Handling device for an installable and retrievable subsea apparatus

Abstract

A handling device (1) for an installable and retrievable subsea apparatus (2) to engage a docking device (3) on a subsea installation, the docking device (3) having a pair of engagement members (4, 5). The device (1) is provided with a top member (6) and a pair of engagement arms (7, 8) depending therefrom to extend along the outside of the apparatus (2). Each of the arms (7, 8) at a free end thereof is provided with a hook (7, 8) configured to engage in releasable way the engagement members (4; 5). A rotatable handle (9) is located above the top member (6) and has an integral or linked stem (10) which extends through the top member (6) and is pivotally linked to a top region of the apparatus (2). The handle (9) is able to operate the engagement arms (7, 8) relative to the engagement members (4,5).

Claims

1. A handling device for an installable and retrievable subsea apparatus, the retrievable subsea apparatus in a releasable manner to engage an apparatus mating docking device on a subsea installation, the apparatus mating docking device having a pair of outwardly extending engagement members having an aperture and an engagement rim, the handling device comprising: a top member and a pair of engagement arms depending therefrom to extend along an outside face of the retrievable subsea apparatus, wherein the handling device is configured as a yoke; wherein each of the engagement arms at a free end thereof is provided with a hook configured to engage in a releasable manner a rim on the apparatus mating docking device; a rotary handle that is located above the top member and has an integral or linked stem which extends through the top member and is pivotally linked to a top region of the retrievable subsea apparatus; wherein the rotary handle and the stem in a first rotary position are movable transversely of the top member between set limits, but are rotationally locked relative a main body of the retrievable subsea apparatus hanging freely from the stem; wherein the rotary handle and the stem are locked and prevented from any movement relative to the top member when in a second rotary position with the rotary handle closest to the top member and with the engagement arm hooks in engagement with rims of the apparatus mating docking device, and thereby locking docking engagement between the retrievable subsea apparatus and the apparatus mating docking device; and wherein a rear side of the hooks is inclined to gradually engage a lower inclined region of the retrievable subsea apparatus and upon movement into the apparatus mating docking device to cause the hooks to be pressed into and held in engagement with the rims of the apparatus mating docking device.

2. The handling device of claim 1, wherein the stem is provided with a pair of engagement pegs configured to disengage locking engagement by moving the pair of engagement pegs below the top member thereby releasing a rotational arrest relative to the top member and further upon rotation of the rotary handle and stem into the second rotary position to engage, climb on and come to rest on an underside portion of the top member facing the retrievable subsea apparatus, thereby providing a rotational arrest of the rotary handle and the stem relative to the top member at such second rotary position.

3. The handling device of claim 1, wherein the top member is provided with a spring which assists in defining two distinct positions of the rotary handle and the stem, as well as the retrievable subsea apparatus when the retrievable subsea apparatus moves from a first position to a second position over a limited distance away from the top member when the hooks have entered into engagement with the rims.

4. The handling device of claim 3, wherein the rotary handle and the stem are in a rotary mode when the retrievable subsea apparatus is adjacent or at the second position.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows the operation of a handling device of the invention in a first phase of installation of a subsea apparatus.

(2) FIG. 2 shows the operation of a handling device of the invention in a second phase of installation of a subsea apparatus.

(3) FIG. 3 shows the operation of a handling device of the invention in a third phase of installation of a subsea apparatus.

(4) FIG. 4 shows the operation of a handling device of the invention in a fourth phase of installation of a subsea apparatus.

(5) FIG. 5 is a view from above of the views of FIGS. 1-3.

(6) FIG. 6 is a view from above of the view of FIG. 4.

(7) FIG. 7 is a front perspective view from one side of a top region of the handling device, related to the view of FIGS. 1 and 2.

(8) FIG. 8 is a front perspective view from one side of a top region of the handling device, related to the view of FIG. 3.

(9) FIG. 9 is a front perspective view from one side of a top region of the handling device, related to the view of FIG. 4.

(10) FIG. 10 is a front perspective view from another side of a top region of the handling device, related to the view of FIGS. 1 and 2.

(11) FIG. 11 is a front perspective view from another side of a top region of the handling device, related to the view of FIG. 3.

(12) FIG. 12 is a front perspective view from another side of a top region of the handling device, related to the view of FIG. 4.

DETAILED DESCRIPTION OF THE INVENTION

(13) The present invention comprises a handling device 1 for an installable and retrievable subsea apparatus 2, the subsea apparatus in a releasable manner to engage an apparatus mating ISO standardized docking device 3 on a subsea installation. The docking device 3 has a pair of outwardly extending engagement members 4, 5 having an aperture 4; 5 and an engagement rim 4; 5. The device is configured like a yoke which is provided with a top member 6 and a pair of engagement arms 7, 8 depending therefrom to extend along an outside face of the apparatus 2. Each of the arms 7; 8 is at a free end thereof provided with a hook 7; 8 configured to engage in a releasable manner the rim 4; 5, respectively, on the docking device 3.

(14) A rotary spindle or male member (not shown) may be located in the docking device 3 and linking such member e.g. with a valve spindle in the subsea installation.

(15) A rotary handle 9 is located above the top member 6 and has an integral or linked stem 10 which extends through the top member 6 and below the top member 6 is pivotally linked to a top region 2 of the apparatus 2. The handle 9 is configured to be engaged by an ROV (not shown).

(16) The handle 9 and its stem 10 are in a first rotary position as shown on FIGS. 1-3 movable transversely of the top member 6 between set limits, but are rotationally locked relative a main body of the apparatus 2 hanging freely from the stem 10.

(17) As shown on FIGS. 4, 6, 9 and 12, the handle 9 and its stem 10 are in a second rotary position with the handle 9 closest to the top member 6 and with the arm hooks 7, 8 in engagement with the docking device rims 4, 5, and are locked and prevented from any movement relative to the top member 6.

(18) A rear side 7, 8 of the hooks 7, 8 is inclined to gradually engage an inclined portion of a lower region 2 of the apparatus 2. Upon the apparatus movement into the ISO docking device 3, the hooks 7, 8 will be caused to be pressed into and held in engagement with the docking device rims 4, 5.

(19) The arrangement of the handle 9 and the stem 10 relative to the top member 6 of the handling device 1 as well as relative to the main body of the apparatus 2 enables an easy and safe way of lowering or lifting, i.e. handling the apparatus to and from the docking device 3 using the handle 9.

(20) The stem 10 is provided with a pair of engagement pegs 11 configured upon rotation of the handle 9 and stem 10 to engage, climb onto and come to rest on an underside portion 6 of the top member 6 facing the apparatus 2. Note that the pair of pegs 11 is visible on FIGS. 1, 2 and 3, however only one of the pegs being visible on FIGS. 4, 7, 8, 9 and 10.

(21) As shown on FIGS. 1, 2, 7 and 10 the pegs 11 engage an abutment 6 of the top member 6 as well as partly a slot 6 in the top member, and these pegs arrest means thereby prevent and lock the handle 9 and its stem 10 from a rotational movement in the first rotary position of the handle 9 when it is as far as possible away from the top member 6.

(22) As will be observed from inspecting the drawings, a same relative movement of the apparatus 2 relative to the hooks 7, 8 and the docking device 3 will disengage a rotational locking of the handle 9. Disengagement is made possible as the pegs 11 are moved below the top member 6, thereby leaving locking engagement with the abutment 6 and the slot 6, see FIGS. 3, 4, 8 and 9.

(23) The top member 6 is provided with a spring 12 which assists in defining two axially distinct positions of the handle 9 and its stem 10, as well as the apparatus 2, i.e. when the apparatus 2 moves from a first position as e.g. shown on FIG. 2 to a second position as e.g. shown on FIG. 3 over a limited distance away from the top member 6 when the hooks 7, 8 have entered into engagement with said rims 4, 5. The spring 12 also assures that the handle 9 (and its stem 10) cannot change position without a required operational torque to be applied to the handle, thereby safe-guarding that the handle 9 and the stem 10 do not intentionally switch positions relative to the top member 6 of the handling device 1.

(24) As indicated above, when the apparatus 2 is properly docketed in the device 3, the lower region 2 of the apparatus prevents the hooks 7, 8 from dislodging from the rims 4, 5. It will be noted that the handle 9 and its stem 10 are in a rotary mode, i.e. free to rotate from the first rotary position to the second rotary position, suitably rotation through 90, when the apparatus 2 is adjacent or at said second position, as shown on FIGS. 3 and 4.

(25) By turning the handle 9 and the stem 10 into the position shown on FIGS. 4, 6, 9 and 12, the docking engagement of the apparatus 2 into the docking device 3 is effectively locked, along with the hooks 7, 8 being locked to the rims 4, 5. Thus, the apparatus is properly clamped into position in axial direction in the docking device, which yields a positive arrest of the apparatus about its longitudinal axis.

(26) The top member 6 is effectively lifted over the projecting pegs 11 on the handle stem 10 when the apparatus is fully inserted into the ISO docking device or bucket, enabling the ROV to rotate the handle 9 to provide a positive confirmation the locked state.

(27) The top member 6 is movable in the axial direction relative to the apparatus 2, but is not movable in radial direction relative to the apparatus 2. As will be appreciated from studying the drawings, the arms 7, 8 are attached to top member and depend therefrom. The arms 7, 8 are movable substantially in the axial direction of the apparatus 7 when there is a corresponding axial movement of the top member 6. Further, they are flexible to be slightly bendable sideways relative to a respective adjacent side of the apparatus 2, as is clearly visible from studying FIGS. 1-4. By geometry, the sides, i.e. the arms 7, 8, of the top member 6 are pointing inwards towards each other when the handling device is free. This implies that the arms and their hooks 7, 8 will always be controlled radially by the inclined faces at the lower region 2 of the apparatus 2. The angular position of the handle 9 provides a visible flag for a camera on the ROV.

(28) It is understood that the top member has a certain, suitably high stiffness, although it will still flex somewhat when loaded, thus ensuring that tension of the locking state is maintained during the course of time.

(29) The invention provides for a reduction in complexity of latching operation, a reduction of number of required part, cost, and reliability improvement due to fewer movable parts, compared to typical prior art worm-screw latch arrangement.

(30) It will be appreciated that when the apparatus 2 is to be released from engagement with the docking device, the steps as indicated in FIGS. 1-4 are simply reversed. Once the handle 9 is turned into the position in FIG. 3 and is pulled, the apparatus 2 comes closer to the top member 6 and the lower region 2 of the apparatus 2 reduces its engagement with the inclined faces 7, 8, thereby causing the hooks 7, 8 to move slightly towards each other and enter out of engagement with the rims 4, 5, and thereby resulting in the fully released state as shown on FIG. 1.