KR102532492B1 - Construction method of anchor block for settling an anchor block when boring underwater bottom - Google Patents

Abstract

The present invention relates to an anchor block installation method that installs an anchor block by sinking the same during a process of excavating the underwater bottom, comprising the steps of: preparing an anchor block formed of a heavy body including an upper surface and a lower surface, used to moor a floating structure on the water, and including an excavation hole that is an empty space between the lower surface and the underwater bottom when seating on the underwater bottom by having an excavation through hole penetrating from the upper surface to the lower surface and a peripheral part of the lower surface protrude more than a central part of the lower surface; installing an excavation rotation axis with an excavation bit formed at one end through the excavation through hole to excavate the underwater bottom in the excavation hole of the anchor block; and installing a power source on the other end of the excavation rotation axis to rotate the excavation rotation axis and excavating the underwater bottom with the excavation bit, thereby capable of reducing costs and shortening time when installing anchor blocks.

Description

A method of installing an anchor block by sinking an anchor block in the process of excavating the underwater bottom {Construction method of anchor block for settling an anchor block when boring bottom}

The present invention relates to an anchor block installation method in which an anchor block is submerged and installed in the process of excavating an underwater bottom. It relates to an anchor block installation method for submerging and installing an anchor block including an anchor block by excavating the bottom of the water with an excavation bit through an excavation rotation axis formed with an excavation bit through an excavation through hole.

Floating mooring facilities refer to various structures such as floating piers, barges, floating houses, etc. constructed on the surface of a river or sea. It consists of a pontoon, a floating body that supports the building by generating buoyancy in the form of a box made of steel or concrete, a connecting bridge connecting the pontoon to the land, and a mooring chain anchoring the pontoon. Such a pontoon is fixed to a plurality of fixed piles installed vertically in the submerged ground through a connecting rope, or is composed of a mooring tank by connecting a cable or the like to an anchor disposed on the bottom of the water.

It is common for anchors to be made of steel or concrete blocks and installed according to external forces such as impact force of a ship, tidal force or wave force. In particular, concrete blocks are often used in clay soil or sandy soil having a large external force. It can support floating mooring facilities through horizontal resistance such as bottom and side adhesion, difference between passive earth pressure and active earth pressure, and vertical resistance such as underwater weight and underwater soil cover weight.

In general, in order to construct an anchor in a buried type having a large bearing capacity underwater, the seabed is excavated, the anchor is placed, and then the anchor is installed by performing cover soil.

Korean Patent Registration No. 10-1878918 is a mooring anchor block using water pressure and a method for burying the block. It is a concrete block used when installing a floating pier, a fixed facility for anchoring a ship in a place where the underwater ground is made of mud (Nitto). When the fabricated mooring anchor block sinks from underwater to the submerged ground, the water jet is used to apply pressure to the underwater ground where the mooring anchor block will be located so that the submerged ground is hollowed, thereby increasing the anchor's underwater ground fixing power. It relates to a mooring anchor block using hydraulic pressure and a method of burying the block.

However, the registered patent has a disadvantage in that when the underwater ground is hard, the water jet alone cannot excavate the underwater ground, and the sludge generated during the excavation process is flowed into the water, causing environmental pollution.

In addition, when working in a place made of mud (nitto), there are many cases where a separate manpower is directly put in around the anchor to inject air until the anchor block is completely submerged, which also causes cost and safety problems.

Republic of Korea Patent Registration No. 10-1878918 (2018.07.10)

In order to solve the above problem, the present invention provides an anchor block including a drilling hole in which a drilling through-hole penetrating from the upper surface to the lower surface and a circumference of the lower surface protrudes from the center of the lower surface, and a drilling rotation shaft having a drilling bit formed thereon. It relates to an anchor block installation method in which the anchor block is submerged and installed by excavating the underwater bottom with an excavation bit.

In the anchor block installation method for submerging and installing an anchor block in the process of excavating an underwater floor according to an embodiment of the present invention, it is formed of a weight body including an upper surface and a lower surface and mooring a floating structure on the water, from the upper surface to the lower surface. Preparing an anchor block that includes an excavation hole that is an empty space between the lower surface and the underwater bottom when the circumference of the drilling through hole and the lower surface protrudes from the central part of the lower surface to pass through; Installing an excavation rotary shaft having an excavation bit formed at one end through an excavation through-hole to excavate an underwater bottom in an excavation hole of an anchor block; Mounting a power source on the other end of the excavation rotation shaft to rotate the excavation rotation shaft to excavate the bottom of the water with an excavation bit; may include.

In addition, in the step of preparing the anchor block, the anchor block can be submerged and installed in the process of excavating the underwater floor, characterized in that a predetermined inclination angle is formed from the circumference of the lower surface of the anchor block toward the central part of the lower surface.

In addition, the step of preparing the anchor block can be installed by sinking the anchor block in the process of excavating the underwater floor, characterized in that it further comprises at least one auxiliary through-hole penetrating from the upper surface to the lower surface of the anchor block.

In addition, the anchor block may be submerged and installed in the process of excavating the underwater bottom, further comprising the step of seating the anchor block on the underwater bottom.

In addition, a step of fixing the anchor block to the underwater bottom after excavating the underwater bottom with an excavation bit may be further included.

In addition, in the step of installing the drilling rotation shaft through the drilling through-hole, the step of installing a sludge discharge pipe having one end connected to the drilling hole of the anchor block and the other end connected to the outside may be further included.

In addition, in the step of excavating the underwater bottom with an excavation bit, a step of carrying sludge generated during excavation to the outside through a sludge discharge pipe may be further included.

In addition, the step of installing the sludge discharge pipe may further include installing a sludge discharge pump at the other end of the sludge discharge pipe.

In addition, the step of installing the sludge discharge pipe may further include installing an outside air inlet pipe having one end communicated in the middle of the sludge discharge pipe and the other end connected to the outside so that outside air can flow into the sludge discharge pipe.

In addition, the step of installing the outdoor air inlet pipe may further include installing an outdoor air inlet fan at the other end of the outdoor air inlet pipe.

According to the configuration described above, the anchor block installation method in which the anchor block is submerged and installed in the process of excavating the underwater floor according to the present invention can install the anchor block while excavating the underwater floor, thereby reducing the cost when installing the anchor block. and has the efficiency of reducing time.

In addition, since the anchor block can be installed at the same time as excavating the underwater bottom, there is an advantage in that the anchor block can easily adjust the height of the submerged bottom.

In addition, it is possible to carry out the sludge generated during excavation work separately without discharging it into the water, so there is an effect of preventing environmental pollution.

The effects obtainable in the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below. will be.

1 is a block diagram of an anchor block installation method in which an anchor block is submerged and installed in the process of excavating an underwater bottom.
Figure 2a is a perspective view of an anchor block including a drilling through-hole and a drilling hole.
Figure 2b is a perspective view of an anchor block including a drilling hole and a drilling hole having a predetermined inclination angle.
Figure 2c is a perspective view of an anchor block including a drilling through hole and a drilling hole and having a circular upper and lower surface.
Figure 3 is a side view of the step of seating the anchor block on the bottom of the water.
Figure 4 is a side view of the step of installing the drilling axis of rotation of the anchor block installation device through the drilling through-hole.
Figure 5 is a side view of the step of excavating the bottom of the water with a drilling bit.
6A is a side view of a sludge discharge pipe formed in water.
6B is a side view in which only the sludge discharge pipe is installed.
Figure 6c is a side view of the sludge discharge pipe formed on the ground and the outside air inlet pipe formed in the water.
7 is a side view of the sludge discharge pump connected to the sludge discharge pipe and the outdoor air inlet fan connected to the outside air inlet pipe.
8 is a side view of a step of fixing an anchor block to the underwater bottom after excavating the underwater bottom with a drilling bit.

The terms used in this specification will be briefly described, and the present invention will be described in detail.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible while considering the functions in the present invention, but these may vary depending on the intention of a person skilled in the art or precedent, the emergence of new technologies, and the like. In addition, in a specific case, there is also a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, not simply the name of the term.

When it is said that a certain part "includes" a certain component throughout the specification, it means that it may further include other components without excluding other components unless otherwise stated. In addition, when a part is said to be "connected" to another part throughout the specification, this includes not only the case of being "directly connected" but also the case of being connected "with another component in between".

Hereinafter, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice with reference to the accompanying drawings. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1, an anchor block installation method (S1) in which an anchor block is submerged and installed in the process of excavating an underwater floor according to an embodiment is formed of a weight body including an upper and lower surface and mooring a floating structure on the water Preparing an anchor block including a through hole penetrating from the upper surface to the lower surface and an excavation hole, which is an empty space between the lower surface and the underwater bottom when the circumference of the lower surface protrudes from the central part of the lower surface and is seated on the underwater bottom (S10), In order to excavate the underwater bottom in the drilling hole of the anchor block, an excavation rotary shaft having an excavation bit formed at one end passes through the excavation through-hole (S20) and a power source is mounted on the other end of the excavation rotary shaft to rotate the excavation rotary shaft to the underwater bottom. It includes a step (S30) of excavating with an excavation bit.

The step of preparing an anchor block (S10). Referring to FIGS. 2A and 2B, the excavation through-hole 11 and the lower surface ( An anchor block 10 forming a predetermined excavation hole 13 is prepared in 10b). The anchor block 10 may be made of concrete to be connected to the floating structure and cable to be fixed to the bottom of the water, and may include reinforcing bars therein, if necessary. This is when the anchor block 10 is fixed to the bottom of the water so that it does not move according to the tension of the cable with the floating structure on the water according to the change in the height of the water surface, the material or weight of the anchor block 10, etc. is not limited according to a specific embodiment.

In addition, the shape of the anchor block 10 is not limited according to a specific embodiment, but referring to FIG. 2c, the upper surface 10a and the lower surface 10b may be circular anchor blocks 10.

Referring to FIGS. 2a, 2b and 2c, the lug 14 is formed on the upper surface 10a of the anchor block 10 and is connected to a chain to lift the anchor block 10 to the bottom of the water with a crane or the like. corresponds to the part. When the lug 14 is not formed in the center of the drilling through hole 11 of the anchor block 10, one may be formed in the center of the upper surface 10a of the anchor block 10. Alternatively, two anchor blocks 10 may be formed at the facing corners of the upper surface 10a, and four anchor blocks may be formed at each corner. This is not limited to a specific embodiment, and can be modified according to the size and weight of the anchor block 10.

4 and 5, the drilling through-hole 11 of the anchor block 10 is formed to such an extent that the drilling rotation shaft 20 of the anchor block 10 installation device can pass through and rotate. The location of the excavation through-hole 11 is generally formed in the central portion of the upper surface 10a, and may be formed at a predetermined distance from the center according to the scale of the anchor block installation device 1, or multiple according to the excavation area. Can be made into a dog. In addition, depending on the size of the drilling bit 21 of the anchor block installation device 1, the drilling bit 21 may be formed to a size sufficient to pass through the drilling through hole 11.

4 and 5, the drilling hole 13 is a space in which the drilling bit 21 can excavate the underwater bottom, and when the anchor block 10 is seated on the underwater bottom, the anchor block 10 and the underwater It is the space formed between the floors. The shape and size of the drilling hole 13 are the size and height of the anchor block 10, the size and type of the anchor block installation device 1, the size and shape of the drilling bit 21, the material of the underwater soil, the underwater bottom Depending on the rate of excavation and the degree of sludge generation, etc. In particular, when the ground at the bottom of the water is clay soil or sandy soil, referring to FIG. 2B, a predetermined inclination angle may be formed from the circumference of the lower surface 10b of the anchor block 10 toward the central portion of the lower surface 10b. This may make it easier to install on the underwater bottom due to the load of the anchor block 10 as negative pressure is formed in the excavation hole 13 while soil or sand in the excavation portion is removed during underwater bottom excavation.

Also, referring to FIGS. 2a, 2b and 2c, the step of preparing an anchor block (S10). At least one auxiliary through hole 12 penetrating from the upper surface 10a to the lower surface 10b of the anchor block 10 may be further included. The auxiliary through-hole 12 is for introducing necessary materials into the drilling hole 13 as the underwater bottom is excavated, and is generally formed smaller than the diameter of the drilling through-hole 11. In addition, a plurality of auxiliary through-holes 12 may be formed as needed.

In addition, a step (S11) of seating the anchor block 10 on the bottom of the water may be included. In one embodiment, the lug 14 of the anchor block 10 can be connected to the chain and secured to the bottom of the water through a crane. In particular, referring to FIG. 3, it is characterized in that the part where the drilling hole 13 is located is seated on the bottom of the water.

Referring to FIG. 4, in the step of installing the excavation rotation shaft through the excavation through-hole (S20), the excavation rotation shaft 20 is installed in the excavation through-hole 11 for the excavation work after the anchor block 10 is seated on the underwater bottom to be installed. ) can be installed.

Alternatively, when the width of the upper surface 10a and the lower surface 10b of the anchor block 10 is somewhat larger than the size of the anchor block installation device 1, the drilling bit 21 connected to one end of the drilling rotary shaft 20 It may also be larger than the diameter of the drilling shaft 20. In this case, the drilling shaft 20 and the separated drilling bit 21 are first located on the bottom of the water where the anchor block 10 is to be installed, then the anchor block 10 is placed on the bottom of the water, and then the drilling shaft 20 and can also connect

In this process, a step (S21) of installing a sludge discharge pipe having one end connected to the drilling hole of the anchor block and the other end connected to the outside may be further included. When excavating the bottom of the water, excavation soil, seawater and other foreign substances (sludge) are generated. In this case, the excavation hole 13 of the anchor block 10 and the excavation hole 13 are closed from the outside and obstruct the installation of the anchor block 10 due to the sludge in the excavation hole 13, so the efficiency of excavation work is reduced It can be.

As a result, a sludge discharge pipe 30 may be installed in the drilling hole 13 in order to carry out the sludge generated in the drilling hole 13 to the outside. In addition, the sludge discharge pipe 30 is inserted into the auxiliary through-hole 12 so that one end is connected to the drilling hole 13 of the anchor block 10 and the other end can be connected to the outside. Alternatively, it may be simultaneously inserted into the drilling through-hole 11 together with the drilling shaft 20, and may be installed inside the drilling shaft 20. That is, the sludge introduced into the drilling bit 21 located in parallel to the drilling through-hole 11 or installed inside the drilling shaft 20 and having a sludge inlet pipe formed is sludge discharge pipe 30 in the drilling shaft 20 can be transferred to This may be configured differently depending on the size of the anchor block 10 and the size of the anchor block installation device 1, and may be changed according to work efficiency when installing the anchor block 10. The installation order of the sludge discharge pipe 30 is not particularly limited according to an embodiment, and the order can be changed if necessary.

Referring to FIG. 5, in the step of excavating the underwater floor with an excavation bit (S30), the rotational power source is connected to the other end of the excavation rotating shaft 20, and the excavation bit 21 connected to one end is rotated using the rotational force of the power source to remove the underwater floor. can be excavated. Through the excavation process, an excavation space is formed on the submerged bottom of the excavation hole 13 and may be buried in the submerged bottom due to the load of the anchor block 10 into the space. In this process, the length of the excavation rotary shaft 20 may be adjusted according to the target installation height of the anchor block 10 .

In addition, referring to FIG. 6A , in the step of excavating the underwater floor with an excavation bit (S30), a step (S31) of carrying the sludge generated during excavation to the outside through a sludge discharge pipe may be further included. This can be carried out at the same time as the excavation, or can be carried out at intervals of time when sludge is generated to an appropriate level.

Here, the outside may be underwater as shown in FIG. 5, or a ship on the ground or anchor block 10 installed as shown in FIG. 6a. In particular, when the sludge is released into water as shown in FIG. 6a, it may cause environmental pollution, so as shown in FIG. can

In addition, referring to FIG. 7, a step (S22) of installing a sludge discharge pump to the other end of the sludge discharge pipe may be further included in order to carry the sludge to the outside through the sludge discharge pipe. When the sludge generation rate exceeds the volume of the drilling hole 13 due to the high-speed rotating drilling bit 21, there is a problem that can be associated with a decrease in the speed of the anchor block 10 installation work and equipment failure, so the sludge discharge pipe (30) By installing the sludge discharge pump 31 at the other end, it is possible to quickly take out the sludge to facilitate work efficiency and equipment protection. The sludge discharge pump 31 may use a water pump or a compressor, which is not limited according to a specific embodiment.

Alternatively, referring to FIG. 5, in the step of installing the sludge discharge pipe (S21), one end is communicated in the middle of the sludge discharge pipe 30 and the other end is an external air inlet pipe connected to the outside so that outside air can flow into the sludge discharge pipe 30 An installation step (S23) may be further included. Referring to FIGS. 5, 6A, and 6C, the outside air inlet pipe 40 may supply outside air from underwater or outside air from a ship or the ground.

Referring to FIG. 4, the outside air inlet pipe 40 and the outside air inlet pipe 40 and the other end of the sludge discharge pipe 30 are formed in a straight line, and from one end of the sludge discharge pipe 30 to the outside air inlet pipe (40) and connect to the part that is in communication, but form a somewhat smaller diameter of the pipe of the part that is in communication. This can be formed according to the Venturi effect in which the sludge generated in the space rises due to the pressure difference with the excavation hole 13 according to the increased pressure as the outside air passes through the place where the diameter is narrowed.

Here, the exterior may be a ground or a ship for installing the anchor block 10. This is not limited according to a particular embodiment in the case of a space into which outside air can flow.

In addition, referring to FIG. 7 , in the step of installing the outside air inlet pipe 40 to generate the outside air (S23), the step of installing the outside air inlet fan 41 connected to the other end of the outside air inlet pipe 40 (S24). ) may further include. When strong wind is blown by the outdoor air inlet fan 41 through the outdoor air inlet pipe 40, if the pressure of the inlet and the communication part and the speed are constant according to Bernoulli's equation, the pressure of the communication part is lowered and the sludge rises more quickly There are effects that can be done.

Referring to FIG. 8 , after excavating the underwater floor with an excavation bit, a step of fixing the anchor block to the underwater floor (S40) may be further included. Upon completion of the excavation operation, the excavation bit 21 and the excavation shaft 20 are removed from the excavation hole 13 and the excavation through hole 11, and the sludge discharge pipe 30 is also removed. In addition, the installation of the anchor block 10 may be completed by filling the excavation hole 13, the excavation through hole 11, and the auxiliary through hole 12 through grouting in which cement paste is pressed.

The anchor block installation method described above and installed by sinking the anchor block in the process of excavating the underwater bottom shown in the drawings is only one embodiment for carrying out the present invention, which limits the technical idea of the present invention. should not be interpreted as Improved and changed embodiments without departing from the gist of the present invention will fall within the protection scope of the present invention as long as it is obvious to those skilled in the art to which the present invention belongs.

1: Anchor block installation device
10: anchor block
11: excavation through hole
12: auxiliary through hole
13: drilling hole
14: lugs
20: excavation axis of rotation
21: drilling bit
30: sludge discharge pipe
31: sludge discharge pump
40: outside air inlet pipe
41: outdoor air intake fan

Claims (10)

In the anchor block installation method of submerging and installing the anchor block in the process of excavating the underwater bottom,
It is formed of a weight body including an upper surface and a lower surface and mooring a floating structure on the water, and a drilling through hole penetrating from the upper surface to the lower surface and the circumference of the lower surface protrudes from the central part of the lower surface so that when seated on the bottom of the water, the lower surface and Preparing an anchor block including an excavation hole, which is an empty space between the underwater bottom;
Installing an excavation rotary shaft having an excavation bit formed at one end through the excavation through-hole to excavate the underwater bottom in the excavation hole of the anchor block; and
Mounting a power source on the other end of the drilling shaft to rotate the drilling shaft to excavate the bottom of the water with the drilling bit,
In the drilling through-hole, the cross-sectional area of the portion through which the drilling shaft passes is smaller than the cross-sectional area formed by rotating the drilling bit in the drilling hole,
The cross-sectional area formed by the rotation of the drilling bit is larger than the cross-sectional area of the part through which the drilling rotation shaft passes in the drilling through-hole.
The method of claim 1,
The step of preparing the anchor block,
An anchor block installation method for submerging and installing an anchor block in the process of excavating an underwater floor, characterized in that forming a predetermined inclination angle from the circumference of the lower surface of the anchor block toward the central portion of the lower surface.
The method of claim 1,
The step of preparing the anchor block,
The anchor block installation method for submerging and installing the anchor block in the process of excavating the bottom of the water, characterized in that the anchor block further comprises at least one auxiliary through-hole penetrating from the upper surface to the lower surface.
The method of claim 1,
The anchor block installation method of submerging and installing the anchor block in the process of excavating the underwater bottom, further comprising the step of seating the anchor block on the underwater bottom.
The method of claim 1,
The anchor block installation method of submerging and installing the anchor block in the process of excavating the underwater floor, characterized in that it further comprises the step of fixing the anchor block to the underwater floor after excavating the underwater floor with the drilling bit.
The method of claim 1,
In the step of installing the excavation rotation shaft through the excavation through-hole,
An anchor block installation method for submerging and installing an anchor block in the process of excavating an underwater floor, further comprising installing a sludge discharge pipe having one end connected to the drilling hole of the anchor block and the other end connected to the outside.
The method of claim 6,
In the step of excavating the underwater bottom with the drilling bit,
An anchor block installation method for submerging and installing an anchor block in the process of excavating an underwater floor, further comprising the step of carrying the sludge generated during excavation to the outside through the sludge discharge pipe.
The method of claim 6,
In the step of installing the sludge discharge pipe,
An anchor block installation method for submerging and installing an anchor block in the process of excavating an underwater floor, further comprising installing a sludge discharge pump at the other end of the sludge discharge pipe.
The method of claim 6,
In the step of installing the sludge discharge pipe,
Installing an anchor block by submerging the anchor block in the process of excavating the bottom of the water further comprising the step of installing an outside air inlet pipe, one end of which is communicated in the middle of the sludge discharge pipe and the other end connected to the outside so that outside air can flow into the sludge discharge pipe. Anchor Block installation method.
The method of claim 9,
In the step of installing the outside air inlet pipe,
Anchor block installation method of submerging and installing an anchor block in the process of excavating an underwater floor, further comprising installing an outdoor air inlet fan at the other end of the outdoor air inlet pipe.

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