KR20230116199A - Eco-friendly assembled aluminum sub-residual bridge and its manufacturing method - Google Patents

Abstract

The present invention relates to an eco-friendly floating pier made by assembling a plurality of buoyancy bodies that are resistant to sunlight and have high durability and can be used for a long time, and are lightweight and have a high buoyancy effect. As it is made of a buoyancy body that can be used for a long time, it can be recovered and reused when the buoyancy body is old, reducing environmental pollution. it's about

Description

Eco-friendly assembled aluminum sub-residual bridge and its manufacturing method

The present invention relates to a floating pier and a manufacturing method, and more particularly, to an eco-friendly floating pier made of a buoyant body that is light and has strong buoyancy and improved durability so that it can be used for a long time and a manufacturing method thereof.

That is, the present invention relates to an eco-friendly floating pier that can relatively increase buoyancy as it is made of aluminum, and can be recovered and reused when the buoyancy body is old, thereby reducing environmental pollution and a manufacturing method thereof.

Moreover, the present invention relates to an eco-friendly floating pier with improved expandability to a desired area as it is made by assembling a plurality of buoyant bodies and a manufacturing method thereof.

In addition, the present invention relates to an eco-friendly floating pier that is made of an aluminum alloy but can be anodized to realize various colors and has improved wear resistance and corrosion resistance, and a method for manufacturing the same.

A floating pier is a structure made of reinforced concrete, steel plate, wood, etc. on top of a buoyant body that floats on water, making it easy for passengers to board and disembark and to load cargo.

The buoyancy body constituting such a floating pier is usually made of foam (aka FRP, PE, Styrofoam), and the foam buoyancy body made in this way is corroded when exposed to sunlight for a long time, and there is a problem that it is damaged even by a small impact.

That is, the conventional foam buoyancy body has a short lifespan due to cracks in sunlight, and as seawater flows in between the pores of the foam constituting the buoyancy body and becomes heavy, the buoyancy is lowered, as well as difficult to collect, and it is difficult to collect seawater and waves. As it is decomposed into fine particles, it deteriorates water quality, and there is a problem in that fish eat the fine styrofoam.

Accordingly, floating piers with high durability and more convenient construction and use have been developed, and examples thereof include Patent Documents 1 to 3.

Patent Document 1 is a pier floating in the sea, a hinge member installed on land, a footbridge having one side connected to the hinge member and the other side connected to the pier, located on land, and arranged at a distance from the hinge member, A floating pier that can be hung on one side of the upper part of the footbridge, includes a rotatable hooking part, and a rotating part installed on the land and rotatably supporting the hooking part, and when the footbridge is caught on the hooking part and the rotating part rotates, the footbridge rotates together. ego,

In Patent Document 2, in a lightweight high-strength concrete floating pier, the housing of the lightweight high-strength concrete floating pier is poured with a predetermined thickness of lightweight high-strength concrete on the bottom surface in contact with the water surface and the four sides connected to the bottom surface, and a stainless wire mesh is placed on the outer wall of the housing One of the four sides of the housing is formed with a curved portion connected to the bottom surface, and the other sides are formed vertically connected to the bottom surface. A buoyant material is formed to a predetermined thickness in the housing, and a plurality of partition walls are formed inside the housing to form a buoyancy space so that they are disposed adjacent to each other in the longitudinal or width direction to provide buoyancy. It is a lightweight high-strength concrete floating pier,

Patent Document 3 includes a plurality of buoyancy pipes that generate a predetermined buoyancy, a connection bracket connecting the buoyancy pipes, and a scaffold assembled on top of the connection bracket, and the buoyancy pipe, the connection bracket, and the scaffold are made of PE material. In the floating pier manufactured using the buoyancy pipe, the buoyancy pipe becomes a zigzag pipe in which a U-shaped pipe and a straight pipe are connected along the length direction, and the buoyancy pipes are arranged in the horizontal and vertical directions at regular intervals, but each buoyancy pipe The floating pier base is constructed by cross-connecting them in a weaving method, and the connecting brackets are installed at the front and rear ends of the floating pier base, and at the left and right ends, respectively, to connect the ends of the horizontal and vertical buoyancy pipes constituting the floating pier base. It is a high-strength floating pier that crosses buoyancy pipes.

As such, various floating pier technologies have been developed that increase durability and are easy to construct and use. However, in some technologies constituting conventional floating piers, the buoyancy body is composed of foam, and foam is weak against sunlight or water, so it is not exposed to sunlight and water for a long time. When exposed, it can be corroded and easily broken, and there is a problem in that buoyancy decreases as water permeates into the pores of the foam and becomes heavy.

In addition, most floating piers have a disadvantage in that expandability is poor as the buoyancy body is integrally configured with other structures.

Republic of Korea Patent No. 10-1254018 Republic of Korea Patent No. 10-1255501 Republic of Korea Patent No. 10-1298679

The present invention was developed to solve the problems of the prior art as described above, and the buoyancy body is strong against sunlight and water, so it can be used for a long time with high durability, and provides an eco-friendly floating pier with a high buoyancy effect due to light weight and a method for manufacturing the same. aims to do

In particular, an object of the present invention is to provide an eco-friendly floating pier that is made of an aluminum alloy, is light and has strong buoyancy, and can be used for a long time due to improved durability, and can be recovered and reused when old, and a method for manufacturing the same.

In addition, an object of the present invention is to provide an eco-friendly floating pier and a method for manufacturing the same, which can implement various colors by making the buoyant body of an aluminum alloy and anodizing, and having increased wear resistance and corrosion resistance.

Furthermore, an object of the present invention is to provide an eco-friendly floating pier with improved expandability to a desired area and a method for manufacturing the same as it is made by assembling a plurality of buoyancy bodies.

An eco-friendly floating pier according to the present invention for solving the above object is a floating pier for supporting another structure by floating on the water, comprising: a support frame having a storage space therein;

A plurality of buoyancy bodies filled and assembled inside the support frame; an upper panel installed on top of the support frame to form a flat bottom; And it is characterized in that it comprises a support file that is inserted into the file fixing hole formed in the support frame and fixed so that the support frame floats on the surface of the water.

It is preferable that support wings for supporting the lower end of the buoyancy body are formed inside the frame constituting the support frame.

In the buoyancy body, a plurality of coupling protrusions and coupling grooves for coupling with neighboring buoyancy bodies may be formed on outer surfaces of the upper and lower cylinders.

It is preferable that an aluminum adhesive is applied to the bonding surfaces of the upper and lower cylinders to be bonded.

A method for manufacturing a buoyancy body for a floating pier according to the present invention includes a molding step of forming an upper cylinder and a lower cylinder constituting the buoyancy body; An anodizing step of anodizing the molded upper cylinder and lower cylinder to form an oxide film on the surface; A washing step of washing the anodized upper and lower cylinders; an assembling step of assembling the cleaned upper and lower cylinders by coupling them to each other; A painting step of electrodeposition painting a desired color on the surface of the assembled buoyancy body; It is characterized in that it includes a drying step of drying the painted buoyant body.

Eco-friendly floating pier according to the present invention has the effect of providing a buoyancy body with improved durability by being resistant to sunlight as it is made of a high-strength and lightweight aluminum alloy.

In addition, the present invention has the effect of providing a more vivid and desired color buoyancy body by anodizing and coloring the buoyancy body made of aluminum alloy.

In addition, since the present invention is made using aluminum, aluminum, which is a material of the buoyancy body, can be recycled when discarded after a long period of use, thereby increasing the recycling efficiency of the buoyancy body and preventing environmental contamination by waste of the buoyancy body. There are effects that can be done.

1 is a perspective view of an example of an eco-friendly floating pier according to the present invention
Figure 2 is an exploded perspective view of an example of an eco-friendly floating pier according to the present invention
Figure 3 is a perspective view of the buoyancy body constituting the eco-friendly floating pier according to the present invention
Figure 4 is an exploded perspective view of the buoyancy body constituting the eco-friendly floating pier according to the present invention
5 is a manufacturing process diagram of the buoyancy body constituting the eco-friendly floating pier according to the present invention

Since the present invention can be practiced by applying various changes, specific embodiments are illustrated in the drawings and will be described through detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

Like reference numerals have been used for like elements throughout the description of each figure. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

According to the present invention, since the buoyancy body is made of a high-strength and lightweight aluminum alloy, it is resistant to sunlight and durability can be improved, and it is made by assembling a plurality of buoyancy bodies and has excellent expandability.

An eco-friendly floating pier according to the present invention is a floating pier that supports other structures by floating on the water surface, and as shown in FIGS. 1 and 2, a support frame 10 having a storage space therein; A plurality of buoyancy bodies 20 filled and assembled inside the support frame; An upper panel 30 installed on top of the support frame to form a flat bottom; and a support file 40 which is inserted into and coupled to a file fixing hole formed in the support frame to fix the support frame to float on the surface of the water.

The support frame 10 is a structure that maintains the appearance of the floating pier, and may be made of corrosion-resistant stainless steel or the like, and may be made by variously deformed according to the planar shape of the floating pier.

As described above, the support frame 10 is made to form a storage space therein by combining a plurality of frames, and the file fixing hole 11 to allow the support pile 40 to be coupled to one side of the frame. ) is preferably further formed.

In addition, support wings 10s for supporting the lower end of the buoyancy body are formed inside the frame constituting the support frame to prevent the buoyancy body filled inside from being separated from the support frame.

The buoyancy body 20 is for providing buoyancy to the floating pier, and a plurality of them are installed inside the support frame so that the floating pier including the support body can maintain a floating state on the surface of the water.

The buoyancy body 20 is made of aluminum alloy and is lightweight and has high buoyancy as well as high durability.

Although the buoyancy body 20 is shown in the form of a triangular prism in the drawing, this is an example and may be manufactured in the form of a polygonal prism including a square.

The buoyancy body 20 can be manufactured by separating the upper cylinder and the lower cylinder, and combining the upper and lower cylinders to form one cylinder with the inside sealed.

That is, the upper cylinder 21 and the lower cylinder 22 are formed with empty spaces, and opposite ends are open, so that one buoyancy body 20 is made by combining and integrating the open ends.

A plurality of coupling protrusions 20d and coupling grooves 20g for coupling with neighboring buoyancy bodies may be formed on an outer surface of the buoyancy body.

The coupling protrusion 20d and the coupling groove 20g not only function to increase the coupling force with neighboring buoyancy bodies, but also serve as reinforcing ribs for reinforcing the strength of the buoyancy body itself.

In addition, the upper cylinder 21 may be assembled by inserting the open end of the lower cylinder into the open end of the upper cylinder, since the flat outer circumferential surface of the open end is smaller than the outer circumferential surface of the open end of the lower cylinder 22.

Of course, if the adhesive hardens by isolating after applying the adhesive to the surfaces in contact with each other before inserting the coupling end of the lower cylinder into the coupling end of the upper cylinder, the upper and lower cylinders can be more firmly coupled.

Hereinafter, a method for manufacturing a buoyancy body constituting a floating pier according to the present invention will be described.

The floating pier manufacturing method of the present invention is similar to the conventional floating pier manufacturing method. However, there is a feature in the method of manufacturing the buoyancy body constituting the floating pier, and the method of manufacturing the buoyancy body includes a molding step of forming the upper and lower cylinders constituting the buoyancy body; An anodizing step of anodizing the molded upper cylinder and lower cylinder to form an oxide film on the surface; A washing step of washing the anodized upper and lower cylinders; an assembling step of assembling the cleaned upper and lower cylinders by coupling them to each other; A painting step of electrodeposition painting a desired color on the surface of the assembled buoyancy body; A drying step of drying the painted buoyant body is included. The molding step is a step of molding the upper cylinder and the lower cylinder, and may be injection molded using a mold having the shape of the upper cylinder and the lower cylinder.

In the injected upper and lower cylinders, unnecessary parts generated during the injection process are polished and removed, and the cleaned upper and lower cylinders are subjected to an anodizing step.

The anodizing step is a step for oxidizing the surfaces of the upper and lower cylinders so that the paint penetrates more deeply, and may be performed under the same conditions as the anodizing of aluminum alloys commonly used.

In the anodizing step, a cylinder made of aluminum alloy is placed in a tank containing electrolyte, aluminum is oxidized by oxygen that is energized with the electrolyte as an anode, and an aluminum oxide film is formed, and the upper and lower cylinders have improved corrosion resistance and wear resistance, and are also sturdy A film can be formed.

The cleaning step is a step for removing foreign substances adhered to the surfaces of the upper and lower cylinders during the anodizing process, and foreign substances adhered to the surfaces are removed as the washing is performed in multiple steps.

The assembling step is a step of assembling the washed and dried upper and lower cylinders to make a buoyancy body. An aluminum adhesive may be further applied to the joint portion so that the upper cylinder and the lower cylinder are more firmly coupled and leaks may be prevented from occurring at the joint portion.

The painting step is a step of applying a desired color to the surface of the buoyancy body, and may be painted by selecting any one of various color paints according to the use of the buoyancy body and the needs of consumers.

The drying step is a step of drying the electrodeposition-coated paint, and it is preferable to adjust the drying temperature in consideration of the characteristics of the paint so that the colored paint is hardened to increase strength.

10: support frame
10s: support wing
11: file fixing hole
20: buoyancy body
20d: coupling protrusion 20g: coupling groove
11: upper body
12: lower body
30: upper panel
40: support file

Claims (5)

In a floating pier that supports other structures by floating on the water,
A support frame having a storage space therein;
A plurality of buoyancy bodies filled and assembled inside the support frame;
an upper panel installed on top of the support frame to form a flat bottom; and
Eco-friendly floating pier, characterized in that it comprises a support file that is inserted into the pile fixing hole formed in the support frame and fixed so that the support frame floats on the water surface. According to claim 1,
An eco-friendly floating pier, characterized in that support wings (10s) for supporting the lower end of the buoyancy body are formed inside the frame constituting the support frame. According to claim 1,
The buoyancy body is an eco-friendly floating pier, characterized in that a plurality of coupling protrusions and coupling grooves for coupling with neighboring buoyancy bodies are formed on the outer surfaces of the upper and lower cylinders. According to claim 3,
An eco-friendly floating pier, characterized in that aluminum adhesive is applied to the bonding surface of the upper cylinder and the lower cylinder. In the method of manufacturing a buoyancy body constituting the floating pier of any one of claims 1 to 4,
A molding step of molding the upper cylinder and the lower cylinder constituting the buoyancy body;
An anodizing step of anodizing the molded upper cylinder and lower cylinder to form an oxide film on the surface;
A washing step of washing the anodized upper and lower cylinders;
an assembling step of assembling the cleaned upper and lower cylinders by coupling them to each other;
A painting step of electrodeposition painting a desired color on the surface of the assembled buoyancy body;
A method for manufacturing a buoyancy body for an eco-friendly floating pier, comprising a drying step of drying the painted buoyancy body.