KR101894631B1 - Aluminum marine structures with aluminum buoys - Google Patents

Abstract

The present invention relates to an outer frame which constitutes an outer frame so that a space is formed at a center, at least one base frame provided at a lower end of the outer frame so as to cross the space, At least one connection frame installed at a lower end of the base frame so as to cross at right angles with the base frame, at least one floating member installed at a lower end of the connection frame in a state of being faced along the longitudinal direction of the connection frame, At least one bracket is installed on the lower end of the base frame and at least one bracket is provided at an upper end of the connection frame at a position corresponding to the bracket of the base frame, Brackets to each other A bracket is provided on an upper circumferential surface of the floating body, and a bracket opposed to the bracket of the floating body is provided at a lower end of the coupling frame to connect the bracket of the floating body with the bracket of the floating body And the brackets of the frame are bolted to each other in a state in which they are in alignment with each other.

Description

{Aluminum marine structures with aluminum buoys}

The present invention relates to an aluminum marine structure in which aluminum buoys are installed and more particularly to an aluminum marine structure in which aluminum buoys can be easily installed and an aluminum buoy is installed so that the installed aluminum buoy can be maintained in a firmly fixed state .

Floating structures such as floating floats, floating cage farms, flooded water-based leisure facilities, flooded fishing grounds, marine working lines, marine pants, floating sofas, pontoons and floating decks are floated with buoyancy structures under the floating structures , These ports are moored by separate securing means.

The mooring means for mooring the above-mentioned moorings may have various structures depending on the characteristics of the float and the manufacturing method.

Particularly, existing marine floating materials use styrofoam rich, buoyant pipe, wood to maintain buoyancy, and styrofoam rich is a major cause of serious pollution of the marine environment due to its low durability. As a result, Has been prohibited.

In recent years, polyethylene (PE), preferably medium density polyethylene (MDPE) or high density polyethylene (MDPE), which is excellent in corrosion resistance, ablation resistance and environment friendliness and can be fused and assembled easily and firmly by a butt welding method, It is being replaced by a floating structure consisting of buoyancy pipes and brackets made of polyethylene (HDPE).

On the other hand, such a resin-based structure also has a durability lower than that of metallic ones, and is easily broken. Further, since the method for fixing each component of a conventional structure, for example, a deck, a frame, and a floating body is complicated, .

: Registration Patent Publication No. 10-1646594

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide an aluminum foil which can be easily fixed to a connection frame by using a wire, To provide an aluminum marine structure with buoys.

According to an aspect of the present invention, there is provided an image display apparatus including an outer frame constituting an outer frame so as to form a space in the center, at least one base frame provided at a lower end of the outer frame, At least one connection frame installed at a lower end of the base frame so as to intersect at right angles with the base frame, and at least one connection frame installed at a lower end of the connection frame in a longitudinal direction of the connection frame, Wherein at least one bracket is provided at a lower end of the base frame and at least one bracket is provided at an upper end of the connection frame at a position corresponding to the bracket of the base frame, Bracket of base frame Wherein a bracket is provided on an upper circumferential surface of the aluminum buoy and a bracket opposed to the bracket of the aluminum buoy is provided on a lower end of the connection frame, And the bracket of the aluminum buoy and the bracket of the connection frame are bolted to each other in a state in which they are in alignment with each other.

The present invention can simplify the operation by fixing the aluminum buoy to the connection frame by using the wire, and also the aluminum buoy can be kept firmly fixed to the front and rear of the structure, thereby improving the stability.

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BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a three-dimensional view showing the structure of an aluminum sea structure provided with an aluminum buoy according to a preferred embodiment of the present invention; Fig.
Fig. 2 is a side view of Fig. 1; Fig.
Fig. 3 is a cutaway view along line AA in Fig. 2; Fig.
Fig. 4 is a view cut along the line BB in Fig. 3; Fig.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following detailed description, only two embodiments of the present invention will be described in order to achieve the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.
BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
As shown in Figs. 1 and 2, the aluminum marine structure provided with the aluminum buoy according to the present invention is a means for providing a work place for directly handling marine fish and shellfish collected at a farm site or the like. In addition, , Floating marine leisure facilities, floating marine fishing grounds, marine working lines, marine pants, floating sofas, bridges, floating decks and other marine structures.
The aluminum marine structure 100 includes an outer frame 10 having a rectangular frame so as to form a space 12 at a center thereof and a deck 16 disposed below the outer frame 10 at predetermined intervals in the horizontal direction, At least one base frame (14) for supporting the base frame (14), at least one connection frame (18) installed below the base frame (14) And at least one aluminum buoy 20 for lifting the respective components of the structure, that is, the outer frame, the deck, the base frame, and the connection frame, to the surface of the water.
The base frame 14 is welded by welding both ends of the base frame 14 to the lower end of the outer frame 10 while crossing the central space 12 of the outer frame 10, Which is a pedestal member raised to the center of the deck 16.
The deck 16 is a member mounted on the base frame 14 and covering the central space 12 of the outer frame 10 to provide a seat for the workers to sit on.
The base frame 14 and the connection frame 18 are connected to each other at right angles to each other. When a connection structure between one base frame 14 and the connection frame 18 is represented, At least one bracket 40 is provided at a predetermined distance from the side surface of the base frame 14 and an upper end of the connection frame 18 located below the base frame 14 is provided with a bracket 40 And the bracket 40 of the base frame 14 and the bracket 42 of the connection frame 18 are engaged with each other with the bolts and nuts 44) so that the connection frame (18) crosses the base frame (14) at right angles.
The aluminum buoy 20 is installed at the lower end of the connecting frame 18 and floats the structure on the water surface. The aluminum buoys 20 are fixed to the connection frame 18 in a state that the aluminum buoys 20 are aligned one after another along the longitudinal direction of the connection frame 18 in a state in which a plurality of aluminum buoys 20 are formed in the same structure, I will install it.
Most preferably, the aluminum buoy 20 is made of aluminum, which is a metal material having durability and excellent corrosion resistance so that a hollow space is formed therein so as to generate buoyancy, so that it is not easily damaged by waves or external impacts. In addition to the aluminum buoy 20, the outer frame 10, the base frame 14, the connecting frame 18, and the deck 16 are preferably made of aluminum to have both durability and corrosion resistance.
The connection structure of the connection frame 18 and the aluminum buoy 20 is such that a bracket 52 is provided on the upper circumferential surface of the aluminum buoy 20 and the aluminum buoy 20 The aluminum buoy 20 is connected to the connection frame 18 by fastening the brackets 50 and 52 with the bolts 54 in the state where the brackets 50 and 52 are in alignment with each other with the bracket 50 opposed to the bracket 52 Respectively.
The floating buoy structure of the present invention having the above-described structure can be installed at the lower end of the connecting frame 18 with a relatively simple joining method to increase work productivity, and the aluminum buoy 20 can be attached to the connecting frame 18 so that the structure can float stably even for a long period of time of use.
The lower surface of the front surface of the aluminum buoy 20 disposed at the front of the connecting frame 18 among the aluminum buoys 20 forms the inclined surface portion 24 so that the aluminum buoy 20 does not resist So that it can move smoothly.

10: outer frame 14: base frame
16: deck 18: connection frame
20: Aluminum buoy

Claims (2)

An outer frame 10 made of aluminum and constituting an outer skeleton so that a space 12 is formed at the center;
At least one base frame (14) installed at the lower end of the outer frame (10) across the space (12) and made of aluminum material;
A deck 16 mounted on the upper surface of the base frame 14 and made of aluminum to cover the space 12;
At least one connection frame (18) installed at the lower end of the base frame (14) so as to intersect the base frame (14) at right angles and made of aluminum material;
At least one aluminum buoy 20 installed in the lower end of the connecting frame 18 along the longitudinal direction of the connecting frame 18 and having an empty space formed therein and made of aluminum ;
At least one bracket 40 is provided on the side surface of the base frame 14 and at least one bracket 40 is provided at an upper end of the connection frame 18 at a position corresponding to the bracket 40 of the base frame 14. [ The bracket 40 of the base frame 14 and the bracket 42 of the connection frame 18 are fastened to each other with the bolts 44 engaged with each other;
A bracket 52 is provided on the upper circumferential surface of the aluminum buoy 20 and a bracket 50 opposed to the bracket 52 of the aluminum buoy 20 is provided on the lower end of the connecting frame 18 And the bracket of the aluminum buoy and the bracket of the connection frame are fastened to each other by bolts 54 in a state where they are in alignment with each other. delete

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