KR20140018651A - Construction method of split type pc house and split type pc house - Google Patents

Abstract

A construction method of a split type precast concrete (PC) house for a foundation of a structure on the water and a split type PC house are disclosed. The construction method of a split type PC house for a foundation of a construction on the water comprises: (a) a step of constructing a plurality of PC house sections, which compose one PC house, on land; (b) a step of mounting the multiple PC house sections on support brackets disposed on multiple piles respectively for the upper ends of the multiple piles, which are disposed on the ground over the water, to be held in holding holes of the PC house sections; and (c) a step of assembling the multiple PC house sections into the PC house; wherein the multiples PC house sections are made to be exposed on contact surfaces, which come into contact with each other in the step (c), and to be embedded with a bonding shape steel in the step (a), and the multiple PC house sections are connected with each other in the step (c). [Reference numerals] (AA) START; (BB) END; (S100) Construct multiple PC house sections, which compose one PC house, on land; (S300) Mount the multiple PC house sections on support brackets disposed on multiple piles respectively; (S500) Assemble the multiple PC house sections into the PC house; (S70) Inject molten metal into the casting mold; (S700) Discharge water inside the PC house through a drain guide hole; (S80) Remove a core from a casting and form a hollow; (S90) Draw the casting

Description

Split-type PC house construction method and split-type PC house for construction of water-based system {CONSTRUCTION METHOD OF SPLIT TYPE PC HOUSE AND SPLIT TYPE PC HOUSE}

The present application relates to a split PC house construction method and a split PC house for the construction of a water column.

Typically, footing foundations are constructed to position the pier foundation at a constant height in the water column. One of the methods for constructing a footing foundation is to use a PC house.

Specifically, to install the pile (Pile) on the ground of the cutlery and to fix the pedestal to the upper portion of the pile in order to mount the PC house on the pile, the PC house is installed on the pedestal. As such, when the PC house is constructed, the concrete is poured and cured in the PC house to construct footing, and then the piers, which are upper structures, are constructed. However, the conventional method for constructing such a PC house has the following problems.

As the PC house grows in size, the cost of marine cranes, such as floating cranes (F / C), which lift the PC house and mount it on piles to meet the load of the larger PC house, increases. It became. For example, there is a need for a large floating crane of more than 1200 tons depending on the load of the PC house produced, because the rental cost for such a large floating crane is expensive, there is a problem that the construction cost for the construction of the PC house takes a lot. Moreover, since there are a few large floating cranes in Korea, it was difficult to obtain a large floating crane in accordance with the PC house construction schedule.

In addition, as the size of the floating crane increases, the angle of the boom of the floating crane that lifts the PC house is also limited, making it difficult to secure flexibility in the construction of the PC house. There is a problem that is not stable in the construction of the PC house because it responds greatly to. For example, when a large floating crane is lifted by a large PC house, the center of the floating crane can be tilted due to the vibration caused by blue waves, which can cause the entire large PC house to be pulled to one side. There was a problem that the PC house construction is performed unstable.

The present application is to solve the above-mentioned problems of the prior art, to replace the large-scale (floating) crane of more than 1200 tons used for the construction of the PC house to transport the PC house by using a small off-shore (floating) crane The purpose of the present invention is to provide a split PC house construction method and a split PC house for the super-floor construction that can minimize the cost and improve the stability of PC house construction under the influence of the marine climate. .

As a technical means for achieving the above technical problem, the split type PC house construction method for the construction of a water source superstructure according to the first aspect of the present application, (a) by dividing one PC house into a plurality of PC house section on land Manufacturing; (b) mounting the plurality of PC house sections on support brackets installed on each of the plurality of piles such that upper ends of the plurality of piles installed on the water surface are mounted in pile mounting holes of the PC house section; And (c) assembling the plurality of PC house sections into the PC house, wherein in step (a), the plurality of PC house sections are joined to each other in contact with each other in step (c). The joining section steel is embedded to be exposed and manufactured, and in the step (c), the plurality of PC house sections may be coupled to each other by engaging with the joining section steel facing the joining section steel of each of the plurality of PC house sections.

On the other hand, the split PC house according to the second aspect of the present invention, a plurality of PC house section is formed to be divided into one PC house having a bottom plate and a wall surrounding the bottom plate; And a joining section steel embedded on the joining surface which is in contact with each other between the plurality of PC house sections so that the plurality of PC house sections are joined to each other, wherein the plurality of PC house sections are joined to face each other. It can be assembled by fastening between sections.

According to the aforementioned problem solving means of the present application, since one PC house is manufactured by dividing into a plurality of PC house sections, the marine (floating) crane individually lifts each of the plurality of divided PC house sections instead of one PC house. Can be mounted on file. As a result, the PC house can be constructed with a smaller off-shore (floating) crane without using a large off-shore (floating) crane, thereby reducing the cost and securing flexibility in PC house construction work. It can also improve the stability of PC house construction against the effects of marine climate.

Further, after seating a plurality of PC house sections, the PC house sections can be joined to each other by fastening between joining sections formed to be exposed on the joining surface between the PC house sections. Considering that the fastening between the houses should be made fast, the fastening can be made quickly through the fastening between the joining sections, and the fast fastening can ensure the integrity between the PC house sections and the watertightness. Not only can you save time and money, you can also improve PC house buildability.

1 is a flow chart of a split-type pc house construction method for the construction of a water column superconducting according to an embodiment of the present application.
2 is a flow chart of the steps of manufacturing a PC house according to an embodiment of the present application.
3 to 5 are schematic conceptual views for explaining step by step a method of manufacturing a PC house according to an embodiment of the present application.
6 is a schematic conceptual view illustrating a method of constructing a PC house in a file according to an embodiment of the present disclosure.
7 is a cross-sectional view of a split PC house according to one embodiment of the present application constructed on a pile.
8 is a schematic conceptual view illustrating the installation of the injury prevention bracket according to an embodiment of the present application to the file.
9 is a schematic conceptual view for explaining the tank tank according to an embodiment of the present application.
10 is a schematic plan view of a split PC house according to one embodiment of the present application constructed on a pile.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It should be understood, however, that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, the same reference numbers are used throughout the specification to refer to the same or like parts.

Throughout this specification, when a part is referred to as being "connected" to another part, it is not limited to a case where it is "directly connected" but also includes the case where it is "electrically connected" do.

Throughout this specification, when a member is " on " another member, it includes not only when the member is in contact with the other member, but also when there is another member between the two members.

Throughout this specification, when an element is referred to as "including " an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. The terms "about "," substantially ", etc. used to the extent that they are used throughout the specification are intended to be taken to mean the approximation of the manufacturing and material tolerances inherent in the stated sense, Accurate or absolute numbers are used to help prevent unauthorized exploitation by unauthorized intruders of the referenced disclosure. The word " step (or step) "or" step "used to the extent that it is used throughout the specification does not mean" step for.

Throughout this specification, the term " combination thereof " included in the expression of the machine form means one or more combinations or combinations selected from the group consisting of the constituents described in the expression of the machine form, And the like.

For reference, the terms related to direction or position (upper side, lower side, etc.) in the description of the embodiments of the present application are set based on the arrangement state of each structure shown in the drawings. For example, as shown in FIG. 7, the upper part may be the upper side, the lower side may be the lower side, and the like.

The present application relates to a split PC house construction method for the construction of the water column.

First, a split PC house construction method (hereinafter, referred to as a "split PC house construction method for construction of a seaweed plant") according to an embodiment of the present application will be described.

1 is a flow chart of a split type PC house construction method for the construction of a water column superconstruction according to an embodiment of the present application, Figure 2 is a flow chart of the steps of manufacturing a PC house according to an embodiment of the present application, Figures 3 to 5 Is a schematic conceptual diagram for explaining step by step a method of manufacturing a PC house according to an embodiment of the present application, Figure 6 is a schematic conceptual diagram for explaining a method for constructing a PC house in a file according to an embodiment of the present application 7 is a cross-sectional view of a split PC house according to an embodiment of the present application constructed on a pile, and FIG. 8 is a schematic conceptual view illustrating the installation of an injury prevention bracket according to an embodiment of the present disclosure on a pile. 9 is a schematic conceptual view for explaining a tank tank according to an embodiment of the present application, Figure 10 is a schematic diagram of a split PC house according to an embodiment of the present application constructed in a pile Top view.

Referring to FIG. 1, the split PC house construction method for the construction of the above-described water column includes splitting and manufacturing one PC house 1000 into a plurality of PC house sections 100 on land (S100).

The land as used herein may be a dock such as a water dock where the vessel can dock, and the PC house 1000 may be manufactured at the water dock.

In addition, as will be described later, the plurality of PC house sections 100 may be combined to form a PC house 1000.

Specifically, referring to FIG. 2, in step S100, the copper bar 30 and the formwork 40 are installed to correspond to the shape of the bottom plate 110 and the curtain wall 131 of the PC house 1000, and the reinforcing bars 21 are installed. Placing concrete (S110), the bottom plate 110 and the step of placing the concrete so that the curtain wall 131 is formed (S130), the formwork 40 to correspond to the shape of the wall 130 of the PC house 1000 It may include a step (S150) and placing the concrete so as to form the reinforcing bar 21 and the wall 130 is formed (S170).

Installing the grouping 30 and formwork 40 to correspond to the shape of the bottom plate 110 and curtain wall 131 in step S110, as shown in Figure 3, the bottom plate 110 is formed in a flat form Install the formwork 40 so that it can be, to form the curtain wall 131 at a predetermined distance upwards from the ground to the side, and to both sides of the space where the curtain wall 131 is to be formed It may mean that the formwork 40 is installed vertically from the ground. At this time, in order to install the formwork 40 for the formation of the bottom plate 110 at a predetermined distance from the ground to the upper side 30 may be used.

Likewise, installing the formwork 40 to correspond to the shape of the wall 130 in the step S150, as shown in Figure 4, so that the wall 130 is formed vertically to the ground, the wall 131 is It may mean that the formwork 40 is installed on both sides of the space to be formed. At this time, the formwork 40 erected to form the wall 131 may be installed in series with the formwork 40 erected to form the curtain wall 131. Accordingly, the wall 130 and the curtain wall 131 may be integrally formed, and since the curtain wall 131 may also be referred to as a wall located under the bottom plate 110, the wall 130 may be included in the wall 130. You can see.

In addition, the step (S100) of dividing the PC house 1000 into a plurality of PC house section 100 in the land (S100) is a plurality of so that the reinforcing bar 21 arrangement and concrete placing for the plurality of PC house section 100 is separated It can be performed in a state in which the section separating member 65 is disposed between the PC house section 100 of the.

Here, the section separating member 65 is a member disposed along the section separating line 60 as shown in FIGS. 3 to 5. For example, referring to the partially enlarged view of FIG. 3, the section separating member 65 may be interposed over the entire joint surface between the joint surfaces to separate the entire joint surface, but the joining section steel 300 is in contact with each other. Since the part can naturally be separated between the PC house section 100, the section separating member 65 may be disposed below the joining section steel 300.

Specifically, referring to the enlarged partial view of FIG. 3, the section separating member 65 has a plate shape, and the bottom plate 110, the wall 130, and the curtain wall 131 of each PC house section 100 are formed. It can be placed vertically in between. The section separating member 65 may have a height or width such that the separation between the PC house section 100 can be clear during the manufacturing of the bottom plate 110, the wall 130, and the curtain wall 131. .

Referring to FIG. 3, the reinforcing bar 21 constituting the bottom plate 110 and the wall 130 is placed and concrete is poured so as to correspond to the shape of the PC house 1000. In this case, the section separation line 60 is placed. Accordingly, the reinforcing bar 21 may be disposed and the concrete may be poured while the section separating member 65 is disposed.

Accordingly, when the plurality of PC house sections 100 are manufactured in one frame corresponding to the shape of the PC house 1000, the section separating member 65 is used for each of the plurality of PC house sections 100. Concrete can be spun and cured.

That is, if the section separating member 65 is not disposed at the time of manufacturing the PC house section 100, the plurality of PC house sections 100 should be spaced apart from each other to be manufactured in different frames. (1000) The working lines of tools, various machines, and workers used in manufacturing are lengthened, thereby unnecessary time is wasted.

However, as described above, when the section separating member 65 is disposed at the time of manufacturing the PC house 1000, the PC house section 100 can be easily manufactured as the PC house section 100 while the plurality of PC house sections 100 are manufactured together in one frame. Since it can be manufactured separately, the manufacturability of the PC house section 100 can be maximized.

Referring to the section separating line 60 shown in FIG. 3, the section separating member 65 may be disposed along the section separating line 60 not only when manufacturing the bottom plate 110 but also when manufacturing the wall 130. Can be. At this time, the section separating member 65 may be disposed perpendicular to the plane of the wall (130).

Referring to FIG. 2, in order to manufacture the PC house 1000, a step of installing the club 30 and the formwork 40 to correspond to the shape of the bottom plate 110 and the curtain wall 131 of the PC house 1000 is performed. S110 may be performed first.

Specifically, as shown in FIG. 3, the mold 40 may be installed at a predetermined distance upward from the ground to form the curtain wall 131. To this end, the mold 40 may be installed on the installed copper club 30 by installing the copper club 30.

 Reinforcing bar 21 may be disposed on the installed formwork 40 to form the reinforcing bar 20. As shown in a partially enlarged view of FIG. 3, the rebar 20 may include a rebar 21 and a position fixing rebar 23 to be described later.

In addition, the bottom of the PC house section 100 in the step of installing the barbed 30 and the formwork 40 and arranging reinforcing bars so as to correspond to the shape of the bottom plate 110 and the curtain wall 131 of the PC house 1000. Plate 110 may be formed with a hole for induction hole 111 to be described later.

 The drain induction hole 111 may be formed by embedding the discharge pipe 70 in the bottom plate 110.

As shown in the enlarged left portion of FIG. 7, the drain induction hole 111 may be formed by embedding the discharge pipe 70 to penetrate the bottom plate 110. In exemplary embodiments, when the reinforcing pipe 70 is disposed on the bottom plate 110, the exhaust pipe 70 may be embedded in the bottom plate 110 by being disposed together and then pouring concrete.

In addition, the step (S130) of placing the concrete so that the bottom plate 110 and the curtain wall 131 is formed, the equipment for placing concrete as shown in Figure 3 with respect to the formwork 40 in which the reinforcing bar 20 is formed ( 51) can be carried out by pouring concrete.

At this time, as shown in Figure 3 by the poured concrete, the concrete portion 50 may be formed, the reinforcing bar 21 and the discharge pipe 70 disposed in step S110 by the concrete may be embedded.

In addition, referring to FIG. 2, the wall 130 may be manufactured after the bottom plate 110 of the PC house 1000 is manufactured. In order to manufacture the wall 130, the step S150 of installing the formwork 40 and arranging the rebar 21 to correspond to the shape of the wall 130 of the PC house 1000 may be performed. Referring to FIG. 4, the wall 130 may be fabricated on the curtain wall 131. Accordingly, as described above, the wall 130 and the curtain wall 131 may be integrally formed.

In addition, referring to FIG. 5, in step S170, the concrete part 50 of the wall 130 may be formed by pouring concrete using the concrete placing equipment 51.

In addition, the step of installing the barrier 30 and the formwork 40 and placing the reinforcing bar 21 so as to correspond to the shape of the bottom plate 110 and curtain wall 131 of the PC house 1000 (S110) and the PC house In the step S150 of installing the formwork 40 and arranging the reinforcing bars 21 so as to correspond to the shape of the wall 130 of 1000, the joining section steel 300 is interposed between the section separating members 65. Can be installed.

At this time, when the section separation member 65 is removed, the joining section steel 300 may be installed so that the joining section steel 300 may abut each other. Referring to FIG. 3, when the joining section steel 300 is installed, a position fixing rebar 23 may also be installed.

That is, the joining steel 300 may be installed along the section separation line 60 on the bottom plate 110 and the wall 130. Accordingly, when the reinforcing bar 21 is disposed corresponding to the shape of the bottom plate 110 and the wall 130, the joining steel 300 may be installed together with the position fixing reinforcing bar 23, and the position fixing The placement position of the joining section steel 300 may be fixed to the rebar 21 by the reinforcing bar 23.

Specifically, referring to FIGS. 3 and 7, the joining steel 300 may be a c-beam.

As will be described later, the joining section steel 300 should be able to contact the joining section steel 300 of the other PC house section 100, and should be exposed to the surface with respect to the upper side of the bottom plate 110 c- Shape steel may be suitable. The c-beams may include a body 310 and an auxiliary body 330, as shown in FIGS. 3 and 7. In detail, the c-beam auxiliary body 330 includes a first auxiliary body 330 extending at right angles from an upper end of the body 310 and a second auxiliary body 330 extending at a right angle from a lower end of the body 310. It includes.

 However, in the present application, the joining section steel 300 is not limited to the c-section steel, and various section steels may be applied.

In detail, the joining steel 300 may be embedded so that the plurality of PC house sections 100 to be described later are exposed on the joining surfaces which come into contact with each other in the step S500 of assembling the PC house 1000.

Referring to FIG. 7, the joining section 300 is embedded along the section separation line 60. When the joining section 300 is a c-section, as shown in FIG. 7, the first PC house section ( The joining section steel 300 embedded in 101 is brought into contact with the joining section steel 300 embedded in the second PC house section 102. Specifically, the body 310 of the joining section 300 of the first PC house section 101 and the body 310 of the joining section 300 of the second PC house section 102 abut.

That is, the joining beams 300 are joined to the plurality of PC house sections 100 so that the body 310 of the joining beams 300 embedded in each of the plurality of PC house sections 100 abuts each other. The body 310 may be embedded to expose the surface of the bonding surface.

In addition, the joining steel 300 may be embedded in the PC house section 100 to partially expose the upper side of the bottom plate 110 of the PC house section 100 and the inside of the wall 130.

The PC house section 100 is assembled into the PC house 1000 by the connection between the joining section steels 300. Specifically, as shown in FIG. 7, the joining section 300 of the first PC house section 101 and the body 310 of the joining section 300 of the second PC house section 102 are in contact with each other. At the same time, the first auxiliary body 330 of the joining section steel 300 of the first PC house section 101 and the joining section steel 300 of the second PC house section 102 may be formed at the same time. Exposed upwards.

Similarly, in the wall 130, the PC house section 100 is buried in the joint surface which is in contact with each other, the joining section steel 300 is also the first auxiliary body 330 of the joining section steel 300 is the PC house 1000 It may be buried to be exposed to the inside of the wall 130 toward the interior of the.

As such, the joining section 300 embedded in each of the PC house section 100 is embedded to partially expose the upper side of the bottom plate 110 and the inside of the wall 130, thereby joining the upper side of the bottom plate 110. The surface of the molten steel 300 may be exposed, and the surface of the joining steel 300 may be exposed even inside the wall 130.

Accordingly, when the joining section steels 300 are joined to each other by welding or the like to join the plurality of PC house sections 100, the surface of the joining section steel 300 is exposed, so that the connection work becomes very easy. .

In addition, referring to FIG. 7, the second auxiliary body 330 of the c-beam 300 is different from the first auxiliary body 330 exposed to the upper side of the bottom plate 110 or to the inner side of the wall 130. It is embedded in the concrete of the 110 or the wall 130 to improve the bonding between the c-beam 300 and the concrete.

In addition, referring to Figure 1, the split type PC house construction method for the construction of the above-described water column so that the upper end of the plurality of pile 700 installed on the water surface in the pile mounting hole 113 of the PC house section 100 is mounted. And mounting the plurality of PC house sections 100 on the support brackets 10 installed on the plurality of piles 700, respectively (S300).

As shown in FIG. 6, the PC house section 100 manufactured on land may be seated on the support bracket 10 installed on the pile 700 installed on the water surface by the offshore crane 150. In this case, the offshore crane 150 may be a floating crane.

That is, the plurality of PC house section 100 is mounted on the pile 700 by the offshore crane 150, respectively, is mounted on the pile 700, then assembled and completed as one PC house 1000, PC The house 1000 may be referred to as a split PC house in the sense that a plurality of divided PC house sections 100 are formed in combination.

As shown in an enlarged partial view of the upper side of FIG. 7, the upper surface of the support bracket 10 has a water pad rubber pad along a lower circumference of the pile mounting hole 113 formed in the bottom plate 110 of the PC house section 100. 90) can be installed.

When the PC house section 100 is seated on the support bracket 10, there may be a space between the support bracket 10 and the PC house section 100, and water is piled along the space. It may be introduced between the outer circumference and the inner circumference of the pile mounting hole 113. However, if the water pad rubber pad 90 is installed on the upper surface of the support bracket 10, a predetermined space between the support bracket 10 and the PC house section 100 may be sealed to prevent water from entering the PC house 1000. Inflow can be minimized.

The split PC house construction method for the above-described construction of the water-receiving construction includes a plurality of files 700 before or after the step (S100) of manufacturing one PC house 1000 by dividing it into a plurality of PC house sections 100 on land. It may further comprise the step of installing the support bracket 10 in each.

That is, the support bracket 10 may be installed on each of the piles 700 before the PC house 1000 is installed on the plurality of piles 700.

According to Korean Patent No. 0540581 (registration number), the step of installing the support bracket 10 on the file 700 may be as follows.

Installing the support bracket 10 on each of the plurality of piles 700 may include installing a bottom member 510 of the air tank 500 around the pile 700, on the bottom member 510. Assembling the air tank 500 by mounting and engaging the peripheral member 530 of the air tank, draining the water in the air tank 500 assembled so that the support bracket 10 can be installed in a dry state And a step of installing the support bracket 10 in the pile 700 and dismantling the tank after injecting water into the tank.

Referring to FIG. 9A, the tank 500 includes a bottom member 510 installed along the outer circumference of the pile 700 and a circumferential member 530 installed on the bottom member 510. Can be. As shown in FIG. 9A, the circumferential member 530 may be located on an end of the bottom member 510, and as shown in FIG. 9B, the circumferential member 530 may be a pile ( It may be spaced apart from the 700 to surround the circumference of the pile 700.

Accordingly, referring to FIG. 9B, when the space between the member 530 and the pile 700 is formed, and the air tank 500 is installed on the pile 700, the air tank 500 is provided. The pumping operation may be performed to remove the water in the space between the second member 530 and the pile 700, so that the water in the tank 500 may be drained. When the water drainage in the air tank 500 is completed, the support bracket 10 for supporting the PC house 1000 mounted on the pile 700 is welded and attached along the circumferential direction of the pile 700.

When dismantling the tank 500, the tank tank 500 after injecting water into the tank tank 500 in order to minimize the impact caused by the pressure difference between the inside and the outside of the tank tank 500 Can be dismantled.

Since the tank 500 is manufactured in advance in the land, it is possible to manufacture precision. In addition, compared to the prior art that the installation of a temporary barrier around the pile 700 from the water surface to install the lower bracket for mounting the PC house 1000 using the pre-tanning tank 500 made on land Thus, the support bracket 10 of the pile 700 can be made in a dry state only in a portion to be installed, so that the support bracket 10 can be easily installed.

In addition, referring to FIG. 1, the split PC house construction method for the construction of the above-described water column includes a step S500 of assembling the plurality of PC house sections 100 into the PC house 1000.

The PC house 1000 is divided into a plurality of PC house sections 100, and the plurality of PC house sections 100 mounted on the support bracket 10 installed on the pile 700 are mounted on the support bracket 10. By being assembled, it can be constructed as a PC house 1000 as shown in FIG.

In this case, the plurality of PC house sections 100 are coupled to each other by fastening with the joining beams 300 facing the joining beams 300 of each of the plurality of PC house sections 100.

In particular, the joining section steel 300 may be fastened through welding with the joining section steel 300.

 Referring to FIG. 7, the joining section steel 300 of the first PC house section 101 and the joining section steel 300 of the second PC house section 102 may be welded to each other. By forming the field welded joint 301 on the upper surface, it is possible to reliably connect the joining section steel 300 and the coupling of the PC house section 100.

Or there is a bolt fastening portion on the upper side of the joining section steel 300 may be fastened through this. Referring to FIG. 7, bolt fastening portions (not shown) are provided on the first auxiliary body 330 of the joining steel 300 exposed to the upper side of the bottom plate 110 instead of the field welding joint 301. A plurality may be formed at intervals. Through the plurality of bolt fastenings, the first auxiliary body 330 of the joining steel 300 of the first PC house section 101 and the first joining steel 300 of the second PC house section 102 are joined. By bolting the auxiliary bodies 330 together, the plurality of PC house sections 100 can be joined.

Conventional PC house construction method is to lift a single PC house made by a large offshore crane, such as a large floating crane, mounted on a pile, due to the rental cost for a large offshore crane, construction costs for the construction of a PC house took a lot, Moreover, it was difficult to find large offshore cranes to meet the PC house schedule.

In addition, large offshore cranes have a limited angle to maintain the crane boom, making it difficult to secure flexibility in PC house construction, and it was difficult to construct a stable PC house against the effects of offshore climate.

In addition, since the PC house is made of concrete and reinforcing bars, it was difficult to create a concept of dividing the PC house into a plurality of blocks and connecting a plurality of blocks composed of concrete and reinforcing bars together.

However, according to the split PC house construction method for the construction of the above-described water column, the marine crane can lift the divided PC house section 100 instead of one PC house and mount it on a pile.

Specifically, the inventors of the present application divide the PC house 1000 into PC house sections 100, and on the joint surface where the PC house sections 100 abut each other to join each PC house section 100. The method of embedding the joining section steel (300) and through the strong and fast fastening through which a new method of integrating the divided PC house section (100). In particular, according to the method in which the joining section steel 300 is partially exposed to the upper side of the bottom plate 110 of the PC house section 100 and to the inside of the wall 130, the PC house ( Fastening operation such as welding or bolt fastening can be easily and quickly performed on the bottom plate 110 of the 1000.

As described above, according to the present invention, based on the new concept of fast and efficient fastening using the joining section steel 300, the divided transport of the PC house 1000 becomes possible. Accordingly, each of the PC house sections 100 divided by a small offshore crane 150 may be lifted and mounted on the pile 700 instead of a large offshore crane carrying the entire PC house 1000. Since the rental cost for the offshore crane 150 can be reduced, the construction cost required can be reduced.

In addition, by using a smaller offshore crane 150 than a large offshore crane, the range of the angle that the boom can be held by the PC house section 100 can be maintained to increase the flexibility in PC house construction In addition, it is possible to construct a stable PC house against the effects of the marine climate.

In addition, the PC house section 100 may be bonded to each other by applying welding between the buried joining steel beams 300 to bond the PC house section 100 to each other. Considering that the construction of the PC house 1000 is performed underwater, the split PC house construction method for the underwater foundation construction combines the PC house section 100 with each other by welding between the joining sections 300 so that the welding Since the sealing can minimize the inflow of water and can easily combine the PC house section 100, and the time and cost can be reduced, in the construction of the PC house 1000, to maximize the economics and ease of Can be.

Also, in general, the PC house is disposed at the height between the lowest tide and the highest tide, so that the water inside the PC house can be filled when the water level rises above the bottom plate. In this case, therefore, underwater welding can be performed.

However, as described above, since the fastening between the joining section steel can proceed very quickly through welding or the like, since the integral work can be sufficiently performed even during the time when the water level is lower than the bottom surface, the fastening work between the section steels such as welding is performed at the water level. When (5) is lower than the bottom of the bottom plate 110 can be performed effortlessly.

In addition, referring to Figure 1, the split PC house construction method for the construction of the above-described water-based superconstruction, PC house (assembled through the drain induction hole 111 formed in the bottom plate 110 of the PC house section 100 ( The method may further include sealing the hole for drainage induction 111 after draining the water inside the container 1000.

After the PC house section 100 is assembled during the construction of the PC house 1000, water may remain in the PC house 1000. At this time, the remaining water can be drained using the drain induction hole 111, and after draining, the water is introduced into the PC house 1000 by sealing the drain induction hole 111 by welding or the like. It can prevent the inflow.

The conventional PC house was introduced during the construction of the PC house, and the water remaining in the PC house was drained using a pump. As a result, the cost of construction has increased.

However, the split-type PC house construction method for the construction of the above-described water column can drain the water inside the PC house 1000 through the drain induction hole 111, so that it is not necessary to use a water pump or the like. The stable PC house 1000 may be installed.

After draining the water inside the PC house 1000 through the drain induction hole 111, sealing the drain induction hole 111 (S700) is that the water level (5) is lower than the bottom surface of the bottom plate (110). Can be performed when

For example, referring to FIG. 6, when the low water level is low, the PC house 1000 may be constructed in the pile 700. Accordingly, the water level 5 may be lower than the bottom surface of the bottom plate 110, in which case, the water in the PC house 1000 is drained through the drain induction hole 111 and the drain induction hole 111 is closed. When the sealing is performed, water does not flow into the interior of the PC house 1000 even if the water level 5 becomes higher than the bottom of the bottom plate 110.

In addition, between the step S500 and S700, shielding between the outer circumference of the pile 700 and the inner circumference of the pile mounting hole 113 and the pile penetrating the pile mounting hole 113 on the assembled PC house 1000 ( It may further comprise the step of installing the injury prevention bracket 80 along the outer periphery of 700.

At this time, not only between the outer circumference of the pile 700 and the inner circumference of the pile mounting hole 113 can be shielded for a portion of the water is likely to flow into the PC house (1000). In addition, the PC house 1000 seated and assembled on the support bracket 10 may float above the water surface without being fixed to the pile 700 by buoyancy of water. In order to prevent this, the injury prevention bracket 80 may be installed at the upper end of the pile 700 mounted in the pile mounting hole 113.

Referring to FIG. 8, the injury prevention bracket 80 connects the upper end of the pile 700 and the bottom plate 110 mounted on the file mounting hole 113, and the PC house 1000 by the injury prevention bracket 80. May be fixed to the file 700. Accordingly, construction of the PC house 1000 may be stably performed.

That is, the split type PC house construction method for the construction of the above-described water-based superstructure is produced by dividing one PC house 1000 into a plurality of PC house sections 100, so that the offshore crane 150 having a smaller scale than a large marine crane 150 PC house construction can be carried out to minimize the construction cost and construction period, and can perform stable PC house construction against the influence of marine climate.

In addition, since the PC house section 100 is coupled to each other by welding between the joining section steel 300, it is possible to make the construction of the PC house in the water stable and easy.

In addition, since the lifting tank 500 is used to install the support bracket 10 for seating the PC house 1000, there is no need to install a clam from the surface to the ground of the seabed, thereby reducing the construction period and the construction cost. have.

In addition, since the water in the PC house 1000 is drained using the drainage induction hole 111, a water pump or the like for draining the water in the PC house 1000 is not required, thereby reducing costs.

In addition, the split PC house construction method for the construction of the water-based superconstruction by using buoyancy prevention bracket 80, the concrete is poured into the PC house 1000 installed on the pile 700 by the buoyancy before the footing is installed It prevents the PC house 1000 from rising above the surface of the water to enable stable PC house construction.

Meanwhile, hereinafter, the split PC house according to the exemplary embodiment of the present application using the split PC house construction method for the above-described construction of the superconducting plant according to the above-described embodiment of the present application (hereinafter referred to as 'the split PC house') ( 1) will be described. However, the same reference numerals are used for the same or similar components as those described in the split-type PC house construction method for the construction of a seaweed sheath according to an embodiment of the present application, and duplicate descriptions will be briefly or omitted.

The split PC house 1 comprises a plurality of PC house sections 100.

Referring to FIG. 10, in the split PC house 1, a plurality of PC house sections 100 may be connected to form one PC house 1000.

The PC house section 100 is dividedly formed to be assembled into one PC house 1000 having a bottom plate 110 and a wall 130 surrounding the bottom plate 110.

Referring to FIG. 10, the bottom plate 110 may have a rectangular shape. The bottom plate 110 may include a plurality of pile mounting holes 113. When the pile mounting hole 113 seats the PC house section 100 on the pile 700, the pile 700 passes through the pile mounting hole 113 so that the upper end of the pile 700 is pile-mounting hole 113. To be mounted on.

Accordingly, as shown in FIG. 10, when the plurality of PC house sections 100 are assembled into one PC house 1000, the bottom plate 110 of the PC house 1000 has a plurality of pile mounting holes 113. It can be formed at intervals.

In addition, the bottom plate 110 includes a reinforcing bar 20 and a concrete part 50, the reinforcing bar 20 includes a reinforcing bar 23 for fixing the position of embedding the section steel 300 for joining can do.

As described above, the bottom plate 110 is manufactured by placing the reinforcing bar 21 on the formwork 40 and pouring concrete. Accordingly, as shown in FIG. 7, the bottom plate 110 may include a reinforcing part 20 and a concrete part 50 including the reinforcing bar 21 and the reinforcing bar 23 for fixing the position.

In addition, as shown in FIG. 10, the bottom plate 110 may include a plurality of drain induction holes 111 that are perforated in the vertical direction. As described above, the water introduced when the PC house 1000 is installed through the drain induction hole 111 may be discharged.

In addition, the wall 130 may include a curtain wall 131 extending to the lower side of the bottom plate (110).

Referring to FIG. 7, the wall 130 is formed in the upper direction of the bottom plate 110 with respect to the direction perpendicular to the plane of the bottom plate 110 at the side of the bottom plate 110. The curtain wall 131 is formed in the lower direction of the bottom plate 110 with respect to the direction perpendicular to the plane of the bottom plate 110.

The curtain wall 131 may protect the pile 700 and may improve aesthetics. Since the curtain wall 131 is formed in the lower direction of the bottom plate 110, the lower portion of the upper end of the pile 700 mounted on the pile mounting hole 113 is prevented from being exposed to the outside. Accordingly, it is possible to protect the support bracket 10 and the pile 700 on which the PC house 1000 is seated, and even if the water level 5 is lowered, the pile 700 of the portion below the PC house 1000 is out of view. It can give a sense of stability by not being exposed to.

In addition, although not shown in the drawing, the PC house section 100 may include a lifting ring. Specifically, the lifting ring may be disposed on the bottom plate 110 at a predetermined interval. Alternatively, the lifting ring may be disposed on the wall 130. For example, referring to FIG. 10, the wall 130 and the six o'clock of the wall 130 of each PC house section 100 at 12 o'clock. The lifting ring may be arranged at a predetermined interval on the wall 130 in the direction.

In addition, when the offshore crane lifts the PC house section 100 and mounts it to the pile 700, it connects the rope to the lifting ring so that the PC house section 100 is horizontal with respect to the ground and maintains the level thereof. Some spheres can be placed between the marine crane and the PC house section 100.

In addition, the split PC house 1 includes a joining section steel 300. As shown in FIG. 7, the joining beam 300 may be a c-beam.

That is, the split PC house 1 may include one PC house 1000 made of the PC house section 100 and the joining steel 300.

The joining steel 300 is embedded so as to be exposed on the joining surface which is in contact with each other between the plurality of PC house sections 100 so that the plurality of PC house sections 100 are coupled to each other.

In addition, the joining steel 300 may be embedded in the PC house section 100 to partially expose the upper side of the bottom plate 110 of the PC house section 100 and the inside of the wall 130.

As described above, referring to FIG. 7, the joining section 300 embedded in the first PC house section 101 and the joining section 300 embedded in the second PC house section 102 may include a main body 310. ) May be buried while facing each other and exposing a portion of the auxiliary body 330 to the upper side of the bottom body 110.

The plurality of PC house sections 100 are assembled through fastening between the joining beams 300 facing each other.

The joining section steel 300 may be fastened by welding the joining section steel 300.

As described above, the PC house section 100 may be assembled by welding between the joining section steels 300. In particular, when the joining section steel 300 is fastened by welding, since the strength of the joint is high and the sealing property is good, the construction of the PC house 1000 is performed underwater to prevent the inflow of water into the PC house 1000. May be suitable for

It will be understood by those of ordinary skill in the art that the foregoing description of the embodiments is for illustrative purposes and that those skilled in the art can easily modify the invention without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

1: Split PC House 1000: PC House
100: PC house section 110: the bottom plate
111: drainage guide hole 113: pile mounting hole
130: wall 131: curtain wall
101: first PC house section 102: second PC house section
150: offshore crane 300: joining section steel
301: welded joint 310: body
330: auxiliary body 10: support bracket
20: Rebar 21: Rebar
23: Reinforcing bar 30: Copper
40: formwork 50: concrete part
51: concrete machine 60: section separation line
65: member for section separation 70: discharge pipe
80: anti-injury bracket 90: water pad rubber pad
700: File 5: Water Level

Claims (21)

As a split PC house construction method for construction
(a) dividing and manufacturing one PC house into a plurality of PC house sections on land;
(b) mounting the plurality of PC house sections on support brackets installed on each of the plurality of piles such that upper ends of the plurality of piles installed on the water surface are mounted in pile mounting holes of the PC house section; And
(c) assembling the plurality of PC house sections into the PC house,
In the step (a), the plurality of PC house section is manufactured by embedding the joining section steel to be exposed on the joining surface which is in contact with each other in the step (c),
The step (c) is a split type PC house construction method for the construction of the water-receiving construction that joins the plurality of PC house sections to each other by engaging with the joining section steel facing the joining section steel of each of the plurality of PC house sections. . The method of claim 1,
The joining section steel is embedded in the PC house section to be partially exposed to the upper side of the bottom plate and the inside of the wall of the PC house section Split PC house construction method for the construction of the above water. The method of claim 1,
In the step (c)
The joining section steel is a split type PC house construction method for the construction of the water-based sheath that is fastened by welding with the joining section steel. The method of claim 1,
The joining section steel is a split PC house construction method for the construction of a water-based element that is c-shaped steel. The method of claim 1,
The step (a)
(a1) installing clubs and formwork and arranging reinforcing bars so as to correspond to the shape of the floor plate and curtain wall of the PC house;
(a2) placing concrete to form the bottom plate and the curtain wall;
(a3) installing formwork and reinforcing bars so as to correspond to the shape of the walls of the PC house; And
(a4) The method of constructing a split PC house for the construction of a water-based sheath comprising the step of pouring concrete to form the wall. 6. The method of claim 5,
The step (a) is performed in a state in which a section separation member is disposed between the plurality of PC house sections so that the reinforcement arrangement and the concrete placing for the plurality of PC house sections are separated. PC house construction method. The method according to claim 6,
In the step (a1), the joining section steel is installed with the section separation member interposed therebetween,
Split-type PC house construction method for the construction of the water-receiving step is to install the joining section steel with the section separation member therebetween in the step (a3). 6. The method of claim 5,
In the step (a1), the bottom plate of the PC house section is a split PC house construction method for the construction of the water-based sheath that is formed in the hole for drainage induction. 9. The method of claim 8,
The drainage guide hole is a split type PC house construction method for the construction of a water-based sheath that is formed by embedding the discharge pipe in the bottom plate. The method of claim 1,
After the step (c)
(d) dividing the water drainage guide hole further comprising: sealing the drainage guide hole after draining the water inside the PC house assembled through the drainage guide hole formed in the bottom plate of the PC house section. PC house construction method. 11. The method of claim 10,
Between step (c) and step (d),
Shielding between an outer circumference of the pile and an inner circumference of the pile mounting hole; And
The method of claim 1, further comprising the step of installing the injury prevention bracket along the outer periphery of the upper portion of the pile passing through the pile mounting hole on the PC house assembled. 11. The method of claim 10,
Wherein step (d) is to be performed when the water level is lower than the bottom of the bottom plate divided PC house construction method for the construction of the seaweed. The method of claim 1,
The upper surface of the support bracket is divided PC house construction method for the construction of the water level that the water pad rubber pad is installed along the lower circumference of the pile mounting hole formed in the bottom plate of the PC house section. The method of claim 1,
Before or after step (a),
Further comprising the step of installing the support bracket on each of the plurality of files,
Installing the support bracket,
Installing a bottom member of the air tank in the periphery of the pile;
Assembling the air tank by seating and engaging a circumferential member of the air tank on the bottom member;
Draining the water in the aerial tank assembled so that the support bracket can be installed in a dry state;
Installing the support bracket on the pile; And
Split-type PC house construction method for the construction of a water-repellent seconds comprising the step of dismantling the tank after the injection of water into the tank. As a split PC house,
A plurality of PC house sections divided into one PC house having a bottom plate and a wall surrounding the bottom plate; And
A joining section steel embedded so as to be exposed on a joining surface which is in contact with each other between the plurality of PC house sections so that the plurality of PC house sections are coupled to each other,
And said plurality of PC house sections are assembled by fastening between joining section steels facing each other. 16. The method of claim 15,
The bottom plate includes a reinforcing bar and a concrete part,
Wherein the reinforcing bar portion divided PC house comprising a position fixing reinforcing bar for setting the embedding position of the joining section steel. 16. The method of claim 15,
And the joining section steel is embedded in the PC house section to be partially exposed to the upper side of the bottom plate of the PC house section and the inside of the wall. 16. The method of claim 15,
The joining section steel is a split type PC house for construction of the water-based sheath that is fastened by welding with the joining section steel. 16. The method of claim 15,
The joining section steel is a split PC house that is c-shaped steel. 16. The method of claim 15,
And the wall includes a curtain wall extending below the bottom plate. 16. The method of claim 15,
The bottom plate is divided PC house that includes a plurality of drainage guide holes to be perforated in the vertical direction.

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