KR20210152878A - Load test apparatus and method for semi-submersible drilling rig - Google Patents

Abstract

The present invention relates to an apparatus and a method for a load test of a semi-submersible drilling rig. According to an aspect of the present invention, in the apparatus conducting a load test in a semi-submersible drilling rig, a lifting wire (27) of a top drive (25) is induced to be able to move up and down through a rotary table (30) and a spider (35) on an upper side of the rotary table (30) on a drilling deck (21). An exclusive jig (40) concentrically and detachably engaged with the rotary table (30) and the spider (35) is connected to a lower end of the lifting wire (27) to cause upward and downward movements of a weight block (15). Accordingly, in a process of lifting and lowering a prepared weight block or water bag, the load test apparatus is able to collectively conduct a load test for a derrick and a rotary table, and preemptively and efficiently conduct the load test for each upgrade of a hook rod of the derrick.

Description

{Load test apparatus and method for semi-submersible drilling rig}

The present invention relates to a load test of a semi-submersible rig, and more particularly, to a load test apparatus and method for a semi-submersible rig for realizing a load test of a derrick and rotary table, which is structurally difficult to perform.

In general, it is possible to prepare a weight block or a waterbag in the lower part of the moonpool by using a barge in the semi-rig, but handle heavy objects on the drillfloor and There is no proper way to apply a load to the rotary beam.

In this situation, as an oil field requiring 20,000 Psi BOP was recently discovered, requests for rod upgrade of derrick hooks are occurring frequently. block, crown block, etc.) and the accompanying upgrade of the rotary table are also required. In addition, the reinforcement of the substructure supporting the derrick and rotary table is accompanied by a change in the equipment specification (capacity), and a load test of the derrick and rotary table structure is also required after installing the upgraded equipment.

Considering that Derrick Hook's load upgrade request will occur frequently in the future, it is imperative to prepare a verification method after the upgrade.

As prior art documents related to the drillship rod test, reference may be made to Korean Patent Registration No. 1246059, Korean Patent Registration No. 1440180, and the like.

In the former, the drill line for load test is installed to be connected to the drill floor and the derrick, and the draw work connected to one end of the drill line is operated to measure while applying a load to the derrick.

However, it requires a large amount of space and time to accompany a separate structural reinforcement work or to install a lug on the drill floor.

The latter is a jig that is inserted instead of a casing into a rotary table formed in a drilling workshop and rotates together when the rotary table is rotated; A fixture for fixing the wire connected to one end of the jig; and a tension measuring unit that measures the tension generated in the wire as the jig rotates.

However, this also requires a lot of space and time and is not suitable for load testing of semi-submersible rigs because it requires a torque test as the main point.

Korean Patent Publication No. 1246059 "Derrick Road Test Method" (Published on: 2012.09.26.) Korean Patent Publication No. 1440180 "Torque test device for rotary table of drilling vessel" (Published on: July 17, 2012)

It is an object of the present invention to improve the problems of the prior art, a load of a semi-submersible drilling vessel that prepares the primary weight through equipment already installed in the moonpool, and enables handling of additional weights on the drilling deck To provide a test apparatus and method.

Another object of the present invention is to collectively perform a load test of a derrick and a rotary table based on a dedicated jig capable of handling the rod in the vertical direction.

In order to achieve the above object, as an aspect of the present invention, in an apparatus for performing a load test on a semi-submersible drilling vessel: on the drilling deck, the pull-up wire of the top drive is induced to move up and down through the rotary table and the spider on the upper side and a dedicated jig concentrically and detachably engaged with the rotary table and the spider is connected to the lower end of the impression wire to induce vertical movement of the weight block.

According to the detailed configuration of the present invention, the dedicated jig is characterized in that it is provided with a flange portion that can be supported using a dog of a spider, and a lug portion that can hang an extension wire connected to the weight block.

As another aspect of the present invention, in a road test method based on the device of claim 1, a water bag or weight block is placed on the lower side of the drilling deck, and a water bag or weight block is placed on the top drive by interposing a dedicated jig on the drilling deck. A first step of connecting; a second step of measuring the load acting on the derrick by elevating the dedicated jig of the first step; and a third step of measuring the load acting on the rotary table by lowering the dedicated jig of the second step.

According to the detailed configuration of the present invention, the first step is characterized by using a barge, an offshore crane, and a top drive.

According to the detailed configuration of the present invention, the first step is characterized in that the spider and the gimbal are installed on the rotary table, the riser running tool is installed on the top drive, and then the riser running tool and the dedicated jig are connected.

As described above, according to the present invention, in the process of lifting and lowering the prepared weight block or water bag, load tests on derricks and rotary tables are collectively performed to preemptively and efficiently perform load tests every time derrick's hook rod is upgraded. can have an effect.

In addition, it is possible to estimate the cost of the test when calculating the upgrade cost, so there is an effect of minimizing the loss due to the omission/increase of the cost of the road test.

1 is a schematic diagram showing a load test device according to the present invention;
Fig. 2 is a schematic diagram showing an enlarged main part of the apparatus of Fig. 1;
3 is a schematic diagram showing a first step of the method according to the present invention;
4 is a schematic diagram showing a second step of the method according to the present invention;
5 is a schematic diagram showing a third step of the method according to the present invention;

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

As an aspect of the present invention, it is proposed with respect to an apparatus for performing a road test in a semi-submersible rig. It is intended for, but not necessarily limited to, road tests of semi-submersible rigs. It is not limited only to the dedicated jig, and the general jig 10 may be additionally used.

The rod of the present invention is formed to be divided into a plurality and uses a weight block 15 that can be stacked in close engagement with each other. The weight block 15 is easy to adjust the load to conform to SWL (Safe Working Load). Since it is possible to put the pants 11 into the moonpool, it is also possible to use the water bag 13 in addition to the weight block 15 .

According to the present invention, the lifting wire 27 of the top drive 25 through the rotary table 30 and the spider 35 on the upper side on the drilling deck 21 is induced to move up and down. A plurality of rotary tables 30 may be installed on the drilling deck 21 as shown in FIG. 1 . The top drive 25 for elevating the impression wire 27 may also be installed in plurality. The impression wire 27 is guided to the upper side of the top drive 25 from the top side of the derrick 20 . The spider 35 installed on the upper side of the rotary table 30 utilizes what is required for gripping the riser in the actual drilling process.

In addition, according to the present invention, the dedicated jig 40 concentrically and detachably engaged with the rotary table 30 and the spider 35 causes the vertical movement of the weight block 15 at the lower end of the impression wire 27 . characterized by being connected. The spider 35 is coupled to the rotary table 30 with a gimbal 37 interposed therebetween. The gimbal 37 distributes the load applied through the spider 35 to the drilling deck 21 to maintain a balance. The dedicated jig 40 has a cross section of any one of a square shape, a cylindrical shape, and an oval shape, and has a length that passes through the spider 35 , the gimbal 37 , and the rotary table 30 .

According to the detailed configuration of the present invention, the dedicated jig 40 uses the dog 36 of the spider 35 to hang the supportable flange portion 41 and the extension wire 47 connected to the weight block 15. It is characterized in that it is provided with a lug portion (43) that can. The spider 35 is provided with each dog 36 in a plurality of hydraulic cylinders radially arranged to enable gripping of the riser in the actual drilling process. Referring to FIG. 2 , a flange portion 41 and a lug portion 43 constituting the dedicated jig 40 are shown. The flange portion 41 of the upper end is supported by the dog 36 from the lower side to constrain the downward movement of the dedicated jig 40 . The lower lug portion 43 is connected to the extension wire 47 supporting the weight block 15 and the general jig 10 downward. If the dedicated jig 40 is used, it is easy to quickly and accurately connect the rod set at the lower end of the impression wire 27 .

On the other hand, the dedicated jig 40 may further include a length adjustment part 45 on at least a part of the body. The length adjusting unit 45 is capable of flexible handling of the dedicated jig 40 in various environments by applying a known configuration that causes a change in the length of the body.

As another aspect of the present invention, a road test method based on the device of claim 1 is proposed. It is based on the configuration of the weight block 15, the derrick 20, the top drive 25, the dedicated jig 40, etc. described with reference to FIGS. 1 and 2 . Even under conditions where it is difficult to transport the rod to the lower part of the moonpool, the key point is to efficiently perform the rod test.

The first step according to the present invention is to wait the water bag 13 or the weight block 15 on the lower side of the drilling deck 21, and the top drive 25 by interposing a dedicated jig 40 on the drilling deck 21. It proceeds to the process of connecting the water bag 13 or the weight block 15 to the In FIG. 3, the weight block 15 and the dedicated jig 40 are waiting and installed on a vertical line based on the main well center where the rotary table 30 of the drilling deck 21 is located indicates

According to the detailed configuration of the present invention, the first step is characterized in that the barge 11, offshore crane, using the top drive (25). In Fig. 3(a), the weight block 15 is loaded on the pants 11 using an offshore crane and moved to the main well center, and the dedicated jig 40 is connected to the top drive 25 to maintain the raised state. do. The symbol 11' indicates the pants waiting at the location of the offshore crane. 3 (b), the dedicated jig 40 is lowered through the spider 35 and the rotary table 30, and is connected to the weight block 15 waiting on the pants 11 using an extension wire 47. For convenience, the installation of the weight block 15 will be described, but the same applies even if the water bag 13 is replaced.

At this time, it is preferable to use the spread beam 32 for the even distribution of the load of the extension wire (47).

According to the detailed configuration of the present invention, in the first step, the spider 35 and the gimbal 37 are installed on the rotary table 30 , and the riser running tool 33 is installed on the top drive 25 , and then the riser running tool (33) and the dedicated jig 40 is characterized in that it is connected. 1, the gimbal 37, the spider 35, and the dedicated jig 40 are concentrically coupled to the upper side of the rotary table 30. In Figures 2 and 3 (a), the dedicated jig 40 is closely connected to the riser running tool 33 and bolting in the flange portion (41). During the road test, the dedicated jig 40 can be seated on the spider 35 and the gimbal 37 through the flange part 41 .

In the second step according to the present invention, the load acting on the derrick 20 is measured by elevating the dedicated jig 40 of the first step. When the top drive 25 is raised in FIG. 4( a ), the weight block 15 together with the dedicated jig 40 is raised from the pants 11 . The load W1 applied to the derrick 20 can be measured by maintaining the stationary state for a set time (eg, 5 minutes) in a state in which the whole is lifted. In Fig. 4(b), the pants 11 are moved to the outside of the main well center, and the next continuous load test is prepared.

The third step according to the present invention proceeds to the process of measuring the load acting on the rotary table 30 by lowering the dedicated jig 40 of the second step. 5( a ), the top drive 25 is lowered so that the flange portion 41 of the dedicated jig 40 is seated on the dog 36 of the spider 35 . As shown in FIG. 5( b ), an additional lowering of the top drive 25 is caused so that the load is transferred to the rotary beam 31 through the spider 35 , and the load is applied to the rotary table 30 for a set time (eg, 5 minutes) to measure the load (W2).

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

10: general jig 11: pants
13: water bag 15: weight block
20: derrick 21: drilling deck
22: diverter housing 23: tension ring
25: top drive 27: impression wire
30: rotary table 31: rotary beam
32: spread beam 33: riser running tool
35: spider 36: dog
37: gimbal 40: dedicated jig
41: flange portion 43: lug portion
45: length adjustment unit 47: extension wire

Claims (5)

A device for performing load tests on a semi-submersible rig, comprising:
On the drilling deck 21, the lifting wire 27 of the top drive 25 is induced to move up and down through the rotary table 30 and the spider 35 on its upper side,
A dedicated jig 40 concentrically and detachably engaged with the rotary table 30 and the spider 35 is connected to the lower end of the impression wire 27 to induce vertical movement of the weight block 15 A load test device for a semi-submersible rig. The method according to claim 1,
The dedicated jig 40 includes a flange portion 41 that can be supported using the dog 36 of the spider 35, and a lug portion 43 that can hang an extension wire 47 connected to the weight block 15. A load test device for a semi-submersible drilling vessel, characterized in that it is provided. In the load test method based on the device of claim 1,
The water bag 13 or the weight block 15 is placed on the lower side of the drilling deck 21, and the water bag 13 or the weight is placed on the top drive 25 by interposing a dedicated jig 40 on the drilling deck 21. a first step of connecting blocks 15;
a second step of measuring the load acting on the derrick 20 by elevating the dedicated jig 40 of the first step; and
A third step of measuring the load acting on the rotary table (30) by lowering the dedicated jig (40) of the second step; 4. The method according to claim 3,
The first step is a road test method of a semi-submersible drilling vessel, characterized in that using a barge (11), an offshore crane, and a top drive (25). 4. The method according to claim 3,
The first step is to install the spider 35 and the gimbal 37 on the rotary table 30, install the riser running tool 33 on the top drive 25, and then install the riser running tool 33 and the dedicated jig 40 ) Road test method of a semi-submersible drilling vessel, characterized in that it connects.

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