US20260028886A1
SAFETY LATCH IMPROVEMENT FOR TUBULAR ELEVATOR
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
Expro North Sea Limited
Inventors
Jeremy ANGELLE, Jebb L. HUVAL, Jordan VIATOR
Abstract
An apparatus for a pipe handling system includes a first bail, a second bail, and a pipe elevator coupled to the first bail and the second bail. The pipe elevator includes a main body, a door, and a latch-and-lock system. The latch-and-lock system includes a catch coupled to the main body, a lock handle coupled to the door, a locking latch coupled to the door, and a verification lock coupled to the door. The verification lock includes a verification lock body, a verification lock pin partially disposed within the verification lock body, a detection pin coupled to the verification lock pin, and a spring disposed within the verification lock body and surrounding the verification lock pin. The verification lock body includes an elongated portion and a body detection pin slot.
Figures
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001]This application claims priority to U.S. Provisional Patent Application No. 63/676,229, filed Jul. 26, 2024, which is herein incorporated by reference in its entirety.
BACKGROUND
Field
[0002]Embodiments of the present disclosure generally relate to elevators for handling collar-type tubing, drill pipe, and casing (generally, a tubular). In particular, the disclosure relates to a latch-and-lock system for securing the elevator in a locked position around the tubular.
Description of the Related Art
[0003]Elevators are commonly used to handle collar-type tubing, drill pipe, and casing (generally, tubulars) in oil and gas production environments. Elevators are capable of handling a range of sizes of tubulars. The elevators enable the tubular to be maneuvered into a positions to be inserted downhole in an oil well.
[0004]The elevators, in particular side-door elevators, utilize a latch-and-lock system to secure the elevator around the tubing or piping. The latch-and-lock system may be operated from a single handle, and protects the elevator from accidental opening.
[0005]However, the currently technology may still be susceptible to operator error, leading to unsafe working conditions and damage being sustained to the elevator or other portions of the rig. These working conditions and the damage may cause unexpected and costly delays in the oil production environment. Thus, there is a need in the art for improved latch-and-lock systems.
SUMMARY
[0006]The present disclosure generally relates to elevators for handling collar-type tubing, drill pipe, and casing (generally, a tubular). In particular, the disclosure relates to a latch-and-lock system for securing the elevator in a locked position around the tubular.
[0007]In one embodiment, a pipe elevator is disclosed. The pipe elevator includes a main body, a door, and a latch-and-lock system. The latch-and-lock system includes a catch coupled to the main body, a lock handle coupled to the door, a locking latch coupled to the door, and a verification lock coupled to the door. The verification lock includes a verification lock body, a verification lock pin partially disposed within the verification lock body, a detection pin coupled to the verification lock pin, and a spring disposed within the verification lock body and surrounding the verification lock pin. The verification lock body includes an elongated portion and a body detection pin slot.
[0008]In another embodiment, a pipe handling system is disclosed. The pipe handling system includes a first bail, a second bail, and a pipe elevator coupled to the first bail and the second bail. The pipe elevator includes a main body, a door, and a latch-and-lock system. The latch-and-lock system includes a catch coupled to the main body, a lock handle coupled to the door, a locking latch coupled to the door, and a verification lock coupled to the door. The verification lock includes a verification lock body, a verification lock pin partially disposed within the verification lock body, a detection pin coupled to the verification lock pin, and a spring disposed within the verification lock body and surrounding the verification lock pin. The verification lock body includes an elongated portion and a body detection pin slot.
[0009]In yet another embodiment, a lock verification apparatus is disclosed. The lock verification system includes a verification lock body, a detection pin coupled to the verification lock body, a detection pin coupled to the verification lock pin, a spring disposed within the verification lock body and surrounding the verification lock pin, and a connector plate. The verification lock body includes an elongated portion and a body detection pin slot.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010]So that the manner in which the above recited features of the present disclosure can be understood in detail, a more particular description of the disclosure, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings. It is to be noted, however, that the appended drawings illustrate only exemplary embodiments and are therefore not to be considered limiting of its scope, may admit to other equally effective embodiments.
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[0020]To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common to the figures. It is contemplated that elements and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.
DETAILED DESCRIPTION
[0021]The present disclosure relates to elevators for handling collar-type tubing, drill pipe, and casing (generally, a tubular). In particular, the disclosure relates to a latch-and-lock system for securing the elevator in a locked position around the tubular.
[0022]
[0023]In some embodiments, a pipe handling system 170 is coupled to the top drive 150. The pipe handling system 170 may include a pipe elevator 100, a first bail 172A, and a second bail 172B. The first bail 172A is coupled to the top drive 150 using a first drive eye 151A and the second bail 172B is coupled to the top drive 150 using a second drive eye 151B. A first protrusion 153A of the top drive 150 is inserted into the first drive eye 151A and a second protrusion 153B is inserted into the second drive eye 151B to couple the pipe handling system 170 to the top drive 150. The first bail 172A is coupled to the pipe elevator 100 using a first elevator eye 174A and the second bail 172B is coupled to the pipe elevator 100 using a second elevator eye 174B. The first elevator eye 174A and the second elevator eye 174B are received within a first recess 115A and a second recess 115B, respectively, in the pipe elevator 100. The pipe elevator 100 includes a first bail latch 104A and a second bail latch 104B to secure the first elevator eye 174A and the second elevator eye 174B received within a first recess 115A and a second recess 115B, respectively. The pipe elevator 100 is configured to be secured around a tubular. The pipe elevator 100 is secured in a closed state around the tubular using a latch-and-lock system 102.
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[0027]The verification lock 112 is configured to rotate about a verification lock pin 120. When the door 101B is closed towards the main body 101A, and the locking latch 106 contacts the catch 108, the geometry of the locking latch 106 causes the locking latch 106 to pivot into a locked position. The verification lock 112 rotates around the verification lock pin 120 such that the extension 121 of the verification lock 112 secures the lock handle 110 in the locked position. The extension 121 of the verification lock 112 abuts a lower portion of the lock handle 110, preventing the rotation of the lock handle 110 about the lock handle pin 222.
[0028]
[0029]
[0030]The second elongated portion 358 includes a shoulder 357. The plunger 350 and the spring 336 are disposed within the second channel 356. The spring 336 surrounds the plunger 350 and is situated between the shoulder 357 and a stopper end 351 of the plunger 350. The stopper end 351 of the plunger 350 has a width (e.g., a diameter) that is greater than the width (e.g., diameter) of the first channel 352, and abuts an end of the second channel 356 that is distal from the pin head 362. The contact portion 361 of the verification lock pin 120 is disposed within the first channel 352.
[0031]In the unlocked position, the contact end 360 of the contact portion 361 extends out of the first channel 352. The detection pin 345 is disposed within the bracket detection pin slot 332 and the body detection pin slot 340. The detection pin 345 being disposed within the bracket detection pin slot 332 and the body detection pin slot 340 prevents the rotation of the verification lock 112 around the verification lock pin 120.
[0032]
[0033]When the contact end 360 of the verification lock pin 120 is depressed into the first channel 352, the stopper end 351 of the plunger 350 compresses the spring 336 against the shoulder 357 and pushes the detection pin 345 out of the bracket detection pin slot 332 and the body detection pin slot 340. When the detection pin 345 is outside of the bracket detection pin slot 332 and the body detection pin slot 340, the verification lock 112 is capable of rotating around the verification lock pin 120. In some embodiments, the bracket detection pin slot 332 extends away from the connector plate 114 such that the bracket detection pin slot 332 extends past the verification lock 112. The detection pin 345 is pushed out of the body detection pin slot 340, but remains within the bracket detection pin slot 332 when the contact end 360 of the verification lock pin 120 is depressed into the first channel 352. The verification lock 112 is rotated around the verification lock pin 120 such that the extension 121 abuts the lower portion of the lock handle 110, securing the lock handle 110 in the locked position.
[0034]After the tubular has been secured downhole, the pipe elevator 100 is disengaged from the tubular by rotating the verification lock 112 around the verification lock pin 120 such that the extension 121 of the verification lock 112 is spaced apart from the lock handle 110. The lock handle 110 may then be disengaged from the locking latch 106, and the locking latch 106 may be disengaged from the catch 108. When the locking latch 106 is disengaged from the catch 108, the spring 336 drives the contact end 360 out of the first channel 352 and shifts the detection pin 345 into the bracket detection pin slot 332 and body detection pin slot 340. As previously described, when the detection pin 345 is disposed within the bracket detection pin slot 332 and body detection pin slot 340, the verification lock 112 cannot be rotated about the verification lock pin 120, indicating that the pipe elevator 100 is not properly closed.
[0035]The benefits of the latch-and-lock system 102 include the elimination of operator error due to the verification lock 112 being rotated into the unlocked position when the locking latch 106 has not yet engaged the catch 108. The detection pin 345 prevents the rotation of the verification lock 112 into the locked position until the locking latch 106 has engaged the catch 108. Therefore, the verification lock 112 may only be moved into the locked position when the locking latch 106 has engaged the catch 108, indicating that the latch-and-lock system 102 has properly secured the tubular and that the lock handle 110 cannot be disengaged from the locking latch 106.
[0036]While the foregoing is directed to embodiments of the present disclosure, other and further embodiments of the disclosure may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
Claims
What is claimed is:
1. A pipe elevator, comprising:
a main body;
a door; and
a latch-and-lock system comprising:
a catch coupled to the main body;
a lock handle coupled to the door;
a locking latch coupled to the door; and
a verification lock coupled to the door, the verification lock comprising:
a verification lock body comprising:
an elongated portion; and
a body detection pin slot;
a verification lock pin partially disposed within the verification lock body;
a detection pin coupled to the verification lock pin; and
a spring disposed within the verification lock body and surrounding the verification lock pin.
2. The pipe elevator of
3. The pipe elevator of
4. The pipe elevator of
the verification lock body further comprises:
a first channel defined by a first elongated portion; and
a second channel defined by a second elongated portion, the second elongated portion comprising a shoulder
the verification lock pin further comprises:
a pin head;
a plunger disposed in the second channel and comprising a stopper end, wherein the spring surrounds the plunger and is situated between the shoulder and the stopper end; and
a contact portion disposed in the first channel and comprising a contact end distal from the pin head.
5. The pipe elevator of
6. The pipe elevator of
a connector body coupled to the door;
a bracket coupled to the connector body and comprising a bracket detection pin slot; and
a pin receiver formed in the connector body, wherein the first elongated portion of the verification lock body is disposed within the pin receiver.
7. The pipe elevator of
8. A pipe handling system, comprising:
a first bail;
a second bail; and
a pipe elevator coupled to the first bail and the second bail, the pipe elevator comprising:
a main body;
a door; and
a latch-and-lock system comprising:
a catch coupled to the main body;
a lock handle coupled to the door;
a locking latch coupled to the door; and
a verification lock coupled to the door, the verification lock comprising:
a verification lock body comprising:
an elongated portion; and
a body detection pin slot;
a verification lock pin partially disposed within the verification lock body;
a detection pin coupled to the verification lock pin; and
a spring disposed within the verification lock body and surrounding the verification lock pin.
9. The pipe handling system of
10. The pipe handling system of
a connector body coupled to the door;
a bracket coupled to the connector body and comprising a bracket detection pin slot; and
a pin receiver formed in the connector body.
11. The pipe handling system of
a first channel defined by a first elongated portion disposed within the pin receiver of the connector plate; and
a second channel defined by a second elongated portion, the second elongated portion comprising a shoulder.
12. The pipe handling system of
a pin head;
a plunger disposed in the second channel and comprising a stopper end, wherein the spring surrounds the plunger and is situated between the shoulder and the stopper end; and
a contact portion disposed in the first channel and comprising a contact end distal from the pin head.
13. The pipe handling system of
14. The pipe handling system of
the detection pin is disposed within the body detection pin slot and the bracket detection pin slot when the latch-and-lock system is in an unlocked position, such that the detection pin prevents rotation of the verification lock body about the verification lock pin; and
the detection pin is outside the body detection pin slot when the latch-and-lock system is in a locked position, such that the detection pin enables rotation of the verification lock about the verification lock pin.
15. A lock verification apparatus, comprising:
a verification lock body comprising:
an elongated portion; and
a body detection pin slot;
a verification lock pin partially disposed within the verification lock body;
a detection pin coupled to the verification lock pin;
a spring disposed within the verification lock body and surrounding the verification lock pin; and
a connector plate.
16. The lock verification apparatus of
a connector body;
a bracket coupled to the connector body and comprising a bracket detection pin slot; and
a pin receiver formed in the connector body.
17. The lock verification apparatus of
a first channel defined by a first elongated portion disposed within the pin receiver of the connector plate; and
a second channel defined by a second elongated portion, the second elongated portion comprising a shoulder.
18. The lock verification apparatus of
a pin head;
a plunger disposed in the second channel and comprising a stopper end, wherein the spring surrounds the plunger and is situated between the shoulder and the stopper end; and
a contact portion disposed in the first channel and comprising a contact end distal from the pin head.
19. The lock verification apparatus of
20. The lock verification apparatus of
the detection pin is disposed within the body detection pin slot and the bracket detection pin slot when the lock verification apparatus is in an unlocked position, such that the detection pin prevents rotation of the verification lock body about the verification lock pin; and
the detection pin is outside the body detection pin slot when the lock verification apparatus is in a locked position, such that the detection pin enables rotation of the verification lock about the verification lock pin.