KR200473387Y1 - Floating Structure - Google Patents

Abstract

This design relates to maritime structures such as aquaculture, floats used for tourism, and marine garbage collection facilities for the collection of marine litter floating on the sea. A high-density buoy with a loop that can be used to bind a rope encased inside a styrofoam and sealed with synthetic resin. The block was connected to the ring and used as a floating mechanism, which is an important part of the offshore structure. In order to prevent distortion of natural conditions such as waves and winds of the sea and to prevent deviation of the assembled blocks, this design is to pass holes through the selected block to the outside of the structure, to integrate it with safety railing pillars, And the upper frame which is the activity space of the human being at the same time. By choosing the high density buoy which is widely used as the floating equipment material, the manufacturing cost is reduced drastically by reducing the excessive mold cost for the production of the specific floating structure, and all the manufacturing process is done at the production factory. Reduced pollution in the second marine environment.

Description

  Floating structure, floating structure, floating structure,

        Seo, the south coast fishing village, due to differences in tidal tide,

 We move freely in order to solve this problem,

 As a marine structure for facilitating aquaculture, floatation for tourism,

 In addition, for the collection of marine litter floating on the sea,

 The present invention relates to a marine structure to be used.

       The present invention relates to a high density buoy by connecting a rope link to a predetermined block

       Floating apparatus is made, and floatation, ocean garbage

       On the production of offshore structure used in the collection hall

       Birdwaves Using high density buoys that have proven robust against natural disasters

       It improves durability and durability, and in the process of cutting heat fusion etc.

It leads to the second marine pollution such as non-product and noise.

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10-0903073 10-0984575 10-0984615

             There is no corresponding information.

        This design is based on the fact that byproducts and noise generated during the process of cutting the materials and fusing the materials at the sea site of the fishing village during the installation of the marine structure,

        Pollute the marine environment. The resulting interruption and friction arise.

        As a means to prevent this, all production processes are made in a production factory,

        Only after assembling the installation bolt of the operator after carrying it to the designated installation site

        It is necessary to complete the facilities and to make the floating equipment material, which is an important part of the offshore structure,

        Reduce production cost of floating mechanism by selecting.

        Because existing technologies require multiple materials and multiple shapes

        And an excessive amount of a mold expense, which is an expensive additional cost

        . By simply selecting the floating material, the production cost is dramatically reduced.

        The purpose of this project is to improve the strength and durability of marine structure.

        This design does not produce float, which is an important part of the offshore structure,

 Styrofoam is contained inside the fishing village cage farm,

 Use a high density buoy sealed with synthetic resin. This ring of rope of buoy

 It is made by connecting with block.

        Large pipe to make float at specified installation site.

 Heat fusion for re-integration to give floating function after cutting

 This process is skipped altogether, and a high-density buoy consists of one

 Four designed blocks on four sides are assembled at the production factory and designated

 Transport to the installation site Only a simple connection bolt is assembled there

        The existing methods are to utilize the air buoyancy which integrates the large synthetic pipe to obtain the float effect,

 A method of securing the buoyancy by using the internal air by forming the shape of the mold was performed. This is due to the severe sea waves and swell,

 In case of collision damage, the water immersed in the space secured by the air and the safety of the facilities are insufficient.

        Therefore, the difficulties of maintenance of facilities were also accompanied simultaneously.

 In order to solve this problem,

 A high-density buoy with built-in styrofoam is used as floating structures for floating structures.

        It is possible to reduce the number of shape mold costs for making a floating mechanism,

 Cost reduction also improves.

1 is a block diagram of a high-density buoy and block for use in a marine structure according to the present invention
Assembled perspective.
2 is a perspective view of a high density buoy for a marine structure according to the present invention assembled and assembled;
3 is a pipe perspective view showing a structure for enclosing an entire block according to the present invention.
Fig. 4 is a perspective view of a high-strength buoy according to the present invention,
5 is a block perspective view applied to the present invention;
6 is a perspective view showing an embodiment of a marine structure of the present invention.

        The present invention will now be described in detail with reference to the accompanying drawings.

        In fishing villages, seaweeds, seaweeds, abalone farms,

        It prevents the phenomenon of getting down to the surface of the water more and more,

        High-density buoys are used,

        A buoy created exclusively from the widely used Styrofoam

        It is increasingly disappearing due to marine pollution due to seizure in harsh conditions, and its use as a substitute is shown in Fig. 1

        (12), and the outside is sealed with a synthetic resin (13)

        The buoy 10 is used.

        This design is based on the use of a high density buoy (14)

        The block 50 shown in Fig. 5 is used to connect the connection hole 51 and the connection groove 52

        Density buoy rings 14 and the block 50 as connecting means.

        The high density buoy rope connecting ring 14 is fitted with the connecting groove 52,

        The hole of the buoy linking ring (14) and the block connecting hole (51) are integrated to form a through hole

        Tighten with holes in the holes, or with bolts of synthetic resin.

        When the buoys and blocks are assembled in the same manner as above for the high-density buoys

        The block of FIG. 5 and the buoy assembly front view 55 are shown.

        The assembled high-density buoys and blocks are assembled by assembling four blocks into one buoy

        Is shown in FIG. 1 as (15). This is assembled at the production plant and transported to the installation site as a means of minimizing the on-site processing work.

        It is used.

        1 shows a block supporting guide hole 16 in order to provide robustness against a warping phenomenon against waviness waves, wind and other natural conditions such as severe conditions of the sea, . And passes through the guide pipe (16) through the support pipe

        One wheel is integrated and returned by the method shown in Fig.

        Continuing with the above-described method, floating structures such as floats, marine garbage

        As shown in the embodiment of Fig. 6,

        Safety railings and thus secured more robustness and safety.

        The pipe guide 30 and the safety guardrail 32 shown in Fig. 3 are cut at a predetermined pipe and are manufactured at the connection 33 production plant by a heat welding method.

        This one side is also produced one by one and assembled in the field with the flange (31)

        It completes.

        6, the footrest 53 is made of wood, rubber,

        It is selected as synthetic resin, processed at a certain size in the factory, assembled on the block at the installation site

        The buoyancy of the high density buoy, the pipe guide (30)

        And the pipe guide 30 imparts a secondary buoyancy,

        By adding gullibility by blocking glaciers at the bottom of the structure,

        It also improves overall durability. The floating structures above the sea are primarily

        Buoyancy must be ensured and, in addition,

        Stiffness, stability and durability should be provided at the same time.

10: High density buoy 14: High density buoy chain
16: Pipe guide hole 30: Pipe guide
31: Flange 32: Safety rail pillars
50: Block 51: Block connecting hole
52: block connection groove 53: foot plate
55: Buoy connection block front view

Claims (4)

A hook connecting a rope to a high density buoy used in the sea.
This is related to the production of marine structures that float on the sea using this ring,
Each of the high-density buoys is connected with a block to form a predetermined structure,
Connected by grabbing a synthetic pipe with the integrated outer perimeter of the formed structure
Control means for preventing block distortion and departure.
And fixing means for fixing the groove formed in the predetermined shape of the block by inserting it into the high-density buoy ring.
A safety rail column is directly connected to the integrated synthetic pipe
Offshore structures The method according to claim 1,
The groove formed in the block is inserted into the rope connecting ring provided in the high-density buoy,
The holes formed in the grooves are aligned with the buoy connection hole so that the bolts,
Wherein the fixing member is fixed with a bolt. The method according to claim 1,
Wherein the control means adjusts the target marine structure to a predetermined size,
A number of high density buoys and blocks that match the quantity are installed.
To select the outer blocks of these blocks to unify the pipes
Make a hole to fit the pipe size so that the synthetic
And the pipe surrounding the outer periphery is integrated,
A marine structure that controls warping prevention of many assembled blocks. The method according to claim 1,
A safety guardrail column of a marine structure is provided on the integrated pipe as the control means
A predetermined length on the lower frame and seawater where the sea structure touches the seawater
A marine structure that catches the upper frame at the same time.

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