KR101172152B1 - Onshore Concrete Block Connection Method - Google Patents

Abstract

The present invention relates to a method of connecting concrete blocks in the sea, and more particularly, in the case of connecting concrete blocks which are floating in the sea, the position between blocks can be precisely adjusted in a short time, and the shear force concentrated on the connecting material can be dispersed. It relates to a method of connecting concrete blocks at sea.

Description

Onshore Concrete Block Connection Method

The present invention relates to a method of connecting concrete blocks in the sea, and more particularly, in the case of connecting concrete blocks that are floating in the sea, the position between the blocks can be accurately adjusted in a short time, and the shear force or bending moment acting on the connected concrete blocks. The present invention relates to a method of connecting concrete blocks at sea, which can resist them well.

Conventionally, there have been significant difficulties in assembling concrete blocks at sea. Even in calm seas with little waves, it is not easy to make two blocks come into contact with each other correctly without errors between up, down, left and right. Will occur. In order to solve this problem, a temporary facility for the connection work was needed, and tasks such as adjusting the height using heavy materials are being added.

In addition, since the connection between the surface and the surface after connection, a large amount of connecting material was needed because it must resist shear force and moment with only the connecting material (steel bar, stranded wire, etc.).

The present invention has been drawn to solve the problems of the background art described in the background, the problem to be solved by the present invention is simpler in the sea and the excellent ability to resist the shear force acting between the connected concrete blocks To provide a method of connecting concrete blocks.

The present invention as a means for solving the above problems,

In the method of connecting concrete blocks to each other at sea,

A shear key providing step of forming a protrusion on an opposite surface of any one of the opposite surfaces of the pair of concrete blocks adjacent to each other and a recess corresponding to the protrusion on the opposite surface of the other concrete block;

A through hole forming step of forming through holes penetrating all of the opposing surfaces at four corners of the pair of concrete blocks facing each other;

A work space forming step of forming a work space which is a recessed groove around a through hole located at an upper side of the concrete block and a manhole into which the person can enter the inside of the concrete block;

A pad coupling step of coupling a U-shaped elastically deformable pad to edges of opposite surfaces of the pair of concrete blocks facing each other;

A drainage step of inserting the protrusion into the recess while the pair of concrete blocks are launched at sea, and draining water between the concrete blocks while the pads are in contact with each other;

 A tension member fixing step of inserting a tension member penetrating through the through hole and fixing one end portion to one of the pair of concrete blocks and the other end portion to the other one block in a state where tension force is applied to the tension member; It provides a method of connecting concrete blocks in the sea, characterized in that comprises.

In this case, the tension member may be a steel bar or cable.

Further, according to the present invention,

It also provides a method of connecting concrete blocks at sea, characterized in that further comprising a hardener filling step of filling between the adjacent pair of concrete blocks with a hardener after the tension member fixing step,

It also provides a method of connecting concrete blocks at sea, characterized in that further comprising an EPS filling step of filling the EPS in the workspace after the tension member fixing step.

According to the present invention, by providing a shear key, the relative position between the blocks can be accurately adjusted in a relatively short time when the concrete blocks are connected to each other in the sea, and a large portion of the shear force between the blocks that the tension member bears can be shared. It is possible to provide a method of connecting concrete blocks at sea.

In addition, by providing a working space to facilitate the tensioning and fixing work of the tension material, by providing a manhole to allow the tensioning and fixing work of the tension material in the concrete block inside, the work related to the tension material in more convenient location It can provide a method of connecting concrete blocks in the sea can be carried out.

1 is an exploded perspective view for explaining a method of connecting concrete blocks in the sea according to an embodiment of the present invention.
2 is a view for explaining a drainage step.
3 is a cross-sectional view illustrating a state in which concrete blocks are connected at sea.

Hereinafter, one preferred embodiment of the present invention will be described with reference to the drawings to provide specific details for carrying out the present invention.

1 is an exploded perspective view illustrating a method of connecting concrete blocks at sea according to one embodiment of the present invention, FIG. 2 is a view for explaining a drainage step, and FIG. 3 is a view illustrating a state in which concrete blocks are connected at sea. It is sectional drawing for doing.

Concrete block connection method in the sea according to the present embodiment comprises a shear key preparing step, through-hole forming step, work space forming step, pad bonding step, drainage step, tension member fixing step and hardener filling step, EPS filling step.

In the present invention, although the name is described as a concrete block, a more accurate name should be seen as a reinforced concrete block, a floating structure floating on the water is provided with a space for forming buoyancy therein as shown in the cross-sectional view of FIG. The interior space may be empty or may be partially or fully filled with a material such as expanded styrene, but the space for fixing the tension member should be empty.

The shear key preparing step, the through-hole forming step, the work space forming step and the pad coupling step are preferably provided on the land as a step for providing a configuration in the concrete block.

The shear key preparing step is a protrusion 10 is disposed on the opposite surface of any one of the concrete blocks (conventionally referred to as the first block 100) of the concrete block to be connected adjacent to each other to the other one concrete block (conventional second The concave portion 11 corresponding to the protrusion 10 is formed on the opposite surface of the block 200.

In this case, it means that the recess 11 accommodates the entire protrusion 10, but is large enough to allow the protrusion 10 to move excessively vertically or horizontally in a state in which the protrusion 10 is accommodated in the recess 11. That means no state. The volume of the recess 11 may be slightly larger than the volume of the protrusion 10.

The through hole forming step is a step of forming through holes 20 penetrating all of the opposing surfaces, respectively, at four corners of the pair of concrete blocks facing each other. That is, as shown in FIG. 3, the through holes 20 may penetrate both the first block 100 and the second block 200.

The workspace forming step is a step of forming a workspace by forming a manhole 31 that can enter the interior of the concrete block. Work space 30 means a space that can work to fix the tension material passing through the through hole 20. Since the floating body 10 is often empty in order to obtain buoyancy for floating on water, the empty space becomes the working space 30.

The pad bonding step is to combine the U-shaped elastically deformable pads on a pair of opposing surfaces of the concrete blocks facing each other.

As shown in FIG. 1, the pad 40 of elastically deformable rubber material is coupled to the opposing surfaces of the first block 100 and the second block 200.

When the shear key preparation step, through hole formation step, work space formation step, pad coupling step is completed in the land, the concrete blocks are launched to the sea, and the protrusion of the first block 100 is recessed in the second block 200 ( 11) the space formed by the pads 40 and the concrete blocks 100 and 200 in a state where the pads 40 provided in the first block 100 and the pads provided in the second block 200 are in contact with each other. Implement a drainage step to drain the water.

In FIG. 2, the pair of concrete blocks 100 and 200 are in contact with each other, and an arrow indicates a drainage direction.

In the state shown in FIG. 2, even though the concrete blocks 100 and 200 are not pressed in the direction in which they are close to each other, the two concrete blocks 100 and 200 are brought into close contact with each other by water pressure, so that the pads 40 abut even when drained. Therefore, water does not flow into the space formed by the opposing surfaces of the pads 40 and the concrete blocks 100 and 200.

When the drainage step is completed, the tension member is fixed.

One tension member 50 is provided in each of the four through holes 20, as shown in Figure 1, as shown in Figure 3 through holes of the adjacent pair of concrete blocks (100, 200) One end is fixed to the first block 100 and the other end is fixed to the second block 200 while penetrating. As the tension member 50, a steel bar or a cable (a strand wire generally used for prestressed concrete girder) may be used, and is represented as a steel bar in this embodiment.

The tension member 50 supporting the moment occurring between the concrete blocks 100 and 200 is provided inside the concrete blocks 100 and 200 through the manhole 31 provided on the upper surface side of the concrete blocks 100 and 200. The workman enters the work space 30 to fix the both ends.

When the tension member fixing step is completed, a hardener filling step of filling the space between the concrete blocks (100,200) adjacently connected to each other, that is, the pad 40 and the opposing surfaces of the concrete blocks (100, 200) with a hardener is performed. Hardening material refers to a material that is in a liquid state such as concrete or cement mortar and then hardens after a certain time.

When the hardener filling step is completed, the workspace 30 is filled with EPS (not shown). EPS stands for Expanded Poly Styrene and is commonly known under the trademark Styrofoam. Since it is a very lightweight material, it is possible to effectively fill the workspace 30 without significantly increasing the total weight of the concrete block.

Although one preferred embodiment of the present invention has been described above by describing preferred embodiments of the present invention, the technical idea of the present invention is not limited to the described embodiments, and various embodiments of the present invention can be carried out in various forms within the technical idea of the present invention. It can be embodied by the method of connection of concrete blocks.

10: protrusion 11; Concave portion
20: through hole 30: workspace
40: pad 50: tension member

Claims (5)

In the method of connecting concrete blocks to each other at sea,
A shear key providing step of forming a protrusion on an opposite surface of any one of the opposite surfaces of the pair of concrete blocks adjacent to each other and a recess corresponding to the protrusion on the opposite surface of the other concrete block;
A through hole forming step of forming through holes penetrating all of the opposing surfaces at four corners of the pair of concrete blocks facing each other;
A workspace forming step of forming a manhole through which the person can enter into the inside of the concrete block on an upper side of the concrete block;
A pad coupling step of coupling a U-shaped elastically deformable pad to edges of opposite surfaces of the pair of concrete blocks facing each other;
A drainage step of inserting the protrusion into the recess while the pair of concrete blocks are launched at sea, and draining water between the concrete blocks while the pads are in contact with each other;
A tension member fixing step of inserting a tension member penetrating through the through hole and fixing one end portion to one block of a pair of concrete blocks while the other end portion is fixed to the other block in a state where a tension force is applied to the tension member; And,
Method of connecting concrete blocks at sea, characterized in that further comprising an EPS filling step of filling the EPS (Expanded Poly Styrene) in the workspace after the tension member fixing step. The method of claim 1,
The tension member is a method of connecting concrete blocks at sea, characterized in that the steel bar. The method of claim 1,
The tension member is connected to the concrete block at sea, characterized in that the cable. 4. The method according to any one of claims 1 to 3,
And a hardener filling step of filling the pair of adjacent concrete blocks with a hardener after the tension member fixing step. delete

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