The present invention is directed to a novel method and apparatus for handling pipe, and in particular, presenting drill pipe to drilling rigs, where the pipe may range up to about 30-40 feet in length, have diameters in the range of 3 inches and above, and weigh in the neighborhood of 500 pounds or more. The method and apparatus of the present invention could also be used for larger or smaller pipe, and the design of the essential components of the present invention readily enables that. For purposes of the description, and in the drawing figures which follow, the method and apparatus will be described with respect to handling pipe in the size and weight range as mentioned above.
There are numerous proposals in the prior art for handling pipe, but the present invention provides a simple, effective construction which is believed to be significantly advantageous. In its most essential form, the present invention includes an apparatus for handling pipe which includes only minimal moving parts, and the components are arranged for efficient operation; in particular, the present invention may be thought of as having a minimal number of essential components. The first is an elongate frame along which a power-driven carriage can reciprocally translate. Mounted on the carriage is a boom, connected to the carriage by a boom mount which is a pivot assembly. The boom is pivotal about a pivot axis defined by the pivot assembly, and the boom is positionable on the pivot assembly so that the boom will pivot at a selected position along its longitudinal axis.
This construction enables the boom to be pivoted to different heights, depending upon its mounting on the pivot assembly, in other words, the boom is pivoted relative to the carriage at a selected position along the boom's length. The boom carries a pipe carrier which may be rotated along a longitudinal axis parallel to the longitudinal axis of the boom. Rigidly mounted elevator arms are connected to the pipe carrier for picking off pipe from a pipe rack or the like, and placing the pipe in the pipe carrier. The power-driven carriage may be advanced and the boom pivoted about the pivot axis to lower the rear of the boom and consequently raise its front end, and the front end of the pipe carrier to present a pipe to the floor of a drill rig.
While the above has been generally described, further more specific details of the present invention will be understood from a consideration of the brief description of the drawings and the detailed description of the preferred embodiment which follows.
The present invention is directed to a method and apparatus for handling pipe so that pipe can be picked up from a pipe rack and presented to drill rigs having drill floors at different elevations, i.e., from ground level upwards of 15 feet. It is advantageous to have an apparatus which can be readily adjusted in the field to handle pipe for delivery to and removal from drilling rigs having drill floors which are at different elevations. In addition it may be necessary to move a pipe handling apparatus to different, and a relatively small, adjustable apparatus which is simple in operation will prove advantageous. While the configuration of the pipe handling apparatus of the present invention could be increased in size to reach the floors of drill rigs of even greater heights than 15 feet or so, the apparatus of the present invention has been designed to handle pipe upwards of 30 feet, and with diameters of 3-4 inches, weighing in the neighborhood of 500 pounds, although pipe of different diameters, lengths, and weights could be accommodated.
The present invention is directed to a pipe handling apparatus which includes several principal components, which enable it to efficiently transfer pipe from a pipe rack, advance the pipe to a drill rig and then present one end of the pipe to the drill rig, at various drill rig floor heights. To this end, the principal components of the pipe handling apparatus include an elongate, ground-mounted subframe or frame structure on which a power-driven carriage unit is mounted, selectively operable for reciprocal shifting along the frame structure. A boom is mounted on the carriage unit and is operable for selected pivotal movement relative to the carriage unit, about a generally horizontal pivot axis oriented transverse to the direction of reciprocal shifting of the carriage unit, and an elongate pipe carrier is mounted on the boom dimensioned for receiving pipe so that the pipe's longitudinal axis is substantially parallel to the longitudinal axis of the boom and the pipe carrier.
The pipe carrier is mounted on the boom and is operable for selective rotation about a longitudinal axis parallel to the longitudinal axis of the boom to pick up pipe arranged on a pipe rack generally parallel to the boom. The carriage is operable for delivering the pipe so that an end of the pipe is presented to a drill rig, where the pipe can then be off loaded by a lifting device, such as a draw works. The end of the pipe presented to the drill rig can be raised to a preselected height determined by the position in which the boom is pivoted relative to the carriage. That is, if the pivotal movement of the boom is about a pivot axis adjacent the front end of the boom, then the front end of the boom and correspondingly the pipe carrier is limited to the extent that it can be pivoted above the ground. Conversely, if the pivot connection of the boom is positioned further, along the long axis of the boom, then the front of the boom and the front of the pipe carried on the pipe carrier can be presented to a drill rig floor at a greater height.
The present invention provides a pipe handling apparatus in which the pivot assembly is mounted to the carriage, and includes a sleeve, dimensioned to receive the boom. The sleeve includes a mechanism to clamp the sleeve to the boom, at a selected position along the length of the boom. Therefore, the boom can be pivoted about a selected pivot axis along its longitudinal axis. The pivot axis of the pivot assembly remains constant; it is the relative positioning of the boom within the sleeve which enables the boom to reach different elevations.
As shown in
Also shown in
As shown in
Boom 36 is mounted onto carriage 26 and is selectively adjustable, longitudinally, relative to the carriage so that it can be pivoted at selected points along the boom's length. By providing different pivot points, the front end of the boom, and correspondingly the front end of pipe carrier 16, may be positioned at different heights. This selected positioning of the boom enables pipe to be delivered to drill rigs having different drill floor elevations. The construction of how boom 36 is mounted to carriage 26, and is pivotal relative thereto, can be appreciated from viewing
As shown in
A second actuator mechanism, generally indicated at 86, includes a hydraulic cylinder 88 having one end mounted beneath member 27 and is operable for extending and retracting a rod 90, which in turn is pivotally connected at 92 by a pin to sleeve 80. Thus it can be seen that upon retraction of rod 90, the tail end of boom 36 will be pivoted downwardly about pivot axis 78, and the front end of boom 36 will be raised along with a corresponding raising of the nose end of pipe carrier 16. Likewise, if cylinder 90 is extended, it will pivot boom 36 about pivot axis 78, in a clockwise direction in the configuration shown in
Attention is now directed to
As shown in
The height of the pipe carrier, when in its neutral position, is approximately 5 feet. That dimension has been selected because a worker who will be attaching a lifting device to the pipe can work on the ground comfortably by reaching with the hands to attach the lifting device to the end of the pipe.
The method and apparatus of the present invention will be described with respect to
As shown in
Carriage 26 is retracted to a position, again as shown in
A pipe is then rolled from the pipe rack onto interface arms 28 and 30, and pipe carrier 16 is rotated in a second direction about its longitudinal axis by elevator cylinder 54 so that the pipe engages hooks 18a and 20a of elevator arms 18 and 20 and is picked off the interface arms 28 and 30.
The pipe carrier is further rotated in the second direction, so that the pipe disengages from the hooks to roll downwardly along upper surfaces of elevator arms 28 and 30 onto central portion 16a of the pipe carrier, which is finally returned to its neutral position.
Carriage 26 is advanced to present the front end of both the pipe carrier and the pipe to the drill rig. The lifting device from the drill rig is attached to a front end of the pipe, and is actuated to raise the pipe upwardly so that its rear end is dragged along pipe carrier 16 toward the drill rig until the pipe is raised to a substantially vertical position. The pipe is lifted away from the pipe carrier and into the drill rig. Carriage 26 is retracted to position it once again adjacent the pipe rack, and the process is repeated to deliver pipe to the drill rig as requirements dictate.
Carriage 26 is advanced to a position adjacent the drill rig, and pipe to be removed from the drill rig is lifted by the lifting device and suspended to a position where a bottom end of the pipe is placed on the front portion of the pipe carrier, which is maintained in its neutral position. The rear end of boom 36 is pivoted downwardly about its connection to the carriage, so that a front end of boom 36 and pipe carrier 16 are raised, and the lifting device is actuated to lower the pipe continuously so that its rear end slides downwardly and rearwardly along inclined pipe carrier 16 until the rear end of the pipe engages stop 19 at the end of the pipe carrier.
The rear end of boom 36 is pivoted upwardly until both it and pipe carrier 16 are horizontal, and the lifting device lowers the pipe to lay it completely onto pipe carrier 16.
The lifting device is detached from the pipe, and carriage 16 is retracted to position the pipe and pipe carrier 16 adjacent a pipe rack for receiving the pipe. In the drawing of
Elevator cylinder 54 is actuated to rotate pipe carrier 16 and elevator arms 22 and 24 so that the pipe rolls down the upper surface of elevator arms and across interface arms 22 and 24 and is laid onto pipe rack 102.
The elevator cylinder is then actuated to return pipe carrier 16 to its neutral position, and the carriage is extended so that the front end of both the boom tube and the 15 pipe carrier are presented to the drill rig, and the process is repeated to remove pipe from the drill rig as requirements dictate.
The method of operation is essentially the same as outlined above for the low configuration cycle, except that boom 36 must be adjusted incrementally within sleeve 80 so that the sleeve is fixed more rearward on boom 36, depending on the height of the drill rig floor. That is, sleeve 80 will be positioned more toward the rear on boom 36 as the drill rig floor raises in height from 5 feet to 10 feet, and from 10 feet to 15 feet, and so on. The pivot axis of the pivot assembly therefore will be at a point more toward the rear of the boom. The apparatus and method have been designed to reach successively higher drill rig floors. In the example given here,
The boom is adjusted within sleeve 80 of the pivot assembly and is fixed to boom 36 at a position preselected so that the boom and pipe carrier can be elevated to enable the end of a pipe to be presented to the elevation of a drill rig floor. Pipe carrier 16 mounted on top of boom 36 is oriented in its neutral position. Carriage 26 is retracted to a position where pipe carrier 16 is generally parallel to a loaded pipe rack, such as pipe rack 100, and elevator cylinder 54 is actuated to rotate pipe carrier 16 in a first direction about a longitudinal axis relative to the boom so that hooks 18a and 20a on elevator arms 18 and 20, respectively, are positioned beneath interface arms 28 and 30 in a position to receive pipe from pipe rack 100.
A pipe is rolled from the pipe rack onto interface arms 28 and 30, and pipe carrier 16 is rotated in a second direction about a longitudinal axis by elevator cylinder 54 so that the pipe engages hooks 18a and 20a and is picked off the interface arms.
The pipe carrier is further rotated in the second direction, so that the pipe disengages from hooks 18a and 20a to roll downwardly along the upper surfaces of elevator arms 18 and 20 onto the central portion of pipe carrier 16, which is finally returned to its neutral position.
The carriage is then advanced, while the rear end of boom 36 is pivoted downwardly by cylinder 88 about its connection to carriage 26 to elevate both the front end of boom 36 and carrier 16 to present the pipe to the drill rig. Pivoting downwardly of the boom 36 can occur prior to, or simultaneously with, advancement of carriage 26.
The lifting device from the drill rig is attached to the front end of the pipe and actuated to raise pipe upwardly so that its trailing end is dragged upwardly along pipe carrier 16 toward the drill rig until the pipe is raised to a substantially vertical position adjacent the front end of pipe carrier 16, adjacent the drill rig floor. The pipe is then lifted away from pipe carrier 16 and into the drill rig.
Next, carriage 26 is retracted while the rear end of boom 36 is simultaneously pivoted upwardly until boom 36 and pipe carrier 16 are horizontally positioned, and carriage 26 is further moved to position it adjacent pipe rack 100, and the process is repeated to deliver pipe to the drill rig as requirements dictate.
Carriage 26 is advanced, while the rear end of boom 36 simultaneously is pivoted downwardly about pivot axis 78 so that the front end of both boom 36 and pipe carrier 16 are raised and presented to the drill rig, and pipe to be removed from the drill rig is lifted by the lifting device and suspended so that a bottom end of the pipe is placed on the front portion of pipe carrier 16.
The lifting device is actuated to lower the pipe continuously enabling its rear end to slide downwardly and rearwardly along inclined pipe carrier 16 until the rear end of the pipe engages stop 19 at the end of pipe carrier 16. The lifting device continues to lower the pipe until it rests fully on pipe carrier 16, and the lifting device is detached from the pipe.
Carriage 26 is then retracted and the rear end of boom 36 simultaneously is pivoted upwardly until boom 36 and pipe carrier 16 are positioned horizontally, and carriage 26 is moved to a position adjacent a pipe rack, such as pipe rack 102 for receiving the pipe.
Elevator cylinder 54 is actuated to rotate pipe carrier 16 and elevator arms 22 and 24 so that the pipe rolls down the elevator arms and is laid onto the pipe rack.
Elevator cylinder 54 is then actuated to return pipe carrier 16 to its neutral position, and carriage 26 is advanced while the rear end of boom 36 simultaneously is pivoted downwardly about pivot axis 78 so that the front end of both boom 36 and pipe carrier 16 are raised and presented to the drill rig, and the process is repeated to remove pipe from the drill rig as requirements dictate.
This application is a continuation of U.S. patent application Ser. No. 11/649,957, filed Jan. 5, 2007 now abandoned, which is a continuation of U.S. patent application Ser. No. 11/449,978, filed Jun. 9, 2006 now abandoned, the entire disclosures of which are herein incorporated by reference for all purposes.
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WO 0142618 | Jun 2001 | WO |
Number | Date | Country | |
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20100111646 A1 | May 2010 | US |
Number | Date | Country | |
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Parent | 11649957 | Jan 2007 | US |
Child | 12220936 | US | |
Parent | 11449978 | Jun 2006 | US |
Child | 11649957 | US |