KR101096094B1 - Combination method of gravity type caisson structures - Google Patents

Abstract

PURPOSE: A coupling method of a gravity-type caisson is provided to enhance structural stability by increasing resistance to horizontal force by smoothing horizontal external force including wave force applied to a gravity-type caisson. CONSTITUTION: A coupling method of a gravity-type caisson is as follows. Connecting grooves(102), which are recessed from the surface, are formed on both sides of a gravity-type caisson(100). A plurality of gravity-type caissons are horizontally installed on the rubble mound or bottom plate of a gravity-type caisson in a row so that the connecting grooves make contact with each other. A connecting block(110) is inserted into the connecting groove to couple the gravity-type caissons so that the gravity-type caissons can resist horizontal force including wave force generated from sea.

Description

Combination method of gravity caisson {COMBINATION METHOD OF GRAVITY TYPE CAISSON STRUCTURES}

The present invention relates to a method for coupling a gravity caisson, and more particularly, to a method for coupling a gravity caisson that can increase the resistance to horizontal external forces such as wave force applied to the gravity caisson.

In general, gravity caisson is a structure that is essential to the construction of the port. For example, it is applied to important facilities of ports such as gravity barriers and caisson breakwaters.

Recently, the sea level is rising due to global warming and the design wave is rapidly increasing, and if it is not responding to such changes, the possibility of big accident is gradually increasing. In case of breakwater, it is getting bigger due to the increase in design wave height, but it is a fact that 50 years or more waves are not invaded at any time. We are troubled with.

Therefore, there is an urgent need for a method to proactively cope with changes in port logistics conditions, such as an increase in design wave and enlargement of ships due to climate change.

The technical problem of the present invention is to provide a method of coupling a gravity caisson for smoothing horizontal external forces such as wave force applied to a gravity caisson and ultimately increasing resistance to horizontal force to improve structural stability.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. There will be.

According to the present invention, the plurality of gravity caisson to form a connection groove recessed from the surface along the vertical direction on both sides of the gravitation caisson, the contact grooves on the gravitational caisson bottom plate or on the mound stone seats in contact with each other Installing in the transverse direction; And

And coupling the plurality of gravity caissons to each other by fitting the connection block to the connection groove so that the plurality of gravity caissons can be combined to resist the horizontal external force such as the wave force coming from the external sea. It is achieved by the caisson bonding method.

The cross section of the connecting groove,

Based on the vertical direction of the gravity caisson, is formed in a variety of known shapes, including rectangular, trapezoidal, semi-elliptic, etc.

The connection block,

It may be formed in a shape corresponding to the connecting groove.

The present invention provides a method of coupling a gravity caisson which combines a plurality of gravity caissons installed in a row in a transverse direction on a gravity caisson bottom plate or on a mound stone with a connection block, thereby smoothing the maximum horizontal force acting on the gravitation caisson for horizontal force Increasing resistance can improve structural stability.

1 is a block diagram of a gravity caisson according to the present invention.
Figure 2 is a plan view showing a transverse installation state of the gravity caisson according to the present invention.
Figure 3 is a plan view showing a transverse binding state of the gravity caisson according to the present invention.
Figure 4 is a view showing the breaking action of the gravity caisson according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

1 is a configuration diagram of a gravity caisson according to the present invention, Figure 2 is a plan view showing a transverse installation state of the gravity caisson according to the present invention, Figure 3 is a plan view showing a transverse binding state of the gravity caisson according to the present invention 4 is a view showing the breaking effect of the gravity caisson according to the present invention.

Gravity caisson according to the present invention, as shown in Figure 1, on both sides of the connection groove 102 is formed in the gravitation caisson 100 and the gravitation caisson 100 to the coupling groove 102 so as to bind to each other It is provided with a connection block 110 to be fitted.

Gravity caisson 100 is formed on both sides is formed with a connection groove 102 recessed from the surface to have a constant width along the vertical direction.

At this time, the cross section of the connection groove 102 is formed in a rectangular, trapezoidal, semi-elliptic, or the like, based on the vertical direction of the gravity caisson 100.

In addition, the cross section of the connection groove 102 may be formed in various shapes known in the art as long as it has a structure capable of binding the plurality of gravity caissons 100 by connecting to each other by the connection block 110.

The connection block 110 is formed in a shape corresponding to the connection groove 102 between the gravity caisson 100. The connection block 110 is fitted to the connection groove 102 serves to bind the gravity caisson 100 to each other.

As shown in Figs. 2 and 3, the method of combining the gravity caissons, in a lateral direction, arranges a plurality of gravity caissons 100 on a gravity caisson bottom plate (not shown) or on a mound sandstone (not shown). Installing and fitting the connection block 110 to the connection groove 102 of the gravity caisson 100 is composed of a step of binding a plurality of gravity caisson 100 to each other.

To explain this in more detail, the coupling method of the gravity caisson of the present invention, a plurality of gravity caisson 100 in a row in the transverse direction on the gravitation caisson bottom plate or on the mound seat and the connection groove 102 between the gravity caisson 100 The coupling block 110 is fitted to the coupling of the plurality of gravity caisson 100 to increase the resistance to the wave force acting from the external sea.

That is, in the method of coupling the gravity caisson according to the present invention, first, a plurality of gravity caissons 100 are arranged in a transverse direction such that the connecting grooves 102 of the gravity caisson 100 are adjacent to each other on the bottom of the gravity caisson or on the mound stone. Install. In this case, the connection grooves 102 between the gravity caisson 100 may be in contact with each other or spaced apart from each other.

Then, by fitting the connection block 110 to the connection groove 102 between the gravity caisson 100 by binding a plurality of gravity caisson 100 to each other by gravity caisson that can increase the resistance to the wave force from the external sea ( 100) to complete the combination.

Hereinafter, the half wave action of the wave force by the coupling method of the gravity caisson according to the present invention with reference to FIG.

As shown in FIG. 4, the coupling method of the gravity caisson according to the present invention is connected to a plurality of gravity caissons 100 installed in a row in a transverse direction on a gravity caisson bottom plate or on a mound stone. Since the block 110 is bound to each other, when the blue waves coming from the external sea acts as a breakwater, it is possible to increase the resistance to horizontal external forces such as wave force.

That is, when the wave coming from the open sea acts as a breakwater, when the gravity caisson 100 in the area affected by the wave tries to push to the side, the other gravity caisson 100 in the surrounding area is caused by the mutual binding structure. The resistance to the horizontal external force of the can increase the resistance to the horizontal force to significantly improve the structural stability of the breakwater.

Here, the wave force acting on the gravitational caisson 100 in the region affected by the wave is a positive wave force, the wave force acting on the gravity caisson 100 in the peripheral region is a negative wave force, the positive wave force is the gravity caisson (100) Negative wave force is generated when the force to pull the gravity caisson 100 in the peripheral area to the sea side in response to the positive wave force.

In addition, the maximum wave force acting on the breakwater generally acts with a time difference on each gravity caisson 100, when each gravity caisson 100 is associated with each other to resist the maximum wave force, the maximum wave force breakwater action of the breakwater It is not concentrated in the gravity caisson 100 by any one area by being dispersed and reduced to the gravity caisson 100 of the peripheral area can be smoothed horizontal external force such as wave force.

As described above, the coupling method of the gravity caisson according to the present invention, by binding a plurality of gravity caisson 100 installed in a row in the transverse direction in order to perform a breakwater function against the waves acting from the external sea to the connection block 110 By increasing the resistance to horizontal external forces such as waves, it is possible to smooth the maximum wave acting as a breakwater while improving structural stability.

In addition, by combining the connection block 110 between the gravity caisson 100 to block the entry of the blue between the gravity caisson 100 and the gravity caisson 100 by the blue mound stone caused by the entry of the blue between the caisson and caisson of the prior art It is possible to prevent the lateral vibration of the caisson due to the loss and resonance of the caisson.

While specific embodiments of the invention have been described and illustrated above, it is to be understood that the invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the invention. It is self-evident to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

100: gravity caisson
102: connecting groove
110: connection block

Claims (3)

Forming connection grooves recessed in a vertical direction on both surfaces of the plurality of gravity caissons;
Arranging the plurality of gravity caissons in a row on a mounded stone in a transverse direction such that the connecting grooves face each other; And
Including coupling the connection block between the connecting grooves facing each other, to bind the plurality of gravity caissons;
By binding a plurality of gravity caissons with each other, a plurality of binding forces acting between the inner side of the connecting groove and the outer side of the connecting block facing each other is formed,
Through the plurality of binding forces, can be combined to resist the horizontal external force received from the outside, it is possible to attenuate the vibration generated in the plurality of gravity caissons by the waves entering between the plurality of gravity caissons ,
How to combine gravity caissons.
The method of claim 1,
Through the plurality of binding forces, it is possible to smooth the horizontal external force received from the external sea by preventing the horizontal external force received from the external sea from being concentrated on any one of the plurality of gravity caissons.
How to combine gravity caissons.
The method according to claim 1 or 2,
The cross section of the connecting groove,
Based on the vertical direction of the gravity caisson, is formed in a variety of known shapes, including rectangular, trapezoidal, semi-elliptic, etc.
The connection block,
Characterized in that the shape corresponding to the connecting groove,
How to combine gravity caissons.

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