KR100289834B1 - Apparatus or process clading a plate by plate welding method - Google Patents

Abstract

The present invention relates to a moon pool structure of a drilling vessel, and more particularly, when installed inside the moon pool structure, plate cladding by a plate welding method which can reduce the repair inspection of the finished product and smoothly process the curved work. It relates to a construction method and an apparatus.

In the present invention, the order of stacking the flat plates is one on the left side of the center, one on the left side, and then one on the right side, the left side, and again on the right side of the center. In the same manner as described above, when the first layer is completely arranged, welding is performed using a plate welding device. After the welding operation, the second layer is laminated and then welded again. Laminates up to six floors and welds.

Description

Flat cladding method and apparatus by plate welding method {Apparatus or process clading a plate by plate welding method}

The present invention relates to a plate welding method for welding in a flat state on the floor and the plate is formed to be laminated in a multi-layer and then assembled by bending, in more detail can reduce the repair inspection of the finished product and It relates to a flat plate cladding method and apparatus by a plate welding method that can smoothly.

In general, all blocks of FPSO ships are mounted around the Moon Pool Block. Moon Pools are used to move the hull of a drilling ship in the direction that is least affected by wind, tidal currents, waves, etc. By assisting the operation of the turret (Turret) that serves as a guide of the oil hose to send to the module, the manufacture of the Moon Pool refers to a structure that requires a high level of welding technology. The structure of the FPSO Moon Pool is about 600mm wide and 22mm thick inside a large circular plate with a diameter of 22M. A trap is installed at the center of the large circular plate to drill the diameter of the seabed. The Moon Pool structure is installed between them to serve as a guard, and the Moon Pool structure adopts a method of mutual coupling by a block welding method.

FIG. 1A is a view illustrating a manufacturing method using a conventional block welding method, and FIG. 1B is a view schematically showing a structure of a moon pool of a ship.

As can be seen in Figure 1a, the block welding method refers to a method of rotating the target structure to the rotating jig while welding the curved surface portion using a fixed strip cladding welding machine and then assembling the block 10 divided into four parts.

The block 10 manufactured by the block welding method forms a rounding part 14 at the center to install a trap therein. The block 10 is divided into four parts to weld a large circular plate of a pool moon structure. The shape is installed to form a circle.

As can be seen in Figure 1b, all blocks of the FPSO vessel (drilling vessel) starts from the Moon Pool Block, the Moon Pool structure of the vessel (8) is a block 10 made by a block inside the large circular plate (9) Combining and forming a rounding portion 14 in the center portion of the block 10 to form a trap 13 in the rounding portion 14.

In the above-described block welding method, the inclination angle is 10 ° or more at the part constituting the multi-layer cladding of the large circular plate with a diameter of 22M and the curved part of the block. Occurred.

In view of the above problems, the object of the present invention, when coupled to a large circular plate with a diameter of 22M, the inclination angle is formed to be less than 2 ° to minimize the occurrence of defects in the joint and solve the non-uniformity of the weld bead It relates to a plate cladding method and apparatus by a plate welding method.

In order to achieve the above object, the present invention comprises the steps of arranging a plurality of flat plates on the upper surface of the horizontal stage and welding the joint of the flat plate; Stacking a new flat plate on top of the welded single-stage flat plate to minimize welding deformation and welding a joint of the flat plate to minimize welding deformation; Stacking a new plate on an upper surface of the plate stacked in two stages and welding a joint of the plate; Stacking a new plate on an upper surface of the plate stacked in three stages and welding a joint of the plate; Stacking a new flat plate on the top of the four stacked flat plates and welding the joints of the flat plates; Stacking a new flat plate on the top of the five stacked flat plates and welding the joints of the flat plates; Laminating a new flat plate on the upper surface of the six-layer laminated flat plate and welds the joint of the flat finish.

In addition, the present invention, the main frame is installed on the upper surface of the vertical stand to be installed on both sides and the auxiliary frame is installed adjacent to the vertical stand formed on both sides of the horizontal stand; A power supply unit formed at one side of the vertical stand of the main frame to apply power to the plate welding apparatus; An auxiliary wheel formed on the other side of the vertical stand of the main frame and interconnecting the driving belt and the driving wheel; A controller connected to the power supply unit by a wire and installed toward the power supply unit, and connected to an upper surface of the horizontal stand with a left support; A main vertical stage formed on the upper surface of the middle part of the horizontal stage constituting the main frame and formed into one set of three; A flux storage box formed on one side of the main vertical column and supplying the flux to an upper surface of the flat plate; A strip wire reel connected to the middle of the main vertical stage and continuously supplying a wire to a welding torch; A reducer formed at one lower end of the main vertical column and connected to an intermediate support by drawing a wire from the controller, and connecting the wire to adjust a speed of a welded part; A Y-blade assembly formed at an intermediate portion of the main vertical stage to operate a welding torch up and down; And an X − blade assembly installed at the bottom of the main vertical platform and connected to an upper surface of the horizontal platform to drive the welding unit left and right.

Figure 1a is a view showing a manufacturing method by a conventional block welding method, Figure 1b is a view schematically showing the structure of the moon pool of the ship.

Figure 2 schematically shows a plate welding method according to the present invention.

3 is a view showing a plate welding method for laminating a multilayer plate according to the present invention.

4 is a view showing a welding device for welding a multilayer plate according to the present invention.

<Explanation of symbols for main parts of drawing>

30: fixing jig 34,36: support part

40: reputation 44: large jig

46,72: horizontal 48,74: vertical

50: plate welding device 54: main frame

56: power supply 58: controller

60: flux bin 64: strip wire reel

66: reducer 68: Y-blade assembly

70: X-slide assembly 76: auxiliary horizontal

78: left support 80: electric wire

82: intermediate support 84: weld

86: main frame 88: auxiliary wheel

90: drive wheel 92: drive belt

Hereinafter, with reference to the accompanying drawings of the present invention will be described in detail a preferred embodiment of the configuration and operation as follows.

2 is a view schematically showing a plate welding method according to the present invention, wherein the fixing jig 30 is formed to face each other and the fixing jig 30 is formed with two support portions 34 and 36 inside. . Two flat plates 40 are fixed to the support parts 34 and 36 of the fixing jig 30, and the flat plate 40 is tack welded to the thickly painted part in the lower part of FIG. 2. Will be fixed.

3 is a view showing a plate welding method for laminating a multilayer plate according to the present invention, in which the stacking order of the flat plate 40 is a flat plate having a constant horizontal × vertical length on the upper surface of the large jig 40 in the longitudinal direction. After stacking a plurality of 40, at the top of the plate to weld the longitudinal plate using the welding torch of the welding device. The large jig 40 is formed of a horizontal bar 46 formed of two flat plates horizontally and a vertical bar 48 fixed to support both sides of the horizontal bar 46.

The stacking order of the flat plate 40 is one stacked on the left side and one on the left side based on the center, and then sequentially stacked one on the right side, the left side, and again on the right side based on the center. do. In the same manner as above, when the first layer is completely arranged, welding is performed using a plate welding device. After the welding operation, the second layer is laminated in the order of laminating the second layer and then welding again. In addition, the welding work will be performed. That is, the stacking order of the flat plate 40 includes the steps of arranging a plurality of flat plates on the upper surface of the horizontal stage and welding the joints of the flat plates; Stacking a new flat plate on top of the welded single-stage flat plate to minimize welding deformation and welding a joint of the flat plate to minimize welding deformation; Stacking a new plate on an upper surface of the plate stacked in two stages and welding a joint of the plate; Stacking a new plate on an upper surface of the plate stacked in three stages and welding a joint of the plate; Stacking a new flat plate on the top of the four stacked flat plates and welding the joints of the flat plates; Stacking a new flat plate on the top of the five stacked flat plates and welding the joints of the flat plates; Laminating a new flat plate on the upper surface of the six-layer laminated flat plate and welds the joint of the flat finish.

Figure 4 is a view showing a welding apparatus for welding a multilayer plate according to the present invention, (a) is a front view, (b) is a plan view, (c) is a side view. The plate welding apparatus 50 includes a main frame 54 which plays a large horizontal role, a power supply 56 for applying power to the welding part, and a controller 58 for adjusting the welding part to a predetermined condition, and a flux for storing the flux. Reservoir 60, strip wire reel 64 for supplying the wire to the welding torch, speed reducer 66, Y-blade assembly 68 for adjusting the welding torch vertically relative to the welding object, and It consists of an X-slide assembly 70 which automatically operates from side to side on the top of the horizontal stage.

The plate welding apparatus 50 has a shape similar to that of the large jig 44 of FIG. 3. The main frame 54 has two horizontal bars 72 installed in the X-axis direction. On both sides of the horizontal stage 72, the auxiliary horizontal stage 74 is formed at right angles to the lower portion of the horizontal stage 72, the horizontal stage 72 of the main frame 54 is to support the horizontal stage on both lower sides. Vertical stand 74 is installed to be able to. The auxiliary wheel 88 is connected to the driving wheel 90 to the vertical stand 74 on the other side where the main frame 54 is installed to move the plate welding apparatus 50 to another place.

The power supply unit 56 of the plate welding apparatus 50 is formed on one side of the vertical stand 74, the power supply 56 is installed on the side of the vertical stand (74). An external power source is applied to the power supply unit 56 and used as a power source for driving the plate welding apparatus 50.

The controller 58 of the plate welding apparatus 50 is formed to install the power supply 56, the controller 58 is connected to the upper surface of the main frame 54 by the left support 78. The controller 58 is provided with an electric wire 80 on one side, and the electric wire 80 is supported by an intermediate support 82 installed above the main frame 54 to connect with the reducer 66 installed on the welded portion. Structure.

The plate welding apparatus 50 forms a welding portion 84 above the middle portion of the main frame 54, the welding portion 84 is a flux reservoir 60, strip wire reel 64, reducer 66, Y-blade assembly 68 and X-slide assembly 70.

The flux storage box 60 is connected to the upper side of the main vertical stand 86, the flux storage box 60 is contained in the flux is sprayed on the surface in contact with the flat plate 40 to facilitate the welding operation.

The main vertical table 86 is formed in a structure in which three vertical tables are connected and installed, and a strip wire reel 64 is installed in the middle of the main vertical table 86 to continuously supply the wire to the welding torch. do.

The main vertical stand 86 is provided with a reducer 66 at a lower end thereof, and the reducer 66 is connected with a wire 80 connected to one side of the controller 58.

The main vertical stand 86 is provided with a Y − blade assembly 68, which raises or lowers the welding torch along the Y axis.

An X-slide assembly 70 is installed at the lowermost part of the main vertical stand 86, which moves the weld 84 on the main frame 54 horizontally (left and right directions). It is a structure.

Looking at the effects of the present invention by the above-described configuration and operation are as follows.

Since the members installed inside the Moon Pool are laminated with a flat plate and manufactured by cutting, the repair and repair of the finished product can be reduced and smoothing can be obtained.

The plate welding apparatus is formed on the upper surface on which the flat plate is installed, so that the flat plate is automatically welded to a suitable size, thereby achieving precision of work.

Claims (2)

Arranging a plurality of plates on the upper surface of the horizontal stage and welding the joints of the plates; Laminating the welded one-stage flat plate to the rear side and stacking a new flat plate on top thereof to minimize welding deformation and welding the joints of the flat plate; Stacking a new plate on an upper surface of the plate stacked in two stages and welding a joint of the plate; Stacking a new plate on an upper surface of the plate stacked in three stages and welding a joint of the plate; Stacking a new flat plate on the upper surface of the four stacked flat plates and welding the joints of the flat plates; Stacking a new flat plate on the top of the five stacked flat plates and welding the joints of the flat plates; The plate cladding method according to the plate welding method comprising the step of laminating a new plate on the upper surface of the plate laminated in six stages and welding and finishing the joint of the plate. The main frame provided with the horizontal stand 72 on the upper surface of the vertical stand 74 is installed on both sides and the auxiliary horizontal stand 76 is provided adjacent to the vertical stand 74 formed on both sides of the horizontal stand 72 ( 54); A power supply unit 56 formed at one side of the vertical stand 74 of the main frame 54 to apply power to the plate welding apparatus 50; An auxiliary wheel 88 formed at the other side of the vertical stand 74 of the main frame 54 and interconnecting the driving belt 92 and the driving wheel 90; A controller 58 connected to the power supply unit 56 by a wire 80 and formed to install the power supply unit 56, and connected to an upper surface of the horizontal stand 72 by a left support 78; A main vertical stand 86 formed on the upper surface of the middle part of the horizontal stand 72 constituting the main frame 54 and formed in three pairs; A flux storage box 60 formed on one side of the main vertical table 86 and supplying the flux to an upper surface of the flat plate; A strip wire reel 64 connected to the middle of the main vertical platform 86 and continuously supplying a wire to a welding torch; It is formed on one side lower end of the main vertical stand 86 and draws the wire 80 from the controller 58 and connects it to the intermediate support 82, the wire 80 is connected to increase the speed of the welding portion 84 Regulating reducer 66; A Y-blade assembly (68) formed at an intermediate portion of the main vertical stand (86) to operate a welding torch up and down; And an X-blade assembly 70 installed at the lowermost portion of the main vertical stand 86 and connected to the upper surface of the horizontal stand 72 to drive the weld 84 to the left and right. Welding device.