots/holes/openings 19, 21 to interact with cams or dogs 78, 80 of each ratchet sleeve mechanism 46, 48. Cylinder 50 is used to pull or push a cam or dog 78, 80 from one beam opening 19 or 21 to another beam opening 19 or 21 as the ratchet sleeve mechanisms 46, 48 travel selectively toward or away from BOP body 11. The ratchet sleeve mechanisms 46, 48 allow the travel cylinders 50 to exert force on the main beams 18, 20 via the hole or slot 19, 21 pattern in the top of the main beams 18, 20. By simply extending and retracting travel cylinders 50, ratchet sleeve mechanisms 46, 48 automatically move cams 78, 80 from a hole or slot 19, 21 to another hole or slot 19, 21 along main beams 18, 20. When a cam or dog 78, 80 drops (via gravity) into a slot or opening or hole 19, 21, cylinder 50 can then transfer load to the beam 18 or 20 via vertical or longitudinal surface 86, 88 of a cam or dog 78, 80.
Referring to
The cams or dogs 78, 80 are preferably reversible (by rotating a selected cam dog 78 or 80 upon pivot 94) depending upon the desired direction of travel (e.g., toward or away from the BOP body 11). Each dog or cam 78, 80 preferably has two (2) beveled surfaces 82, 84 that enable travel up and out of a beam slot 19, 21 (see
During assembly, the cylinders 50 on beams 18, 20 are preferably synced to align the carriages 42, 44 at equal distances from BOP body 11.
In
In
The following is a list of parts and materials suitable for use in the present invention:
All measurements disclosed herein are at standard temperature and pressure, at sea level on Earth, unless indicated otherwise. All materials used or intended to be used in a human being are biocompatible, unless indicated otherwise.
The foregoing embodiments are presented by way of example only; the scope of the present invention is to be limited only by the following claims.
This application claims benefit of U.S. Provisional Patent Application Ser. No. 62/785,775, filed 28 Dec. 2018; and U.S. Provisional Patent Application Ser. No. 62/812,007, filed 28 Feb. 2019, each of which is incorporated herein by reference. Priority of U.S. Provisional Patent Application Ser. No. 62/785,775, filed 28 Dec. 2018; and U.S. Provisional Patent Application Ser. No. 62/812,007, filed 28 Feb. 2019, each of which is incorporated herein by reference, is hereby claimed.
Number | Date | Country | |
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62785775 | Dec 2018 | US | |
62812007 | Feb 2019 | US |