KR101117927B1 - Construction method of marine structure - Google Patents

Abstract

PURPOSE: A marine structure construction method is provided to reduce construction time and costs by making a working condition like land. CONSTITUTION: A marine structure construction method is as follows. A plurality of supporting pile is established in the submarine ground. The bottom bracket is established on the lower part of the supporting pile(S22). A top bracket is established in the upper of the bottom bracket(S23). The structure is established on the upper side of the top bracket in order to be exposed to sea water. The structure is up pulled and to remove the top bracket. The top end portion of the structure is settled on the lower bracket which is exposed to sea water.

Description

Construction method of marine structure

The present invention relates to a construction method for constructing an offshore structure, and more particularly, in a construction method for installing a structure on an offshore, a pile installation step of installing a plurality of support piles on a seabed, and a lower bracket under the support pile. And installing a bracket for installing the upper bracket on the upper side of the lower bracket, and installing the structure on the upper side of the upper bracket so that the structure is exposed to the sea, and lifting the structure and lifting the upper bracket. Including the lifting and seating step of seating on the lower bracket with the upper end of the structure exposed to the sea by removing the structure, large equipment for transporting and launching the structure is unnecessary, and the environment is reduced by creating an environment such as land construction. Construction of offshore structures to increase work efficiency and shorten construction period Relate to.

In general, as a method of installing a structure on the sea, a method of constructing a structure after construction of a temporary curtain and a method of manufacturing the structure on land and installing it on the sea after transportation are mainly used.

The construction method using the former temporary barrier is a temporary structure to secure the dry construction area below the water surface, and after constructing the structure of the order wall that surrounds the construction area with earth or sheet pile, etc. How to install.

However, the above method is excessively expensive for the construction of the temporary curtain, infiltration water flows into the workplace, the workability and pumping costs are additionally generated, and the construction period for the temporary curtain construction is additionally generated. In addition, there is a disadvantage that the work space is narrowed due to the nature of the temporary film, the workability is reduced.

On the other hand, the method of manufacturing the structure onshore and installed on the sea after transport has mainly used the hoisting method of lifting and installing the structure using a large offshore crane ship.

 However, the hoisting method by the crane was greatly influenced by the hoisting capacity of the crane and the offshore working conditions of the crane ship, that is, the space for mooring, depth, weather currents, and the like, and the size and weight of the structure were limited.

In addition, the stability of construction is not secured enough, so when manufacturing the structure, it is necessary to make a small block in accordance with the lifting capacity of the crane, so that the connection work in the field is incurred a lot of costs, leaks between blocks, and handling super-heavy structures The increased risk of work incurred.

In addition, in some cases, a combination of two cranes in combination hoisting requires a more sufficient working space to prevent interference between the mooring devices of the tip, construction accuracy is required, and construction stability is also not secure enough It was.

In particular, when using the offshore crane ship in a shallow depth of water is required a large dredging work to ensure the workability and stability of the mobilized offshore equipment, there is a problem that the construction period is long and the cost is increased.

Republic of Korea Patent Publication 10-0658882 (2006.12.11) "Marine structure installation method and its device"

Therefore, an object of the present invention is to solve such a conventional problem, by constructing a structure by constructing a temporary facility on the upper side of the bracket installed on the support pile fixed to the seabed ground, to create a working condition such as land, work efficiency To provide a construction method for offshore structures that can increase and shorten the construction period.

In addition, since the structure is manufactured at the temporary facility on the sea and is simply mounted on the lower bracket installed in the water by using the lifting part, it is unnecessary to make the on-shore production, thus shortening the construction period and reducing the cost for sea transport. To provide a hypothesis.

The object is, according to the present invention, in the construction method for installing the structure on the sea, pile installation step of installing a plurality of support piles on the seabed ground; And, install a lower bracket on the lower portion of the support pile, the lower Bracket installation step of installing the upper bracket on the upper side of the bracket; And, Installing the structure to install the structure on the upper side of the upper bracket so that the structure is exposed to the sea; And, lifting the structure to remove the upper bracket Lifting and seating step of seating on the lower bracket with the upper end of the structure exposed over the sea; is achieved by the offshore structure construction method comprising a.

In addition, the bracket installation step is a lower bracket installation step of installing the lower bracket by adjusting the height so that the lower bracket supports the lower surface of the structure; and, an upper bracket installation step of installing the upper bracket to the same height; It is preferable to include.

In addition, the bracket installation step is the air tank installation step of installing the air tank in the lower bracket installation position of the support pile and discharge the seawater inside to establish a state for installing the lower bracket; and, the structure It is preferable to further include a; waterproofing member installation step of installing a waterproofing member on the upper surface of the lower bracket in close contact to prevent the inflow of sea water.

The apparatus may further include: installing a temporary facility to provide a water space for installing the structure at sea on the upper side of the upper bracket prior to the installation of the structure; wherein the structure is installed on the upper side of the temporary facility It is preferable.

In addition, the temporary facility preferably includes a workbench for providing a work space in the water and the formwork is formed on the upper surface of the workbench to form a lower shape of the structure so that the lower surface of the structure is matched to the lower bracket.

In addition, the step of installing the structure is a substructure installation step of installing a wall for partitioning the internal slab and the base slab of the substructure that is the foundation of the structure on the upper portion of the temporary installation; and, when installing the foundation slab lifting the substructure It is preferable to include; anchor installation step of installing an anchor for.

In addition, the lifting unit installation step of installing a support member for connecting the upper end of the plurality of support piles and the support member and the structure is installed after the structure installation step; preferably.

In addition, the seawater discharge step of discharging the seawater introduced into the lower structure after the lifting and seating step; and a filling step of filling the filler between the support pile and the foundation slab; And, seated on the upper bracket It is preferable to further include a substructure fixing step consisting of; a fixing bracket installation step of installing a fixing bracket on the support pile of the upper part of the foundation slab to prevent the flow by buoyancy by fixing the lower structure.

In addition, the step of fixing the substructure is preferably performed for each space partitioned in the outer order in the interior of the substructure partitioned by the wall.

The demolition step of removing the support member and the elevating part after the fixing the lower structure and cutting the support pile exposed to the upper part of the foundation slab may be further included.

In addition, the lower slab installation step of installing a lower slab to bury the upper portion of the base slab and the fixing bracket after the demolition step; preferably further comprises a.

In addition, after the lower slab installation step, the upper structure installation step of installing the upper structure on top of the lower structure; preferably further comprises a.

According to the present invention, by constructing a temporary structure on the upper side of the bracket installed on the support pile fixed to the seabed ground, construct the structure, the construction of offshore structures that can increase the work efficiency and shorten the construction period by creating working conditions such as onshore This is provided.

In addition, since the structure is manufactured at the temporary facility on the sea and is simply mounted on the lower bracket installed in the water by using the lifting part, it is unnecessary to make the on-shore production, thus shortening the construction period and reducing the cost for sea transport. Hypothesis techniques are provided.

1 is a flow chart of the present invention marine structure construction method,
2 to 14 is a view showing a construction method of the marine structure construction method of the present invention.

Prior to the description, components having the same configuration will be representatively described in one embodiment using the same reference numerals.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the offshore structure construction method according to an embodiment of the present invention.

1 is a flow chart of the marine structure construction method of the present invention, Figures 2 to 13 are views showing the construction method for each step of the marine structure construction method of the present invention.

Referring to Figure 1, the construction method for offshore structures according to the present invention, pile installation step (S10), bracket installation step (S20), temporary installation step (S30), structure installation step (S40), lifting unit installation Including the step (S50), lifting and mounting step (S60), the lower structure fixing step (S70), the dismantling step (S80), the lower slab installation step (S90), the upper structure installation step (S100) It is composed.

The present invention relates to a method for constructing a structure that is a foundation of a building to build a building on the sea, referring to FIG. 15, the structure according to the present embodiment is installed in the water and is the foundation 10 and the foundation. The upper structure 20 is installed on the lower structure 10 and is exposed to the sea level.

Referring to Figure 2, the pile installation step (S10) is a step of driving a plurality of support piles 31 for supporting the self-weight of the structure on the seabed using the sea helm, the position where the structure is to be installed and the driving position of the pile After surveying, install a plurality of support piles 31 at the design position to be fixed to the seabed ground and the other end to be exposed to the sea level.After installation, the stability is checked through the evaluation of bearing capacity, verticality and pile position check. It is desirable to.

On the other hand, in the present embodiment, the support pile 31 uses a steel pipe, and after driving, the anticorrosive member 32 is installed at a predetermined position of the support pile 31 to prevent corrosion of the support pile 31. Prevent corrosion.

Bracket installation step (S20) is installed in the tank mounting tank (40) in the lower bracket (41) installation position of the support pile and the tank tank installation step (S21) for discharging sea water, and the lower portion of the support pile 31 Lower bracket installation step (S22) for installing the bracket 41, waterproof member installation step (S23) for installing the waterproof member 42 on the upper surface of the lower bracket 41, and the upper portion of the support pile 31 It is configured to include an upper bracket installation step (S24) for installing the bracket (43).

Referring to Figure 3, the tank installation step (S21) is installed in the tank mounting tank 40 in the installation position of the lower bracket 41 located in the water and discharge the sea water to easily install the lower bracket (41) It is a step to create an environment for doing so.

Lifting tank 40 is made of a cylindrical shape is installed so that the lower portion is installed at a lower position than the lower bracket (41) installation position and exposed over the water surface, rubber material between the tank and the support pile (31) The order member (not shown) is installed to prevent the inflow of sea water.

Therefore, by discharging the seawater inside the air tank 40 and preventing the inflow of sea water, the lower bracket 41 can be easily operated by working in the air tank 40 without installing the lower bracket 41 in the water. ) Can be installed.

Referring to Figure 4, the lower bracket installation step (S22) is to install the height of the lower bracket 41 according to the shape of the lower surface of the lower structure 10, so that the lower surface of the lower structure 10 is seated on the lower bracket (41). The adjustment step is to install on the support pile (31).

As shown in FIG. 6, in this embodiment, the height of the lower bracket 41 is differently installed so as to correspond to the shape of the lower surface of the lower structure 10.

Waterproof member installation step (S23) is a waterproof member 42 to prevent seawater from penetrating the space between the support pile 31 and the lower structure 10 when the lower structure 10 is seated on the upper surface of the lower bracket (41). As a step of installing the waterproof member 42 in this embodiment, a rubber pad of a predetermined thickness is used, and is installed by mounting the waterproof member 42 on the upper surface of the lower bracket 41 installed.

On the other hand, after the waterproofing member installation step (S23) is completed, the installed tank 20 is removed.

The upper bracket installation step (S24) is a step of coupling the upper bracket 43 to the support pile 31 by bolts so as to be dismantled on the upper portion of the support pile 31 exposed to the sea level.

At this time, the upper bracket 43 is preferably installed on the sea surface so that the temporary facility 50 to be described later is installed on the sea.

The provisional installation step (S30) is a step of providing a temporary work space by installing the provisional facility 50 on the upper bracket 43, it comprises a worktable installation step (S31) and formwork installation step (S32).

Referring to Figure 5, the work table installation step (S31) is a step of installing a work platform 51 for providing a marine work space, the main beam on the upper surface of each upper bracket 43 installed in the plurality of support piles 31 (52) is fixed to the bolts, and installed on the top surface of the main beams 52 to fix the cross beams 53 with bolts so as to intersect with the main beams 52, the support wood on the top surface of the cross beams (53) After arranging a plurality of 54 at predetermined intervals, the floor 55 is provided on the upper surface of the support timber 54.

Therefore, as described above, by installing the work bench 51 on the sea, a work environment such as onshore is created to increase work efficiency and shorten the construction period.

In the present embodiment, the main beam 52 and the cross beam 53 are H-shaped steel, and the flooring material 55 is plywood, but is not limited thereto.

Referring to Figure 6, the formwork installation step (S32) is a step of installing the formwork 56 to form the shape of the substructure 10 so that the lower structure 10 is matched and seated on the lower bracket (41), In the embodiment, the formwork 56 is installed to correspond to the shape of the lower surface using a general Eps Block (Expanded Polystyerene Block) on the upper surface of the finished work table 51.

Referring to FIG. 6, the structure installation step S40 is a step of manufacturing the substructure 10, and includes a substructure installation step S41 and an anchor installation step S42.

Substructure installation step (S41) is to install the reinforcement in the formwork 56 installed on the upper surface of the workbench 51 and to build the substructure 10 including the foundation slab 11 and the wall 12 by placing concrete In the portion through which the support pile 31 penetrates, a hole is formed to be about 20 cm larger than the diameter of the support pile 31 so as to prevent friction and interference with the support pile 31 when the lower structure 10 descends.

The wall 12 is provided with an outer wall 13 and an inner wall 14 partitioning the space of the lower structure 10 on the upper surface of the foundation slab 11, in this embodiment the foundation slab as shown in the figure Although a plurality of inner walls 14 are provided inside the outer wall 13 surrounding the 11 to partition the inside, the present invention is not limited thereto and may be changed according to a designer's design intention.

On the other hand, in order to facilitate the installation of the upper structure 20 in the upper structure installation step (S100) to be described later, the working scaffold 21 is provided to protrude outward on the upper surface of the outer wall (13).

Anchor installation step (S42) is a step of installing the anchor 15 to raise the lower structure 10 by the lifting unit 60 to be described later, so that the anchor 15 is exposed to the upper portion of the foundation slab (11). Installed and installed in the same number as the hydraulic jack 62 to be described later, it is preferable to install the substructure installation step (S41) and the anchor 15 at the same time.

Referring to FIG. 7, the elevating unit installation step S50 includes an elevating unit 60 including a supporting member 61, a hydraulic jack 62, and an elevating steel bar 63 to lift and lower the lower structure 10. As a step of installing, after installing the support member 61 is provided with a plurality of the upper end of the support pile 31 of the H-shaped steel and firmly connected, and after installing the hydraulic jack 62 on the upper surface of the support member 61, The lifting and lowering steel bars 63 are respectively installed on the anchor 15 and the hydraulic jack 62 provided on the foundation slab 11.

In the present embodiment, four hydraulic jacks 62 as one group, seven groups and a total of 28 hydraulic jacks are installed on the support member 61, and the steel rods for elevating the respective anchors 15 and the hydraulic jacks 62 63).

At this time, the hydraulic jacks 62 grouped in each group are connected to the same pump P, and it is preferable to simultaneously lift and lift the whole structure at the time of lifting and lowering. It is preferable to design the type and number of installation of the hydraulic jack 62 in consideration of the load.

8 to 10, the lifting and seating step (S60) removes the workbench 51 and the formwork 56 after lifting the lower structure 10, the lifting unit 60 is installed on the lower bracket 41 This is the step of seating.

At the same time, the hydraulic jack 62, which is bundled into seven groups, is hydraulically applied to lift the lower structure 10, and the workbench 51, the formwork 56, and the upper portion in the state in which the lower structure 10 is lifted. Remove the bracket (43).

Thereafter, the lower structure 10 is lowered at a low speed and seated on the upper portion of the lower bracket 41. At this time, buoyancy does not occur because seawater flows into the space formed between the support pile 31 and the foundation slab 11. Do not. In addition, when descending, the waterproof member 42 formed on the upper surface of the lower bracket 41 is in close contact with the lower surface of the lower structure 10 to serve as the order during construction.

Since the inside of the substructure 10 is filled with seawater, buoyancy does not occur and thus can maintain an equilibrium state.

As described above, since the lower structure 10 is manufactured in the temporary facility 50 without sea transportation, and the lower structure 10 is simply lifted and seated by using the lifting unit 60, the cost is reduced and the construction period is saved. It works.

The lower structure fixing step (S70) is a step for fixing the lower structure 10 seated on the upper surface of the lower bracket 41, seawater discharge step (S71), filling step (S72), and fixing bracket installation step ( S73), each step is performed in the outer order from the inside of the inner space of the substructure 10 partitioned by the inner wall (14).

Referring to FIG. 11, first, the seawater of the area A is discharged to the outside using a pump P, and the filler 71 is filled in the space between the support pile 31 and the base slab 11 while maintaining the area A in a dry state. ) And the fixing bracket 72 is installed on the upper surface of the support pile 31 and the foundation slab 11.

At this time, the filler 71 is used, but is not limited to non-condensed concrete containing a fastener.

By performing the above-described method in the order of Zone A, Zone B and Zone C in the substructure 10, respectively, stability of buoyancy of the seawater and internal drying state are ensured.

Referring to Figure 12, the demolition step (S80), after the lower structure 20 is seated on the lower bracket 41, in order to install the lower slab 16 and the upper structure 20 to be described later, dismantling unnecessary facilities As a step, the support pile 31 and the anchor 15 and the lifting portion 60 protruding to the upper portion of the upper bracket 43 are removed.

At this time, after cutting the support pile 31, the head reinforcement reinforcement is placed inside the support pile 31, concrete is poured to strengthen the head, and the water-expandable index agent is applied around the support pile 31 for waterproofing. To place.

Referring to Figure 13, the lower slab installation step (S90) is carried out after the dismantling step (S80) is completed, by installing the lower slab 16 on the upper surface of the foundation slab 11 exposed the fixing bracket 72 The bottom surface of the substructure 10 is closed.

At this time, after the lower slab 16 is installed, it is preferable to chip the contact surface where the existing facility and the lower slab 16 is in contact with each other by chipping.

Referring to FIG. 14, in the upper structure installation step (S100), the inner wall 14 and the outer wall installed on the upper side of the lower slab 16 using the working scaffold 21 on the upper structure 10. 13) Finishing the construction of the structure by installing slabs and walls, and completing the installation of the structure by constructing other works such as construction, electricity, facilities, and firefighting.

After that, the construction of the building designed by the designer on the upper surface of the completed structure is completed.

As described above, by installing the temporary facility 50 on the support pile 31 fixed to the seabed ground and installing the structure only by vertical movement without horizontal movement at the installation position, by creating a working environment such as land, work efficiency is increased Quality can be secured, construction time is shortened, and the cost of transportation is reduced because there is no need for sea transport of the structure.

The scope of the present invention is not limited to the above-described embodiments but may be implemented in various forms of embodiments within the scope of the appended patents. Without departing from the gist of the invention as claimed in the patent scope, those skilled in the art to which the invention pertains are considered to be within the scope of the claims described in the present invention to various extents that can be modified.

10: substructure 11: foundation slab 12: wall 13: outer wall
14: internal wall 15: anchor 16: lower slab
20: superstructure 21: working step 31: support pile 32: anticorrosive member
40: lifting tank 41: lower bracket 42: waterproof member 43: upper bracket 50: temporary 51: work bench 52: main beam 53: cross beam 54: support wood 55: flooring 56: formwork 60: lifting portion 61: support member 62 : Hydraulic jack 63: Steel rod for elevating 71: Filling material 72: Fixed bracket

Claims (12)

In the construction method for installing the structure at sea,
A file installation step of installing a plurality of support files on the seabed;
Bracket installation step of installing a lower bracket on the lower portion of the support pile, the upper bracket on the upper side of the lower bracket;
A structure installation step of installing the structure on the upper side of the upper bracket so that the structure is exposed to the sea;
Lifting and seating step of lifting the structure and removing the upper bracket to be seated on the lower bracket in a state where the upper end of the structure is exposed above the sea; construction method of the offshore structure comprising a. The method of claim 1,
The bracket installation step may include a lower bracket installation step of installing the lower bracket by adjusting the height so that the lower bracket supports the lower surface of the structure; and an upper bracket installation step of installing the upper bracket at the same height. Offshore structure construction method characterized in that. The method of claim 2,
The bracket installation step may include installing the air tank to the lower bracket installation position of the support pile and discharging the seawater inside to establish a condition for installing the lower bracket; and, when mounting the structure The method of installing the offshore structure further comprises a; waterproofing member installation step of installing a waterproofing member on the upper surface of the lower bracket in close contact to prevent the inflow of sea water. The method of claim 3,
And a provisional installation step of installing a provisional facility for providing an aquatic space for installing the structure at sea above the upper bracket before the installation step of the structure; wherein the structure is installed on the upper side of the provisional facility Offshore structure construction method. The method of claim 4, wherein
The temporary facility includes a work platform providing a work space in the water, and a formwork formed on the upper surface of the work platform to form a lower shape of the structure so that the lower surface of the structure is matched to the lower bracket. Hypothesis method. The method of claim 5,
The installation step of the structure is a substructure installation step of installing a wall for partitioning the internal slab and the base slab of the substructure that is the foundation of the structure on the upper portion of the temporary installation; And, when the foundation slab installation Offshore structure construction method comprising the; anchor installation step of installing the anchor. The method of claim 6,
And a lifting unit installation step of installing a support member connecting the plurality of support pile upper ends and the lifting unit installed between the support member and the structure after the installation of the structure. The method of claim 7, wherein
Seawater discharge step of discharging the seawater introduced into the substructure after the lifting and seating step; And, Filling step of filling the filler between the support pile and the base slab; And, The lower seated on the lower bracket The offshore structure construction method of claim 1, further comprising a fixing bracket installation step of installing a fixing bracket on the support pile of the upper portion of the foundation slab to prevent the flow by buoyancy by fixing the structure. The method of claim 8,
And fixing the substructures for each of the spaces partitioned in the external order from the inside of the substructures partitioned by the wall. 10. The method of claim 9,
And removing the support member and the elevating unit after the fixing of the substructure and cutting the support pile exposed to the upper portion of the foundation slab. The method of claim 10,
And a lower slab installation step of installing a lower slab to bury the upper portion of the base slab and the fixed bracket after the dismantling step. The method of claim 11,
And an upper structure installation step of installing the upper structure on top of the lower structure after the lower slab installation step.

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