KR101167102B1 - Manufacturing method for pontoon - Google Patents

Abstract

Floating enclosure manufacturing method that can be produced in the water rather than land floating floating body installed to float in the buoyancy, The floating enclosure is buoyancy bottom plate, such as a square plate set to launch first in the water; An internal buoyancy material installed on the buoyancy bottom plate to form the inside of the floating enclosure in the water phase; And a body of a floating enclosure formed by being integrated with the internal buoyancy material on the buoyancy bottom plate around the internal buoyancy material; and manufactured in the water phase.

Floating enclosure, water surface

Description

MANUFACTURING METHOD FOR PONTOON

The present invention relates to a method by which floating enclosures (or concrete floating platforms) can be manufactured in water rather than on land. More specifically, the present invention relates to a method of manufacturing a floating enclosure in which a floating enclosure installed to float in the buoyancy can be manufactured in the water rather than on land.

Figure 1a is a perspective view of the floating enclosure (Pontoon), Figure 1b is an exploded perspective view of the floating enclosure, Figure 1c is a floating enclosure used as a walkway (Walkway) installed in the water (water installation state ) Is shown.

The floating box (Pontoon) can be referred to as a structure to be installed floating on the water using the buoyancy of the floating (Pontoon).

When used as a marina (Marina) or artificial islands are usually made of concrete structures, but also simply made of plastic materials such as synthetic resin.

In particular, it can be seen that the floating enclosure 10 used for constructing the medium and large water structures is made of a concrete body portion 11 having various shapes as a rectangular parallelepiped shape as shown in FIG. 1A, and buoyancy for floating in water. In order to sufficiently secure the inside there is also installed an internal buoyancy material 12, such as EPS blocks, as shown in Figure 1b.

Such floating enclosure 10 has its advantages that it is economical to install it in the water by making it as large as possible, but the weight varies depending on its size.

Thus, a manufacturing site for manufacturing the floating enclosure 10 is provided on land around the water surface, and the floating enclosure 10 made in such a manufacturing site is installed so as to be launched into the water in a temporary dock (Dock) to float in the water. Done.

The floating enclosure 10 launched as described above may be set at a predetermined position by a tugboat or the like, and may be connected to each other so that an aqueous structure having a predetermined length as shown in FIG. 1C may be installed.

However, the size of the floating enclosure 10 is determined according to the area, etc. to be installed in the water surface, depending on the size, the cost of the construction cost in the process of manufacturing and launching in the field is too large, so the economy may be somewhat reduced. There was this.

For example, there was a problem that the effort and cost of constructing a temporary dock for launching the floating enclosure 10 in the water phase and the work of towing the launched floating enclosure 10 to a certain position of the waterborne were excessive. .

Accordingly, the present invention provides a more efficient floating housing construction method by solving the problems of constructability and economics by a series of operations to manufacture a floating enclosure on land in the conventional water surface and launch it to the water surface. do.

Therefore, the present invention is to develop a base technology for manufacturing the floating enclosure in the water and to solve the technical problem to be able to improve the workability and economics of the floating housing construction by using the same.

According to an aspect of the present invention,

First, it will provide a platform for manufacturing floating vessels in the sea, which will be floated and installed by the buoyancy.

In the present invention, such a platform is formed by the body portion of the floating enclosure integrated with the buoyancy bottom plate.

The buoyancy bottom plate may be referred to as a panel-type buoyancy body a certain area.

For example, the buoyancy bottom plate may be produced by laminating a large number of lightweight flooring materials, such as synthetic resin, for example, and the floorboards of each layer are formed by integrating panel members having a predetermined length in parallel with each other, and the panel members in parallel. The floorboards of each layer formed by integrating with each other were arranged to be staggered in directions perpendicular to each other.

That is, the buoyancy bottom plate not only functions as a part of the floating housing, but also has to be manufactured to support the weight of the body of the buoyant material and the floating housing installed on the upper surface panel member to secure the safety By placing the floorboards of each layer integrated in parallel to each other in a direction orthogonal to each other by one layer is easy to manufacture, but also to increase the structural rigidity.

Secondly, the buoyancy bottom plate was made to produce the first floor of the floor plate on the ground first, and then simply launched it in the water and can be installed by installing a multi-layer floor board on the upper surface.

Third, when the buoyancy bottom plate is completed, it is possible to form the body portion of the actual floating enclosure on the upper surface, which can be seen that the work on the land because the work is carried out to the water surface.

Fourth, since the buoyancy bottom plate is integrated in the lower portion of the body of the floating enclosure, the buoyancy is not only easily secured, but also the construction and economical efficiency are greatly improved because the manufacturing is made in the water phase.

The present invention is the core technical idea that almost all of the manufacturing process of the floating enclosure is to be made in the water, and due to the development of such technology, it is possible to escape the manufacturing process of launching after manufacturing on the conventional land, which makes the floating enclosure more efficient and It can be manufactured and installed economically.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents are included in the scope of the present invention. Should be.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Figures 2a, 2b, 2c and 2d schematically illustrate a process for producing a floating enclosure in the water phase according to the present invention in order.

First, the buoyancy bottom plate 100 is to be produced, such buoyancy bottom plate 100 forms the bottom portion of the floating enclosure as its name and floated in the water by buoyancy of the floating enclosure installed on the upper surface Support the weight of the torso.

The buoyancy bottom plate 100 by the weight of the body portion of the floating enclosure should be manufactured so as not to be submerged or damaged in the water.

3A, 3B, and 3C show various forms of the buoyancy bottom plate 100.

That is, according to Figures 3a, 3b, it can be seen that the buoyancy bottom plate 100 is a rectangular and oval as a whole,

According to Figure 3c, it can be seen that the buoyancy bottom plate 100 is a ribbon overall.

Of course, the buoyancy bottom plate 100 of various forms not shown in FIGS. 3A to 3C may be used.

The buoyancy bottom plate 100 can be seen that to be produced in a structure having a predetermined predetermined buoyancy by manufacturing in a form having a predetermined volume, which may be used to integrate a panel member having a predetermined thickness in parallel.

As the material of the panel member, it is preferable to use a material that is light in weight and easy to change its volume, but also has high strength and easy bonding to each other. Preferably, synthetic resin, FRP, or the like may be used.

The panel member has a length (L) and a height (H) is determined according to the final cross-sectional shape, as shown in Figure 2a by integrating the panel member 111 in parallel with each other the floor plate 110 of a single layer is a constant area. Have (A).

Depending on the material, the method of integrating with each other may be somewhat different, but mechanical fasteners such as adhesives, bolts, and nuts may be used. Importantly, in the case of the panel members 111 integrated in parallel with each other, the arrangement of the bottom plate member 120 formed thereon is important.

In other words, it can be seen that in the case of the panel member 121 of the two-layer bottom plate member 120, the extended arrangement thereof is crossed orthogonal to the arrangement of the panel member 111 of the lower one layer.

In addition, in the case of the panel member 131 of the three-layer bottom plate member 130, the extended arrangement thereof is orthogonal to each other with the arrangement of the panel member 121 of the second layer, and the bottom plate member 110 of one layer is formed. It can be seen that the panel member 111 is arranged in the same direction.

In other words, it can be seen that the panel members (111, 121, 131) of each layer are arranged in a direction orthogonal to each other up and down, the number of the stack of the bottom plate 130 may be determined according to the overall height of the buoyancy bottom plate (100) There will be at least two layers.

This arrangement is the first laminated floorboard 110 is produced on land and launched into the water, the bottom floorboards 120, 130 of the upper will be able to work in the water. In addition, if the area and the self-weight of the bottom plate (110, 120, 130) is not large, it is possible to manufacture the whole in the land and launching the water.

That is, since the buoyancy bottom plate 100 of the present invention is not made of concrete, such as the body portion of the floating enclosure due to its material properties, it is because the production, transportation, launching work is not a big problem.

Thus, when the construction of the buoyancy bottom plate 100 of the present invention is completed, the body portion 200 of the floating enclosure should be constructed on its upper surface.

That is, in the floating enclosure according to the present invention, the buoyancy bottom plate 100 occupies a lower portion thereof, and the trunk portion 200 of the floating enclosure made of concrete is formed on the upper surface thereof.

In this case, since the body portion 200 of the floating enclosure is made of concrete, there was a launching problem with the water followed by the manufacture of the ground by its weight. In the case of the present invention, the body portion 200 of the floating enclosure is already The buoyancy bottom plate is floating on the water surface 100 is to be installed directly.

Look at the process for manufacturing the body portion 200 of such a floating enclosure.

That is, as shown in Figure 2b, the internal buoyancy member 210 is formed to be embedded in the body portion 200 of the floating enclosure first, such internal buoyancy member 210 is the weight of the body portion 200 of the floating enclosure As a means for securing a predetermined buoyancy while reducing, an EPS block having a certain strength can be used.

In order to be installed in such a way that a plurality of divided block-type internal buoyancy material 211 is buried in the body portion 200 of the floating enclosure first, a plurality of block-type internal buoyancy material on the upper surface of the buoyancy bottom plate 100 211 is arranged to have a predetermined interval.

Of course, in order to use such a block-type internal buoyancy material 211 will be carried by using a barge, such as block-type internal buoyancy material 211 to be disposed on the land, such a barge to be described later formwork 300, concrete (220) ) While carrying a number of basic equipment for placing will be able to manufacture the floating main body according to the invention in the water.

As described above, the plurality of divided block-type internal buoyancy materials 211 may be spaced apart from each other to have various shapes and sizes according to the area of the buoyancy bottom plate 100, and the block-type internal buoyancy materials 211 may be buoyancy bottoms. The plate 100 is to be completely fixed by an adhesive or the like.

Such a plurality of divided block-like internal buoyancy material 211 is to be disposed on the upper surface of the buoyancy bottom plate 100, the outer upper surface of the buoyancy bottom plate 100 is spare for the installation area of the formwork 300 to be described later Make sure the area exists.

As such, when the installation of the block-type internal buoyancy material 211 is completed, the body portion 200 of the floating enclosure is formed such that the block-type internal buoyancy material 211 is embedded. For this, the formwork 300 and the concrete 220 are formed. Is used.

Accordingly, as shown in FIG. 2C, the formwork 300 is installed around the internal buoyancy material 210 installed in the buoyancy bottom plate 100. Such a formwork may be used as a steel formwork 310, in the case of Figure 2c to form the body portion 200 of the floating floating body of the rectangular shape over the top four sides of the buoyancy bottom plate 100 of the square shape It can be seen that the steel formwork 310 having a constant height to be used.

Triangular reinforcement plate 320 may be used to effectively support the load caused by the lateral pressure of the concrete to be poured later.

As described above, it can be seen that the inner buoyancy member 211 having the above-described plurality of blocks is disposed inside the formwork 300 in which the respective ends are connected to form the inner space.

Thus, as shown in FIG. 2d, the concrete 220 is poured to form the trunk portion 200 of the floating enclosure. First, the concrete 220 is first placed in a space between the formwork 300 and the outer inner buoyancy block 211 in construction. The concrete 220 is poured to form the outer wall part 221 by pouring.

The reason for forming the outer wall portion 221 first is to fill the space between the formwork 300 and the inner buoyancy material block 211 with concrete 220 so that a kind of support wall is formed so that the pressure of the concrete to be poured later is more. To effectively respond.

On the contrary, if there is no reason to form the outer wall portion 221 separately, the concrete portion may be cast once to form the trunk portion 200 of the floating enclosure.

Accordingly, when the construction of the outer wall portion 221 is completed, the concrete 220 is poured between the inner buoyancy material block 211 and the upper portion of the inner buoyancy material block to form the upper plate portion 222, and the outer wall portion 221 and the upper plate portion ( 222 is to configure the concrete body of the body portion 200 of the floating enclosure.

Thus, when the final buoyancy bottom plate 100 and the body portion 200 of the floating body is integrated with each other, the final floating body is completed. If the floating body is manufactured in the water and manufactured on land, it can only have considerable weight. This can overcome the difficulties caused by launching and transporting.

Examples of the final floating enclosure deposited by this method are FIGS. 3A, 3B and 3C.

According to this it can be seen that the buoyancy bottom plate 100 and the body portion 200 of the floating enclosure can be produced in various forms, each of which is as described above,

Buoyancy bottom plate 100 of the various types set to be launched in the first water;

An internal buoyancy material 210 installed on the buoyancy bottom plate to form an interior of the floating enclosure in the water phase; And the body 220 of the floating enclosure formed on the buoyancy bottom plate around the inner buoyancy material is formed integrally with the inner buoyancy material; and can be used in various floating enclosures. According to the size, the size and area should be planned and constructed.

1A, 1B and 1C are a perspective view, a cross-sectional view and an exploded perspective view showing an example of a conventional floating enclosure.

2A, 2B, 2C and 2D show the manufacturing process of the floating enclosure according to the present invention in order.

3a, 3b and 3c show several embodiments of the floating enclosure according to the invention.

<Brief description of the major reference numerals>

100: buoyancy bottom plate

110,120,130: floorboard

200: trunk portion of the floating enclosure

210: internal buoyancy

220: concrete

221: outer wall

222: top plate

300: formwork

Claims (9)

To manufacture floating enclosures in the water The buoyancy bottom plate 100, which is a panel-type buoyancy body, first launches a floor area on the water surface, and the buoyancy bottom plate 100 first makes a floor plate of the first floor on land, and then launches it on the water surface, Install a floor board of a multi-layer, the floor boards of each layer is formed by integrating the panel members having a predetermined length in parallel with each other, and the bottom plate of each layer formed by integrating the panel members in parallel with each other in a direction perpendicular to each other. Staggered to form, Install the buoyancy material 210 on the upper surface of the buoyancy bottom plate in the water, Forming the formwork 300 around the inner buoyancy material on the upper surface of the buoyancy bottom plate, by pouring concrete 220 so as to be integrated with the inner buoyancy material into the form to form the body portion 200 of the floating enclosure, Floating enclosure manufacturing method in the water phase comprising the step of dismantling the formwork, the buoyancy bottom plate, the buoyancy material and the body of the floating housing body is integrated directly to be produced in the water phase. delete delete delete According to claim 1, The buoyancy bottom plate, the body portion of the floating enclosure integrated with the internal buoyancy material block to be manufactured by changing the shape and shape according to the shape and size of the floating enclosure, the size of the buoyancy bottom plate Floating enclosure manufacturing method in the water phase, characterized in that to form a larger area than the floating enclosure integrated with the internal buoyancy material block. delete delete delete delete

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