KR20100001242A - Continuous constructing system and method for floating structures in the sea - Google Patents

Abstract

PURPOSE: A floating structure continuous construction system and a method thereof are provided to manufacture floating structure economically and rapidly by carrying out a floating structure on a sea manufacturing field. CONSTITUTION: A floating structure continuous construction method comprises following steps. The floating structure is manufactured inside a sea manufacture field according steps(S10). The inlet of the sea manufacture field is opened, so the seawater flows inside(S20). The floating structure is extruded from the sea manufacture field(S30). The inlet of the sea manufacture field is closed and the inner water is drained. Whether the floating structure having desired length is completed or not is determined(S50).

Description

Continuous Constructing System and Method For Floating Structures in the Sea}

The present invention relates to a system and method for constructing a floating structure at sea, and more particularly, to construct a floating structure in an offshore workshop, and to continuously and continuously connect the floating structure to produce a floating structure quickly and economically. The present invention relates to a system and method for continuously constructing floating structures at sea.

In recent years, the use of floating bodies (floating bodies) as a floating structure at sea is increasing. Examples of such floating structures include offshore plants, container terminals, oil storage facilities, offshore tunnels, or offshore parks. Floating structure is generally made of concrete, by connecting and assembling several floating concrete blocks of a rectangular parallelepiped shape having a hollow part to form a single floating concrete structure.

Here, as the size of the floating concrete block increases, the connection point for the formation of the final floating concrete structure is reduced, so that it is possible to manufacture the floating concrete structure with improved economic efficiency, constructability and structural stability. A conventional method for producing the same is presented.

Such a conventional technique is to produce a floating concrete block on land, and to produce a floating concrete block in the production site near the coast, and to build a floating concrete block using a lifting device such as a crane After launching, the floating concrete structure is completed by connecting and assembling the floating concrete blocks to each other in the sea. This method is to secure the production site, increase the size of the floating concrete structure, and move to the use position after the production. It is rarely used for reasons such as long distance transportation.

Another conventional technique is to use a floating concrete block by manufacturing in a dry dock (dry dock), this method is mainly used for the production of large vessels, in the dry dock (dry dock) provided on the shore adjacent to the shore Floating concrete blocks are made by floating floating concrete blocks, filling the sea water by opening the dry dock's gates, moving them to the sea, and connecting and assembling the floating concrete blocks to each other. How to complete the structure.

Meanwhile, as another conventional technology, as shown in FIG. 1, a floating concrete block is manufactured and used in a floating dock, and this method has recently been introduced and used in the manufacture of large ships.

As shown in FIG. 1A, the floating concrete block 111 is manufactured in the above-mentioned marine workshop in a state where the previously manufactured marine workshop is floated on the sea.

As shown in FIG. 1B, the floating concrete block 111 manufactured by sinking the marine fabrication station 105 to a certain degree is launched to the sea 101, and then moved out of the marine fabrication station 105 and a plurality of floating units. It is a method of completing the floating concrete structure 110 by assembling and assembling the concrete concrete blocks 111 and 112 with each other.

However, the method of manufacturing the floating concrete block 111 using the dry dock or offshore manufacturing site 105, respectively, to produce the floating concrete block 111, then floating concrete block 111 at sea ( 112) should be connected.

Therefore, the connection process of the concrete blocks 111 in the sea is difficult, there is a problem difficult to work.

In addition, since the separate concrete connection devices for connecting the floating concrete blocks (111, 112) must be provided, the work process is cumbersome and complicated.

The present invention is to solve the conventional problems as described above, the object is to construct a floating structure in the offshore manufacturing site and continuously connected by extrusion to the sea in the sea to be able to quickly and economically produce the floating structure To provide a system and method for continuous construction of floating structures.

And another object of the present invention is to improve the quality of the floating structure by the connection work between the floating structure is made of dry work in the offshore manufacturing site, it can be made of an integral structure instead of a separate connection device To provide an improved system and method for the continuous construction of floating structures at sea.

In order to achieve the above object, the present invention, in the apparatus for building a floating structure at sea,

It is floating on the sea, the entrance is formed on the front, the three sides of the wall is formed is formed, the marine workshop floating on the sea to maintain buoyancy;

Order means for blocking the inlet with a plurality of air tubes disposed at the inlet of the offshore fabrication site; And

Characterized in that it is configured to continuously produce and extrude the floating structure in the interior of the offshore fabrication plant; To provide a floating structure continuous construction system at sea.

In another aspect, the present invention preferably provides a floating structure continuous construction system at sea, characterized in that the order means is that the air tubes are disposed on the inner side and the bottom surface of both side walls of the inlet of the sea.

And the present invention preferably provides the floating structure continuous construction system at sea, characterized in that the extrusion means is made of a cylinder device disposed inside the marine fabrication plant, the extrusion of the floating structure to the marine fabrication site do.

In another aspect, the present invention preferably provides a floating structure continuous construction system at sea, characterized in that it further comprises a pumping device for draining from the inside of the sea yard.

In order to achieve the above object, the present invention provides a construction method for building a floating structure at sea,

Step-by-step manufacturing of the floating structure in the sea yard;

Opening the inlet of the marine workshop to introduce seawater into the interior;

Extruding the floating structure from the offshore factory;

Closing the inlet of the offshore plant and draining the interior; And

Determining whether a floating structure having a desired length is completed; floating in the sea, wherein the floating structure is constructed by continuously manufacturing, connecting, and extruding the floating structure in the interior of the offshore fabrication site. Provides a method of continuous construction of formula.

In addition, the present invention preferably is the step of introducing the seawater floating structure in the sea, characterized in that the inflow of the seawater through the inlet of the marine production site by shrinking the air tube of the order means provided at the inlet of the marine production site Provides a continuous construction method.

And preferably, the step of extruding the floating structure from the offshore production site provides a method for continuous construction of floating structures on the sea, characterized in that the extrusion is performed while the offshore manufacturing site is moved backward from the floating structure.

According to the present invention, by constructing the floating structure by dry work in the marine fabrication plant and continuously connecting the floating structure, the floating structure can be manufactured quickly and economically, thereby reducing the construction cost.

In addition, according to the present invention, the connection work between the floating structure is made by the dry land work in the offshore manufacturing site, the floating structure can be made of an integrated structure instead of a separate connection device to improve the construction quality of the floating structure In addition to this, it is possible to construct a structurally stable offshore structure.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Floating structure continuous construction system (1) at sea according to the present invention, as shown in Figure 2 as a whole, to build a floating structure 10 in the sea while the floating structure ( 10) is a device that implements an incremental launching method (ILM) configured to continuously manufacture and extrude from the offshore manufacturing site 20.

Floating structure continuous construction system 1 according to the present invention is provided with an offshore workshop 20 floating on the sea, such a marine workshop 20 can be made of steel structures, the front "" type The inlet 22 is formed, the three-sided wall is formed, it is a structure floating on the sea by maintaining buoyancy itself.

Such an offshore fabrication site 20 is provided with an ordering means 30 at its inlet 22, such an ordering means 30 having a plurality of air tubes 32. It is a structure to prevent it.

3 and 4, the air tube 32 is formed on both the sidewalls 23a and the bottom surface 23b of the inlet 22 of the offshore plant 20. As shown in FIGS. "The structure is arranged fixed in shape,

When the floating structure 10 is located at the inlet 22 of the marine fabrication site 20, the order means 30 expands toward the outer surface of the floating structure 10 so as to be in close contact with the marine production from the outside. Prevent water from entering the intestine 20.

In such ordering means 30, the air tubes 32 can rapidly inject air by themselves through air injection mechanisms such as a compressor (not shown) and an extrusion tank (not shown) provided in the offshore manufacturing site 20. Alternatively, a separate vent line may be provided to contract air from the expanded state.

Therefore, the order means 30 as described above, when the air tube 32 is made of a rubber material with good elasticity, respectively, protrudes from the inlet 22 of the offshore manufacturing site 20 to strongly strengthen the floating structure 10 side. It adheres closely and functions. As well as the air is reduced in size shrinks to the inside of the sea yard 20.

In addition, the floating structure continuous construction system 1 according to the present invention is located in the interior of the marine fabrication site 20 and the floating structure 10 produced in the interior of the inlet 22 of the marine fabrication site 20 And extrusion means 50 for advancing forward through it.

The extrusion means 50 is composed of a cylinder device disposed inside the offshore manufacturing site 20, which is to extrude the floating structure 10 with respect to the offshore manufacturing site 20, preferably a hydraulic or pneumatic cylinder It is made of any one of them.

In such an extrusion means 50, the cylinder body 52 is built into the lower pit 26 of the offshore fabrication site 20, and the rod 54 is equipped with a push rod 56 at the tip.

Such extrusion means 50 is pushed forward when the floating structure 10 is built in the interior of the offshore manufacturing site 20, in this case, the push rod 56 provided at the tip of the rod 54 ) Is a rotatable structure and is housed in the pit 26 of the offshore fabrication site 20.

Then, when the rod 56 is rotated, it protrudes from the pit 26 of the marine fabrication site 20 and is configured to push the lower end of the floating structure 10 located inside the marine fabrication site 20.

In addition, the present invention further includes a pumping device 60 for draining from the inside of the sea yard 20, such a pumping device 60 is the water introduced into the inside of the sea yard 20 to the outside The structure can be discharged quickly.

Unexplained reference numeral 80 is a collecting trench formed inside the marine fabrication site.

Floating structure continuous construction system 1 in the sea according to the present invention configured as described above is the offshore workshop 20 in a state of blocking the inlet 22 of the offshore production site 20 by using the order means 30 ) To produce a floating structure (10) dry inside.

Such a floating structure 10 is a structure floating on the sea as a buoyancy itself to form a buoyancy space therein. And when the floating structure 10 is built in the marine fabrication plant 20 as described above, steam curing may be performed to promote curing of concrete.

Then, when the manufacturing of the first floating structure (10a) is completed, the air tube 32 in the order means 30 is exhausted and contracted to allow water to flow into the interior of the offshore fabrication site (20).

Thus, even if water is introduced into the sea yard 20, the sea yard 20 is floated in a stable state in a stable state as the water level is lowered only due to its own buoyancy.

As described above, the extrusion operation is performed by using the extrusion means 50 in the state where seawater is introduced. In this case, the extrusion unit 50 operates the cylinder device, and the rod 54 is moved forward by a predetermined length of the floating structure ( 10) is extruded.

As such, when the floating structure 10 is forced by the extrusion means 50, the floating structure 10 is advanced from the sea yard 20 through the inlet 22 to the front.

When the air tube 32 is expanded by operating the order means 30 again in such a state, the first floating structure 10a and the offshore manufacturing site 20 are caused by the expansion force of the air tube 32. The gap therebetween is blocked by the air tubes 32 so that there is no additional inflow of seawater into the sea yard 20.

When the pumping device 60 is operated in such a state, the water introduced into the sea yard 20 can be drained to the outside to produce another floating structure 10b inside the sea yard 20. Space is obtained.

Therefore, the drainage operation is completed as described above, the water is drained from the interior of the marine fabrication plant 20, and a dry working environment is created, and then the second stage floating type is connected to the rear of the first floating structure 10a that has already advanced. The structure 10b is manufactured, connected and constructed.

As described above, a dry environment is formed in the marine fabrication site 20 so that connection and production between the floating structures 10a and 10b are made, thereby ensuring good quality.

When the second floating structure 10b is manufactured as described above, the air tube 32 of the ordering means 30 is contracted again, and water is introduced into the marine fabrication site 20, and then the extrusion means ( 50), the second floating structure 10b is extruded forward.

Accordingly, when the second floating structure 10b is advanced, the first floating structure 10a is advanced to the sea, and when the inlet 22 of the full-loading dock 20 is blocked and drained, the interior of the marine workshop 20 is drained. There is again a space for manufacturing the third floating structure (10c).

Through this process, the manufacturing of the floating structure 10 may be performed by manufacturing, connecting, and extruding the floating structures 10, and then the air tube 32 of the ordering means 30 may be similarly manufactured. ) To contract the seawater into the sea yard 20, and then extrude again, block the inlet 22 of the sea yard 20 through the ordering means 30, drain the n +1 will be able to build and connect the floating structure (10).

Floating structures 10 launched in the sea in this process can be fixed by the mooring device 85, if it is fixed through the mooring device 85, in the extrusion operation as shown in FIG. The offshore workshop 20 advances the newly constructed floating structure 10 while reversing.

Hereinafter, the floating structure continuous construction method (S) at sea according to the present invention will be described step by step in more detail with reference to FIG.

Floating structure continuous construction method (S) in the sea according to the present invention is first made in step (S10) to produce a floating structure (10) step by step (dry type) inside the offshore fabrication site (20) .

This is because the working environment for manufacturing the floating structure 10 in the interior of the offshore fabrication site 20 is a dry working environment in which water is removed, thereby maintaining the construction quality of the floating structure 10 excellently through such a working environment. Can be.

Next, a step (S20) of introducing the seawater into the inside by opening the inlet 22 of the marine production site 20 is performed.

In this case, the inflow step (S20) of the sea water contracts the air tube 32 of the order means 30 provided at the inlet 22 of the offshore production site 20 to inlet 22 of the offshore production site 20 As it is to be introduced into the sea water, by filling the sea water in the sea yard 20 to minimize the resistance due to the water pressure received from the sea during the extrusion operation of the floating structure (10).

Next, the step (S30) of extruding the floating structure 10 from the offshore production site 20 is made, which is made through a cylinder device which is an extrusion means 50 provided inside the offshore production site 20. When the extrusion means 50 is operated between the floating structure 10 and the offshore fabrication site 20, the floating structure 10 is advanced or the floating structure 10 is connected to the mooring device 85. If the position is fixed by the extrusion from the floating structure 10 while the marine fabrication site 20 is made.

Then, the step (S40) is made to close the marine production site 20 and drain the inside.

After the extrusion is performed in this way, in order to build a new floating structure 10, a dry environment must be built inside the marine workshop 20. For this purpose, the inlet 22 of the marine workshop 20 is first ordered. As the means 30, the membrane is then drained to drain the water from the interior of the offshore fabrication site 20 to effect drainage.

Next, a step (S50) of determining whether the floating structure 10 of the desired length is completed is made, and if the floating structure 10 of the desired length is not completed, additionally, the offshore workshop 20 Continuously manufacturing, connecting and extruding the floating structure (10) in the interior of the process repeatedly, and when the floating structure 10 of the desired length is completed through this process, the floating structure of the sea (10) Close the build.

As described above, the present invention constructs a floating structure 10 in a dry type in the floating state of the sea in the state of floating at sea, and continuously connects it to extrude into the sea to perform a kind of ILM (Incremental Launching Method) method. By implementing the floating structure 10 can be quickly and economically produced. Therefore, the construction cost can be reduced.

In addition, the present invention can not only improve the construction quality of the floating structure 10, but also structurally because the floating structure 10 can be built of a concrete material as an integral structure instead of a separate connection device. It is possible to build stable offshore structures.

Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to such a specific structure. Those skilled in the art will be able to variously modify or change the embodiments of the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Nevertheless, it will be apparent that all such modifications or design modifications to such simple embodiments will clearly fall within the scope of the present invention.

Figure 1 a, b is an explanatory view showing a technique for producing a concrete floating structure in the floating dock (floating dock) according to the prior art;

2 is a side cross-sectional view of a floating structure continuous construction system at sea according to the present invention from the side;

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is a perspective view showing in more detail the degree means provided in the floating structure continuous construction system at sea according to the present invention;

5 is an explanatory view showing a state in which the offshore manufacturing plant is reversed when the extrusion operation is performed in the floating structure continuous construction system in the sea according to the present invention;

Figure 6 is a flow chart showing a step-by-step method for the continuous construction of floating structures at sea in accordance with the present invention.

<Description of Symbols for Major Parts of Drawings>

1 ...... Floating Structure Continuous Construction System at Sea

10,10a, 10b, 10c ..... Floating Structures 20 ..... Offshore Workshop

22 ..... Entrance 23a .... Both Sidewalls

23b .... floor side 26 ..... feet

30 ..... order means 32 ..... air tube

50 ..... Extrusion means 52 ..... Cylinder body

54 ..... load 56 .....

60 ..... pumping device 80 ..... catch trench

85 ..... Mooring 101 ..... Nautical

105 ..... Marine Workshop 110 ..... Floating Concrete Structures

111,112 ..... Floating Concrete Blocks

S ...... Method of continuous construction of floating structures at sea

S10 .... step by step manufacturing floating structures inside the offshore workshop

S20 .... Opening the inlet of the marine workshop and introducing seawater into the interior

S30 .... extruding the floating structure from the offshore factory

S40 .... closing the inlet of the marine workshop and draining the interior

S50 .... determining whether a floating structure of desired length is completed

Claims (7)

In the apparatus for building a floating structure at sea, It is floating on the sea, the entrance is formed on the front, the three sides of the wall is formed is formed, the marine workshop floating on the sea to maintain buoyancy; Order means for blocking the inlet with a plurality of air tubes disposed at the inlet of the offshore fabrication site; And Characterized in that it is configured to continuously produce and extrude the floating structure in the interior of the offshore workshop, including; extrusion means for moving forward located through the inlet of the offshore production site located in the interior of the marine fabrication factory Floating structure continuous construction system at sea. 2. The system of claim 1, wherein the ordering means comprises air tubes disposed at both the inner sidewall and the bottom surface of the inlet sidewall of the offshore fabrication site. The system of claim 1, wherein the extrusion means comprises a cylinder device arranged inside the marine fabrication plant, and extrudes the floating structure with respect to the marine fabrication plant. The system of claim 1, further comprising a pumping device for draining from the interior of the offshore fabrication site. In the construction method of building a floating structure at sea, Step-by-step manufacturing of the floating structure in the sea yard; Opening the inlet of the marine workshop to introduce seawater into the interior; Extruding the floating structure from the offshore factory; Closing the inlet of the offshore plant and draining the interior; And Determining whether a floating structure having a desired length is completed; floating in the sea, wherein the floating structure is constructed by continuously manufacturing, connecting, and extruding the floating structure in the interior of the offshore fabrication site. Method of continuous construction of formula structure. The method according to claim 5, wherein the step of introducing the seawater is a continuous structure of the floating structure at sea, characterized in that the inflow of the seawater through the inlet of the offshore production site by shrinking the air tube of the order means provided at the inlet of the offshore production site Construction method. 6. The method of claim 5, wherein the step of extruding the floating structure from the marine fabrication site is performed by extrusion while the marine fabrication plant is moved backward from the floating structure.

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