KR20120092319A - Position adjusting apparatus for shim plate - Google Patents

Abstract

PURPOSE: A position adjusting device for a shim plate is provided to complete the assembling work of a structure without damage to the structure by simply and precisely inserting a shim plate into a joint of the structure. CONSTITUTION: A position adjusting device for a shim plate comprises a body(200), a rotation unit(300), a fixing unit(400), and position adjusting units(500). The rotation unit is protruded from one end of the body to transfer torque from the outside to the body. The fixing unit is protruded from one plane of the body to the outside. The position adjusting units are protruded from one plane of the body, where the fixing unit is protruded, to the outside to be separated from the fixing unit and transfers the torque applied to the body to a shim plate.

Description

Position adjusting apparatus for shim plate

The present invention relates to a shim plate adjuster for adjusting the position of the shim plate to fill the gap generated between the connected structures for the stable assembly of the structure, in detail the position of the shim plate used for the assembly of the structure installed on land or sea The present invention relates to a shim plate adjuster that can be adjusted simply and precisely without damaging the structure.

As the international rapid industrialization and industry develop, the use of global resources such as petroleum is gradually increasing, so that stable production and supply of oil is becoming a very important problem at the global level.

For this reason, in recent years, drilling ships have been developed with drilling facilities suitable for economic development of small marginal oil fields and deep-field oil fields, which have been neglected because of lack of economic efficiency.

Conventional submarine drilling has been mainly used for a rig ship or a fixed platform for underwater drilling which is capable of navigating only by another tugboat and performs submarine drilling with anchorage at a point in the sea using a mooring device. In recent years, a so-called drillship has been developed and installed in the same shape as a general ship so that it can be equipped with advanced drilling equipment and can navigate by its own power.

In the center of a rig ship or a drilling ship (hereinafter referred to as a drilling ship) equipped with various drilling equipments to drill oil or gas existing in the basement of the seabed, a riser for drilling oil or gas existing in the basement of the seabed Or a moonpool is formed so that the drill pipe can be moved up and down.

1 is a side view showing a conventional drilling vessel performing drilling operation at sea level.

The operator moves the riser (3) and drill pipe (4) downward through the door pool (2) formed in the center of the drilling line, and is located in the reservoir (11) below the sea bed (5). (well) Drill undersea resources stored in (12).

The riser 3 provides a passage through which the mud returns as a member that is advanced to the bottom of the sea floor 5 before advancing the drill pipe 4 to the well 12. When the riser 3 is installed, the drill pipe 4 is advanced downwardly into the well 12 through the subsea layer 10 into the riser 3.

As described above, when the riser 3 is advanced downward to the sea bottom 5 or the drill pipe 4 is advanced to the oil well 12, it is preferable to advance the riser 3 or the drill pipe 4 connected long. Rather, the short riser 3 or the drill pipe 4 are connected to each other and advanced downward.

A blowout preventer (BOP) 6 is installed at the sea floor 5 to prevent abnormal high pressure from rising up the drill pipe 4.

In the subsea layer 10, the casing 7 is fixed by cement, and then the seabed resources are drilled by inserting a drill pipe 4 equipped with a drill bit 9 into the casing.

The mud 8 is inserted into the drill pipe 4 to prevent the drill bit 9 from overheating by the heat generated when the drill bit 9 drills the ground and to lubricate to make drilling easier. do. This mud exits through the drill bit 9 and returns back through the casing 7 and the riser 3.

When the drilling operation is finished, the drill pipe 4 is transported to the drill floor through the door pool 2, separated, and then transported to the loading site.

2 is a diagram illustrating a conventional derrick structure.

The conventional drilling line includes an upper deck 13 and a drill floor 14 located above the upper deck 13, and the drill floor 14 is provided with a derrick 1. The drill pipe 4 loaded horizontally in the pipe loading space is erected and gripped by the top drive 15 and the rotary table 16.

After the two or more drill pipes 4 are connected to each other, the combined drill pipe is temporarily vertically loaded in the two-bag area and then moved downward through the door frame during drilling.

In general, the derrick is for elevating drilling equipment, such as a drill pipe, by winding or unwinding the wire rope connected to the drilling equipment by the operation of the winch, thereby elevating the drilling equipment to the desired position.

Drilling for these oils and gases is undertaken at ever deeper depths, both at sea and on land, for the stable production and supply of oil.

In general, the derrick 1 is a trust-type tower made of steel, the height of which is about 100m, depending on the design, and tends to be enlarged for drilling at deeper depths.

Conventional derrick has a complex steel structure, there are many connections as shown in Figure 3 requires a lot of labor when assembling, many gaps (gaps) may occur in these connections.

These gaps may cause structural problems in the derrick structure in the future, so assembly work is required to insert shim plates into the gaps to remove the gaps.

However, assembling the shim plates to fill the gaps to align the hole centers is quite difficult, the human error rate is high, and if the shim plates are impacted and driven into the gaps using normal tools, There was a problem that caused the damage to the product quality.

Accordingly, the present invention, in order to solve the problems of the prior art, the shim plate adjuster that can be easily and precisely inserted into the connecting portion of the land or offshore structure and complete the assembly work of the structure so as not to damage the structure For the purpose of development.

According to an aspect of the present invention for achieving the above object, in the shim plate adjuster for adjusting the position of the shim plate filling the gap generated between the connected structure for the stable assembly of the structure, the body constituting the body of the adjuster ( Rotating portion 300 protruding from one end of the body to transmit the external rotational force for rotating the body to the body; A fixing part 400 which is a center of rotation of the body so that the body can be rotated based on the inserted hole and matched with each other; And a positioning part 500 which protrudes outward from the plane of the body that is the same as the plane from which the fixing part protrudes, and is spaced apart from the fixing part to transmit the rotational force applied to the body to the shim plate. Provided is a shim plate adjuster.

The fixing part 400, the fixing hole 420 formed in the body; And a fixing member 410 detachably fastened to the fixing hole, wherein an inner surface of the fixing hole 420 and an outer circumferential surface of one end of the fixing member 410 fastened to the fixing hole 420 are formed in the body. Rotating with the body while maintaining the rotational force of;

An inner surface of the fixing hole 420 and an outer circumferential surface of one end of the fixing member 410 have both male and female shapes.

The other end of the fixing member 410 is characterized in that the fixing member 410 is inserted into the hole of the connected structure and the shim plate to rotationally support the fixing member 410.

The positioning unit 500, one or more positioning holes 520 formed in the body; And one or more positioning members 510 detachably or movably fastened to each of the one or more positioning holes 520.

The structure is a derrick; characterized in that.

According to the present invention, by using the shim plate adjuster can easily and precisely insert the shim plate into the connection of the land or offshore structure, and also does not damage the structure further shorten the production period of the product and improve the quality of export further It can be higher.

1 is a side view showing a conventional drilling ship performing drilling operation at sea level.
2 is a view showing the structure of a conventional derrick.
3 is a view schematically showing a connection portion of a conventional derrick structure.
4 schematically shows a shim plate adjuster according to the invention;
5 is a view schematically showing the application state of the shim plate adjuster according to the present invention, (a) is a view before the shim plate is completely inserted into the structure, (b) is ready to insert the shim plate using the shim plate adjuster (C) is the figure which completed insertion of a shim plate using a shim plate adjuster, (d) is the figure which removed the shim plate adjuster after completion of insertion of a shim plate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

Since the present invention relates to a positioner of a shim plate that fills a gap between structures generated when connecting or assembling a structure by matching holes, the term of the structure used in the present specification coincides holes such as onshore and offshore structures. This includes all structures in which the connection or assembly work takes place.

4 is a view schematically showing a shim plate adjuster according to the present invention, Figure 5 is a view schematically showing the application state of the shim plate adjuster according to the present invention, (a) is the shim plate is fully inserted into the structure The previous drawing, (b) is the drawing ready to insert the shim plate using the shim plate adjuster, (c) is a view of completing the insertion of the shim plate using the shim plate adjuster, (d) is the insertion of the shim plate After completion, seam plate adjuster is removed.

The ship or offshore structure is a steel structure that connects a number of complex steel structures, and these structures may be 60 to 100 m or more in height, so the process of assembling the steel structures one by one is very important. .

The joint portion connecting the steel structures uses a bracket, and a gap is generated between the H-beams, which are steel structures connected to the bracket. Since the gap causes the stability of the steel structure, it is necessary to insert and fill the shim plate in the gap for structural stability of the steel structure.

When inserting the shim plates into the gaps to structurally stabilize the steel structure, it is necessary to insert all the holes of the shim plates, brackets and H-beams in a tight manner so that the shim plates do not protrude from the steel structure. The present invention has been devised to solve this problem because it is very difficult to precisely match the hole while preventing damage to the steel structure.

In order to achieve the above object, the shim plate adjuster 100 of the present invention is composed of a body 200, a rotating part 300, a fixing part 400, a position adjusting part 500, as shown in FIG.

Body 200 constitutes the body of the shim plate adjuster 100, and includes a variety of parts for filling the gap of the structure by inserting the shim plate 600. Therefore, the body 200 is stably transmitted by the external force so that the rotational force transmitted by the external force can be stably transmitted to the shim plate 600 through various components so that the shim plate 600 can rotate stably without losing the rotational force. (200) should have sufficient strength to bend or deform.

The rotating part 300 protrudes from one end of the body 200 to transmit the external rotational force for rotating the body 200 to the body 200, the position of the external force applied to the rotating part 300 is fixed portion Since the farther away from 400 generates a larger rotational force with a smaller external force, the length of the rotating unit 300 is determined in consideration of this.

In addition, the shape of the rotating part 300 may take a suitable form to fit the source of the external force, for example, if the rotational force by the attractive force is applied to the rotating part 300, the rotating part 300 is shaped like a wave to be easy to hold by hand. It may take the form of.

The fixing part 400 protrudes outward from one plane of the body 200 as shown in FIG. 5, and inserts the inserted holes by matching the holes of the connected structures 700 and 800 and the shim plate 600. As a reference, the body is the center of rotation of the body to rotate.

The fixing part 400 may be composed of a fixing hole 420 formed in the body and a fixing member 410 detachably fastened to the fixing hole, which is the structure 700 to which the fixing member 410 is connected. , 800) and the fixing member 410 may not be inserted because the size of the hole does not match when the hole is inserted into the hole of the shim plate 600, and the fixing member fits the size of the hole so as to be smoothly inserted and rotated. This is to enable exchange with 410.

The fixing part 400 is to be rotated together with the body while maintaining the rotational force of the body 200, the inner surface of the fixing hole 420 and the fixing member 410 is fastened to the fixing hole 420 One end of the outer circumferential surface may be formed in a concave-convex shape of both sexes.

In Figure 4, but the end of the concave and convex is shown to form a triangle, if it can be rotated with the body while maintaining the rotational force of the body 200, the end of the concave and convex may form a variety of shapes, such as a square, Since the fixing hole 420 and the fixing member 410 are formed to be separable, the irregularities formed on the inner surface of the fixing hole 420 and the outer circumferential surface of one end of the fixing member 410 are fixed member 410 pillars. Should be formed in the height direction.

The other end of the fixing member 410 is inserted into the hole of the connected structure and the shim plate so that the fixing member 410 is rotated. Therefore, the other end of the fixing member 410 inserted into the hole has to be rotatable and does not have to be uneven like the one end of the fixing member 410.

Position adjuster 500 is projected outward from the plane of the body the same as the plane in which the fixing part is projected, and is positioned to be spaced apart from the fixing part to transmit the rotational force applied to the body 200 to the shim plate 600. do.

When an external force is applied to the rotating part 300 to generate a rotating force, the body 200 rotates around the fixing part fixing the holes of the connected structure and the shim plate, and the position adjusting part protruding from the body ( When the 500 is caught by the shim plate 600, the rotational force is transmitted to the shim plate 600 so that the shim plate 600 rotates about the fixing unit together with the adjuster 100.

The position adjusting unit 500 may include one or more positioning holes 520 and one or more positioning members 510.

The one or more positioning holes 520 and the positioning member 510 may be inserted and completed in FIG. 4 so that the shim plate 600 does not protrude from the steel structure when the body 200 rotates. It can be installed at various positions of the body 200, and preferably the body opposite the fixing portion 400 from the fixing portion 400 so as to rotate all to suit the various sizes of the shim plate 600 It may be installed in rows between the ends of the (200).

The one or more positioning holes 520 and the one or more positioning members 510 are fastened to be detachable or movable, respectively. This is one or more positioning member 510 of the positioning member 510 that can be inserted into the steel frame structure completely the simple rate 600 is projected in the direction in which the fixing portion 400 protrudes the adjuster 100 This is because the shim plate 600 can be completely inserted into the steel structure to be completely completed.

In addition, the adjuster 100 may be used in a derrick that is a land or offshore structure used for drilling. It is made of a plurality of steel structures of the derrick complex and a plurality of steel structures are formed through a plurality of holes are connected through the bolting operation, the shim plate can be inserted into the gap generated in the joint portion and the adjuster 100 can be used This is because it is suitable for filling a stable gap.

The application of the shim plate adjuster of the present invention will be described below.

When a gap occurs between the bracket 800 and the H-beam 700, which is a steel structure, to connect a plurality of steel structures as shown in FIG. 5 (a), a shim plate is inserted into the gap. After that, the fixing part 400 of the adjuster 100 is inserted into the shim plate 600, the bracket 800, and the holes of the H-beam 700 coincide with each other, thereby configuring as shown in FIG. 5 (b).

At this time, as shown in (d) of FIG. 5, an optimal positioning member 500 capable of inserting the shim plate 600 so as not to protrude from the H-beam is selected in the direction in which the fixing part 400 protrudes. When the adjuster 100 rotates to protrude, the positioning member 500 may be caught by the shim plate.

FIG. 5C is a view in which the adjuster 100 is rotated to completely insert and complete the H-beam. After that, the adjuster 100 is removed.

This method is repeated to assemble and complete structurally safe steel structures by filling all the gaps in the connections of steel structures.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

100: shim plate adjuster 200: body
300: rotating part 400: fixing part
410: fixing member 420: fixing hole
500: position adjusting unit 510: position adjusting member
520: positioning hole 600: shim plate
700: H-beam 800: Bracket

Claims (6)

In the shim plate adjuster for adjusting the position of the shim plate to fill the gap between the connected structures for the stable assembly of the structure,
Body 200 constituting the body of the adjuster;
Rotating portion 300 protruding from one end of the body to transmit the external rotational force for rotating the body to the body;
A fixing part 400 which protrudes outward from one plane of the body and is inserted into the holes of the connected structure and the shim plate to be the center of rotation of the body so that the body can rotate based on the inserted hole; And
A positioning part 500 that protrudes outward from the plane of the body that is the same as the plane from which the fixing part protrudes, and is positioned to be spaced apart from the fixing part to transmit the rotational force applied to the body to the shim plate;
Shim plate adjuster comprising a. The method according to claim 1,
The fixing part 400,
A fixing hole 420 formed in the body; And
Consists of a fixing member 410 detachably fastened to the fixing hole,
An inner surface of the fixing hole 420 and an outer circumferential surface of one end of the fixing member 410 fastened to the fixing hole 420 are rotated together with the body while maintaining the rotational force of the body;
Shim plate adjuster characterized in that. The method according to claim 2,
An inner surface of the fixing hole 420 and an outer circumferential surface of one end of the fixing member 410 have both male and female uneven shapes;
Shim plate adjuster characterized in that. The method according to claim 2,
The other end of the fixing member 410 is that the fixing member 410 is inserted into the hole of the connected structure and the shim plate to support the rotation of the fixing member (410);
Shim plate adjuster characterized in that. The method according to claim 1,
The position adjusting unit 500,
One or more positioning holes 520 formed in the body; And
At least one positioning member (510) detachably or movably fastened to each of the at least one positioning hole (520);
Shim plate adjuster, characterized in that consisting of. The method according to any one of claims 1 to 5,
The structure is a derrick;
Shim plate adjuster characterized in that.

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