KR101498709B1 - Band assembly for foam buoy and marine floating structure manufacturing method using the same - Google Patents

Abstract

The present invention relates to a band assembly for a foam buoy, and a method to manufacture a structure floating on the sea using the same. An objective of the present invention is to provide also a method of manufacturing a floating structure which manufactures a band assembly by simply assembling a molded part of a simple configuration to fixate the band assembly by promptly coupling the band assembly to a foam buoy, and uses the band assembly to manufacture a structure floating on the sea in a short time. A preferred embodiment of a band assembly for a foam buoy capable of conveniently coupling a foam boy to a grid type support body includes: left and right band members divided into left and right sides to be inserted into a binding groove formed on the foam buoy having a support tube coupling hole respectively formed on the upper portions to be symmetrical to each other, wherein the coupling of the left and right band member is completed by assembling the upper portions on which the support tube coupling hole is formed by bolts and nuts while the upper portions are overlapped with each other; and an outward-protruding bracket is formed on the lower portions to assemble the lower portions by bolts and nuts. Also, the outward-protruding brackets on the lower portions of the left and right band members is formed on a position rotated by 30-60° toward one band member; and the support tube coupling hole includes a cut portion to be opened, and includes a fixating piece formed to face the other side to be coupled to the band member on the other side by bolts and nuts.

Description

Technical Field [0001] The present invention relates to a foam assembly for a foam, and a method for manufacturing a floating structure using the foam assembly,

The present invention relates to a foamed band assembly and a method for manufacturing a floating structure using the same, and more particularly, to a method of manufacturing a banded assembly by simply assembling a product having a simple structure, And a method of fabricating a floating structure capable of manufacturing a floating structure in a short time using a band assembly.

Maritime floating structures used as a prefabricated structure at sea are used for a variety of purposes such as aquaculture facilities, temporary barges, and work ships.

In general, the floating suspended structure which is generally used is to connect the connecting pipe and the supporting pipe to the upper side of the foamed portion which provides the buoyancy and connect the grid-shaped supports to each other by using a rope and raise the flat plate And provides a large workplace.

Examples of conventional marine floating structures include a cage frame structure for aquaculture facilities having a diving control function of Korean Registered Patent No. B1-0101367 (Apr. 2, 2001), a cage culture site of 10-1337248 (December 31, 2013) 10-1277117 (Feb. 20, 2013) floating suspension decks.

However, in the case of the above-mentioned prior arts, most of the techniques depend on the rope for binding of the support to the support, and the assemblability is low and the manufacturing time of the floating structure is long. Therefore, .

KR 100281367 B1 2001.04.02. KR 101337248 B1 2013.12.05. KR 101277117 B1 2013.06.20.

Accordingly, the inventor of the present invention has researched and developed the present invention in order to solve all of the problems associated with manufacturing a floating structure by using a rope as described above. In the present invention, a band assembly that is injection molded from a plastic material is used And a support pipe constituting a lattice-like support body is fitted to a coupling hole formed in the band assembly, so as to solve the difficulty of binding the rope to the rope, Band assembly and a method for fabricating a floating structure using the same. The present invention has been completed based on the technical point of view.

According to an aspect of the present invention, there is provided a foam assembly for a foamed beverage, the foam assembly comprising:

 Preferred examples of the band assembly include left and right band members that are divided into right and left sides to be inserted into the binding groove formed in the bundle and formed with supporting tube coupling holes to be symmetrical with each other on the upper side; The left and right band members are assembled together with bolts and nuts in a state where the upper portions formed with the support pipe coupling holes are superimposed on each other and the outwardly protruding brackets are formed at the lower side to assemble the bolts and nuts together.

And the brackets protruding outwardly from the lower side of the left and right band members are formed at positions which are rotated by 30 to 60 degrees toward one of the band members.

Wherein the left and right band members have a wider width than the binding groove, and the inner surface of the band member is formed with a recessed portion having a width and a thickness inserted into the binding groove formed in the auxiliary member so that the band member is always fixed .

The support pipe coupling holes of the left and right band members are formed to be opened to form an incision portion and a fixing piece is formed outside the open portion of the incision portion so as to be opposed to each other so as to be mutually joined with the band member and the bolt and nut .

A support having a lattice structure constituted by a + -shaped connector connecting the support tube in all directions; A foamed part formed on both sides so as to sink the binding groove; The left and right band members are composed of left and right band members that are divided into right and left parts so as to be inserted into the binding groove formed in the bundle and are symmetrical with each other. A method of manufacturing a suspended structure by assembling a bundle for a foam bundle assembled with a nut and a bolt and a nut by forming an outwardly protruding bracket on a lower side;

A band assembly assembling step of fitting a support tube into a support tube coupling hole of the band assembly; A supporting assembly assembling step of assembling the support by thermally welding the support tube and the + -shaped connector in a state where the lower ends of the left and right band members of the band assembly coupled to the support tube are rotated toward the sky; A step of inserting a portion of the support into the crane while the support is assembled; The upper and lower sides of the left and right band members are fixed to each other with bolts and nuts while the upper and lower sides of the left and right band members are overlapped with each other in a state in which the left and right band members coupled to the support pipe are turned downward And fixing the brackets formed on the lower side with bolts and nuts.

A support having a lattice structure constituted by a + -shaped connector connecting the support tube in all directions; A foamed part formed on both sides so as to sink the binding groove; The left and right band members are composed of left and right band members that are divided into right and left parts so as to be inserted into the binding groove formed in the bundle and are symmetrical with each other. And the support pipe coupling hole is formed to be opened by forming a cutout part, and the outer side of the open part of the cutout part is opened A method of manufacturing a suspended structure by combining a band member and a band assembly for a foam bundle which are mutually coupled by a bolt and a nut;

A support assembly step of assembling the support body by mutually connecting the support tube and the U-shaped connector by heat fusion; A step of inserting a portion of the support into the crane while the support is assembled; The left and right band members of the band assembly are inserted into the binding groove formed in the auxiliary member in a state in which the foamed portion is inserted, and the upper portions of the left and right band members are fixed to each other with bolts and nuts, A fixing step in which the fixing step is fixed; And a supporting pipe coupling step of inserting the supporting pipe and fixing the fixing member to the band member with the supporting pipe coupling hole being opened by upwardly moving the fixing member formed outwardly of the open part of the incision.

The present invention can provide the following effects by using the foamed band assembly and the method for manufacturing a floating structure using the same.

It is possible to quickly and securely fix the support member and the rich member by using the band assembly without using the rope as in the prior art, and maintenance of the floating structure can be performed by replacing the parts when the breakage occurs.

Also, because the constituent members used are made of recyclable materials, it is possible to recycle after use, thereby minimizing environmental pollution concerns.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external perspective view showing a preferred embodiment of a foamed band assembly provided in the present invention; Fig.
Fig. 2 is a side view of Fig.
3 is an external perspective view showing another preferred embodiment of the foamed band assembly provided in the present invention.
Figure 4 is a side view of Figure 3
FIG. 5 is a block diagram of a process for fabricating a floating structure using a rich band assembly according to the present invention
FIG. 6 is a perspective view showing an example of assembling a band member to a support pipe in FIG.
7 is a perspective view showing an example of a supporting pipe joining step by thermally fusing a supporting pipe and a +
Fig. 8 is an example in which a supporter is lifted in Fig. 5
Fig. 9 is a cross-sectional view of the state where the support and the rich are fixed by the band assembly by the fixing step in Fig. 5
10 is a sequence block diagram for fabricating a floating structure according to the present invention using the bundle band assembly provided in FIG.
Fig. 11 is a cross-sectional view showing an example in which a support member
FIG. 12 is a cross-sectional view of the state where the support body and the rich body are fixed by the band assembly by the rich fixing step in FIG. 10
Fig. 13 is a plan view showing an example of a floating suspended structure manufactured by the present invention
14 is a side view of Fig. 13

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of a foamed band assembly and a method for manufacturing a floating structure using the same according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an external perspective view showing a preferred embodiment of a foamed band assembly provided in the present invention, and FIG. 2 is a side view of FIG. 1.

The foamed band assembly 10 provided in the present invention has been developed to solve the troublesomeness and difficulty of binding the superstructure 30 and the supporter 40 having a lattice structure to the conventional rope, .

The band assembly 10 is injection-molded using a plastic material and can be provided in various configurations. A preferred example is composed of left and right band members 11 and 12 which are divided into right and left parts to be inserted into a binding groove 31 formed in the bundle 30. [

The left and right band members 11 and 12 are formed such that the support pipe coupling holes 13 to which the support pipe 41 of the support body 40 is slidably fitted are symmetrically formed on the upper side of the left and right band members 11 and 12.

The left and right band members 11 and 12 have a width greater than that of the coupling groove 31 and have a width and a thickness inserted into the coupling groove 31 formed in the auxiliary 30, (11) (12) and the support tube coupling hole (13) are fixed to the support ribs (11), (12) (14) so that the support pipe coupling hole (13) is integrated with the left and right band members (11, 12).

The left and right band members 11 and 12 are assembled with bolts and nuts 15 in a state in which the upper portions formed with the support pipe coupling holes 13 are overlapped with each other. On the lower side, brackets 16 and 17 protruding outward are formed and assembled with bolts and nuts 18. At this time, it is natural to form a counterbore type groove (not shown) in the band member so that the head of the bolt is not exposed to the side of the bolt 30.

The brackets 16 and 17 protruding outwardly from the lower side of the left and right band members 11 and 12 are formed at a position rotated by 30 to 60 degrees toward one of the band members. Preferably at a position rotated by 45 degrees. In the present invention, the left band member 11 is short and the right band member 12 is long so that the bracket 16 and the bracket 17 can be combined.

When the left and right band members 11 and 12 are divided into two parts, the floating structure 1 is manufactured on the ground. In the case where the left and right band members 11 and 12 are divided into two parts, The brackets 16 and 17 are formed so as to be biased toward the one band member so that the brackets 16 and 17 are moved out of the bracket 30 So that there is no problem of being damaged by friction with the ground during the movement process.

FIG. 3 is a perspective view showing another embodiment of a foamed band assembly provided in the present invention, and FIG. 4 is a side view of FIG. 3.

Another embodiment of the foamed band assembly 10 provided in the present invention differs from the configuration of the support pipe coupling hole 13 in the construction of the band assembly 10 as described above.

That is, in another embodiment of the present invention, the cut-out portion 19 is formed in the support tube coupling hole 13 so as to be open-shaped, and on the outside of the open portion of the incision 19, (20) so that they can be coupled to each other by the band member, the bolt and the nut (21). It is a matter of course to form a counterbore type groove (not shown) in the band member so that the head of the bolt fixing the cut-out portion 19 is not exposed to the side of the rich portion 30. [

At this time, the cut-out portion 19 is formed so as to open in the upper end direction of the left and right band members 11 and 12.

In the case of such an open support pipe fitting hole 13, when the support pipe 41 of the support body 40 is engaged, the fixture 20 is lifted so that the cutout 19 can pass through the support pipe 41 So that the support tube 41 is engaged with the guide tube 41 in a state where the support tube 41 is engaged.

When the foamed band assembly 10 according to the present invention as described above is used, the coupling between the superficial body 30 and the support body 40 can be rapidly and firmly provided without binding the rope to provide the floating structure 1 .

In the case of the floating structure 1 of the present invention, a support 40 constituting a lattice type, a foamed part 30 for providing buoyancy, and a part for connecting the support body 40 and the foamed part 30 to each other And the band assembly 10, and has a structure in which the support body 40 is positioned on the foamed portion 30 in a state of being installed on the sea.

The supporting member 40 is formed by a combination of a pipe 41 having a pipe structure and a + shaped connecting port 42 connecting the supporting pipe 41 in four directions, and the supporting pipe 41 and the connecting pipe 42 And they are connected by a mutual heat bonding method. In the case of such a structure of the support body 40, this structure is generally used.

The foamed part 30 is a foamed polypropylene part which is filed and registered by the present inventor (10-1246931 (1913.03.25), and the one provided by the production method thereof, It is possible to use a styrofoam rich material which is widely used in the air as the case may be.

The rich band assembly 10 has a support pipe coupling hole 13 of a closed configuration as shown in FIGS. 1 and 2 or an open support pipe coupling hole 13 as shown in FIGS. 3 and 4 Or the like may be selectively used.

FIG. 5 is a block diagram showing a procedure for fabricating a floating structure using a rich band assembly according to the present invention. FIG. 6 is a perspective view showing an example of assembling a band member to a support pipe in FIG. FIG. 7 is a perspective view showing an example of a support tube coupling step by thermally fusing a support tube and a + -shaped connector in the support assembly step of the present invention, FIG. 8 is an example in which a support is inserted and a support is inserted in FIG. 5 shows a state cross-sectional view in which the support and the rich are fixed by the band assembly by the rich fixing step, respectively.

In the case of using the foamed reinforced band assembly 10 provided in FIGS. 1 and 2 as a manufacturing method of the floating structure for a floating structure 1, the support pipe 41 is attached to the support pipe fitting hole 13 of the band assembly 10 Assembling a band assembly into a body; The support pipe 41 and the + -shaped fitting hole 42 are thermally fused with the lower ends of the left and right band members 11 and 12 of the band assembly 10 coupled to the support pipe 41 turned toward the sky, A support assembly step of assembling the support body 40 by connecting the support body 40; A rich ingress step of inserting the foamed bulb (30) while lifting a part of the support body (40) into the crane (50) while the support body (40) is assembled; The left and right band members 11 and 12 coupled to the support pipe 41 are turned downward to face the sky after inserting the bundle 30 into the binding groove 31 formed in the foamed bulb 30 Fixing the upper portions of the left and right band members 11 and 12 with bolts and nuts 15 while fixing the brackets 16 and 17 formed by the lower portions with bolts and nuts 18, The method comprising the steps of:

The band assembly step is performed before the support tube 41 is thermally fused to the female connector 42 as shown in FIG. 6, and the band member is raised upward with the lower end of the bracket 16 (17) And is provided in a rotated state.

Such a method is intended to stably provide the coupling operation of the support pipe 41 and the coupling hole 42 in the state of being close to the ground in the support assembly step.

The support assembling step is a generally known technique and is a constitution in which the end portions of the support body 40 and the connector 42 are heated and melted, and the both side members are cured in a pressurized state.

In the immobilizing step, first, the support body 40 is lifted using the crane 50 as shown in FIG. 8 so that the rich body 30 can be inserted downward.

9, the left and right band members 11 and 12 are rotated downward to form the bundle 30 on the support member 40, The upper ends of the left and right band members 11 and 12 are fixed to each other with bolts and nuts 15 while the brackets 16 and 17 formed at the lower side are fastened together And it can be fixed with bolts and nuts (18).

FIG. 10 is a block diagram of a process for fabricating a floating structure using a rich band assembly according to the present invention. FIG. 11 is a cross-sectional view illustrating an example in which a support is lifted with a support in FIG. 12 is a state sectional view in which the supporter and the rich are fixed by the band assembly by the fixing step in Fig.

When the foamed band assembly 10 provided in Figs. 3 and 4 is used as a manufacturing method of the floating structure 1, the support pipe 41 and the + (40); A rich ingress step of inserting the foamed bulb (30) while lifting a part of the support body (40) into the crane (50) while the support body (40) is assembled; The left and right band members 11 and 12 of the band assembly 10 are inserted into the binding groove 31 formed in the bundle 30 while the foamed portion 30 is inserted into the bundle 30, And fixing the brackets 16 and 17 formed at the lower side with the bolts and the nuts 18; The fixing piece 20 formed on the outer side of the cutout 19 is moved upward to insert the supporting tube 41 in the state where the supporting tube fitting hole 13 is opened and the fixing piece 20 is brought into close contact with the band member, And the nut 21, as shown in FIG.

The assembly of the support body 40 and the method of inserting the body 30 are the same as in Figs. 6 and 8. Fig.

In the supporting tube coupling step, the fixing piece 20 is moved upward in a state where a separate clamp or the like is coupled to the fixing piece 20 formed outwardly of the cut portion 19 as shown in FIG. When the fixing piece 20 is moved upward as described above, the support tube coupling hole 13 is kept open while the incision portion 19 is opened. At this time, the support tube 41 is pushed into the incision portion 19 The fixing member 20 is fixed to the band member with bolts and nuts 21 in a state in which the fixing member 20 is in close contact with the band member in a state in which the clamp or the like is removed from the fixing member 20.

According to the foamed band assembly 10 of the present invention constructed as described above and the method of manufacturing the floating structure 1 using the same, it is possible to use the band assembly 10 without using the rope, 40) can be fastly and firmly fixed, and maintenance of the floating structure (1) can be performed by replacing the corresponding parts at the time of breakage. Also, because the constituent members used are made of recyclable materials, it is possible to recycle them after use, so that the concern of environmental pollution can be minimized.

In addition, it is possible to provide the floating structure 1 as shown in FIGS. 13 and 14, and it can be utilized as a marine facility or an auxiliary material having various configurations such as a farm site and an offshore work site.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of protection of the present invention should not be limited to the described embodiment, but should be determined by the equivalents as well as the claims that follow.

1: Floating structure
10: (for foamed) band assembly
11, 12: band member 13: support tube coupling ball
14: Support ribs 15,18,21: Bolts and nuts
16, 17: Bracket 19:
20:
30: rich 31: binding groove
40: support body 41: support tube
42: End connector
50: Crane

Claims (6)

1. A foamed band assembly (10) for joining a superficial (30) and a support (40) in a lattice configuration, wherein:
The band assembly 10 is constituted by left and right band members 11 and 12 which are divided into right and left parts to be inserted into the binding groove 31 formed in the bundle 30 and in which the supporting tube coupling holes 13 are formed to be symmetrical to each other But;
The left and right band members 11 and 12 are assembled with bolts and nuts 15 in a state where upper portions formed with the support pipe coupling holes 13 are superimposed on each other, (17) are formed and assembled together by bolts and nuts (18).
The method of claim 1,
Wherein the brackets (16) (17) protruding outwardly from the lower side of the left and right band members (11) (12) are formed at a position rotated by 30 to 60 degrees toward one of the band members.
The method according to claim 1 or 2,
The left and right band members 11 and 12 have a width wider than the coupling groove 31 and have a width and a thickness that are inserted into the coupling groove 31 formed in the core 30 on the inner surface of the band members 11 and 12, (12a) is formed in such a manner that the band members (11) and (12) can be always fixed in a fixed position without shaking in the engaged state.
The method of claim 1,
The support pipe fitting hole 13 of the left and right band members 11 and 12 is formed with a cut-out portion 19,
And a fastening piece (20) is formed on the outside of the opened part of the cutout part (19) so as to be opposed to the other side so as to be mutually joined with the band member, the bolt and the nut (21) .
A support body (40) of a lattice type constituted by a + shaped connecting port (42) for connecting the support tube (41) in four directions; A foamed bulge 30 formed on both sides of the binding groove 31 so as to be recessed; The left and right band members 11 and 12 are divided into right and left band members which are inserted into the binding groove 31 formed in the bundle 30 and are formed so as to be symmetrical with each other on the upper side. 11 and 12 are assembled together with bolts and nuts 15 in a state where upper portions formed with the support pipe coupling holes 13 are overlapped with each other and brackets 16 and 17 protruding outward are formed on the lower side By means of a combination of a band assembly (10) for a foam bundle which is assembled with a bolt and a nut (18);
A band assembly assembling step of fitting a support pipe (41) to the support pipe fitting hole (13) of the band assembly (10);
The support tube 41 and the + -shaped connector 42 are thermally fused with each other so that the lower ends of the left and right band members 11 and 12 of the band assembly 10 coupled to the support tube 41 are turned toward the sky, A support assembly step of assembling the support body 40 by connecting the support body 40;
A rich ingress step of inserting the foamed bulb (30) while lifting a part of the support body (40) into the crane (50) while the support body (40) is assembled;
The left and right band members 11 and 12 coupled to the support pipe 41 are turned downward and inserted into the binding groove 31 formed in the foamed part 30 so that the lower end faces the sky after inserting the bundle 30 The upper side of the left and right band members 11 and 12 are fixed with bolts and nuts 15 while the brackets 16 and 17 formed at the lower side are fixed with bolts and nuts 18, Wherein the method comprises the steps of:
A support body (40) of a lattice type constituted by a + shaped connecting port (42) for connecting the support tube (41) in four directions; A foamed bulge 30 formed on both sides of the binding groove 31 so as to be recessed; The left and right band members 11 and 12 are divided into right and left band members which are inserted into the binding groove 31 formed in the bundle 30 and are formed so as to be symmetrical with each other on the upper side. 11 and 12 are assembled together with bolts and nuts 15 in a state where upper portions formed with the support pipe coupling holes 13 are overlapped with each other and brackets 16 and 17 protruding outward are formed on the lower side And the support pipe coupling hole 13 is formed to be opened by forming a cutout portion 19 and the outside of the open portion of the cutout portion 19 is formed to be opposed to the other side (10) by a combination of a band member and a bolt and a nut (21) to form a fixing piece (20) so as to face each other;
A support assembly step of assembling the support body 40 by mutually connecting the support tube 41 and the + -shaped connector 42 by heat fusion;
A rich ingress step of inserting the foamed bulb (30) while lifting a part of the support body (40) into the crane (50) while the support body (40) is assembled;
The left and right band members 11 and 12 of the band assembly 10 are inserted into the binding groove 31 formed in the bundle 30 while the foamed portion 30 is inserted into the bundle 30, And fixing the brackets 16 and 17 formed at the lower side with the bolts and the nuts 18;
The fixing piece 20 formed on the outer side of the opened portion of the cutout 19 is moved upward to insert the supporting tube 41 in the state where the supporting tube fitting hole 13 is opened and the fixing piece 20 to the band member And a support pipe coupling step of fixing the support member with bolts and nuts (21).

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