KR20200014531A - Fixed anchor construction method of marine structure - Google Patents

Abstract

Provided in the present invention is a fixating anchor construction method for a marine structure, comprising: a first process wherein a guide casing (10) is installed to connect a work ship (C) to the soft ground (A) of the seabed; a second process wherein a digging hole is formed by a predetermined depth in the soft ground (A) by using a digging rod (20) inserted into the guide casing (10); a third process wherein a reinforcing casing (30) is installed in the inside of the digging hole in the soft ground (A); a fourth process wherein a digging hole is formed by a predetermined depth in the bedrock (B) by using the digging rod (20) penetrating the reinforcing casing (30); a fifth process wherein a fixed anchor (40) is inserted into the digging hole of the bedrock (B); a sixth process wherein a solidifying agent (50) is placed on the inside of the digging hole of the soft ground (A) and the bedrock (B) in order to secure the fixed anchor (40); and a seventh process wherein the guide casing (10) is separated from the soft ground (A). Therefore, mud and sand on the seabed are prevented from being introduced into the present structure, thereby increasing construction efficiency. In addition, the mud and the sand are prevented from being mixed with the solidifying agent, thereby guaranteeing a fixing force and a supporting force to solidly secure the marine structure. Moreover, the present invention can be simply constructed, thereby increasing a range of use and efficiency of use.

Description

Fixed anchor construction method of marine structure

The present invention relates to a fixed anchor construction method of the offshore structure, and more particularly to a fixed anchor construction method of the offshore structure to be able to firmly fix the offshore structure by constructing a fixed anchor on the sea bottom.

In general, fixed anchors are installed on the sea bottom to fix offshore structures such as offshore power plants or farms.

However, conventionally, in the process of excavating the sea floor, Ito and earth and sand are easily introduced inside or collapse occurs after excavation, resulting in a problem of increasing construction period and lowering construction efficiency.

In particular, Ito and earth and sand are easily mixed with the solidifying agent to be fixed to the fixed anchor has a problem of lowering the construction quality.

In addition, the Ito and the earth and sand are easily mixed with the solidifying agent has a problem that can not secure the fixing force and the support force for firmly fixing the offshore structure.

Korean Patent Publication No. 10-2006-0015898 (2006.02.21) Korean Patent Publication No. 10-2010-0095336 (2010.08.30) Korea Patent Registration No. 10-0995918 (Nov. 23, 2010) Korea Patent Registration No. 10-1022045 (2011.03.16) Korean Patent Registration No. 10-1043330 (2011.06.22) Korea Patent Registration No. 10-1071644 (2011.10.12) Korean Patent Publication No. 10-2014-0027654 (2014.03.07) Korea Patent Registration No. 10-1387579 (2014.04.21) Korean Patent Registration No. 10-1441467 (2014.09.18) Korea Patent Registration No. 10-1558841 (2015.10.19) Korea Patent Registration No. 10-1686878 (2016.12.15)

Therefore, the present invention is invented to solve the above conventional problems,

An object of the present invention is to provide a fixed anchor construction method of the offshore structure that can be securely installed on the sea floor by preventing the inflow of earth and earth and the collapse of the excavation hole.

Fixed anchor construction method of the marine structure of the present invention for achieving the above object,

A first step of installing the guide casing 10 so as to connect from the working ship C to the soft ground A of the sea bottom;

A second step of forming an excavation hole with a predetermined depth of the soft ground A by using the excavation rod 20 inserted into the guide casing 10;

A third step of installing a reinforcing casing 30 in the excavation hole of the soft ground A;

A fourth step of forming an excavation hole with a predetermined depth by using the excavation rod 20 penetrating the reinforcing casing 30;

A fifth step of inserting the fixed anchor 40 into the excavation hole of the rock B;

A sixth step of fixing the fixed anchor 40 by pouring a solidifying agent 50 into the excavation hole between the soft ground A and the rock B;

And a seventh step of separating the guide casing 10 from the soft ground A.

Wherein the guide casing 10 is a cutting portion 11 to have a predetermined length in the longitudinal direction from the bottom to the top; characterized in that to form.

In addition, the guide casing 10 is divided into a reference to the longitudinal direction and the removable portion 12 to be assembled or separated therebetween; characterized in that it is formed.

In addition, the fixed anchor 40 forms a chain or rope at the top and a weight body 41 at the bottom; characterized in that it comprises a.

The present invention has the effect of improving the construction efficiency by preventing the inflow of soil and earth and sand of the sea bottom.

In addition, the present invention has the effect of securing a fixing force and a support force for firmly fixing the offshore structure by preventing the mixing of solidifying agent such as soil and earth and sand.

In addition, the present invention has the effect that the construction is simple to maximize the utilization range and use efficiency.

1 to 9 is a flow chart for showing the fixed anchor construction method of the marine structure of the present invention by process.
10 and 11 are perspective views for showing an embodiment of the guide casing in the present invention.

When described in more detail by the accompanying drawings a method for achieving the object of the present invention as described above are as follows.

1 to 9 is a flow chart for showing the fixed anchor construction method of the marine structure of the present invention by process, Figures 10 and 11 is a perspective view for showing an embodiment of the guide casing in the present invention.

The present invention comprises a first step of installing a guide casing 10 to connect from the working ship (C) to the soft ground (A) of the sea bottom;

A second step of forming an excavation hole with a predetermined depth of the soft ground A by using the excavation rod 20 inserted into the guide casing 10;

A third step of installing a reinforcing casing 30 in the excavation hole of the soft ground A;

A fourth step of forming an excavation hole with a predetermined depth by using the excavation rod 20 penetrating the reinforcing casing 30;

A fifth step of inserting the fixed anchor 40 into the excavation hole of the rock B;

A sixth step of fixing the fixed anchor 40 by pouring a solidifying agent 50 into the excavation hole between the soft ground A and the rock B;

And a seventh step of separating the guide casing 10 from the soft ground A.

In the present invention, as shown in FIG. 1, the guide casing 10 is vertically installed from the working line C to the soft ground A of the sea bottom according to the construction position of the fixed anchor 40. Minimize the excavation workability of the soft ground (A) and rock (B) due to algae and sea water to induce smooth construction.

In this case, the guide casing 10 is preferably formed to have a predetermined diameter so that the excavating rod 20 and the fixed anchor 40, etc. can be inserted and operated and installed without interference therein.

In addition, the guide casing 10 may proceed with the excavation of the soft ground (A) and rock (B) and placing the solidifying agent 50 by using the construction equipment located on the upper portion of the work line (C).

In particular, the guide casing 10 maintains the installation state on the soft ground (A) of the sea bottom until the fixed anchor 40 is fixed to finish the construction.

In the present invention, the second process forms an excavation hole with a predetermined depth of the soft ground A using the excavation rod 20 as shown in FIG.

In this case, the excavation rod 20 is inserted into the guide casing 10 to construct the excavation hole of the soft ground A, thereby minimizing the effects of algae and seawater.

In particular, the excavation rod 20 is excavated using a construction equipment such as an auger located on the upper portion of the work line (C) and excavated soft ground (A) of the work line (C) using a bucket or suction device, etc. Can be discharged to the top.

In the third step of the present invention, as shown in FIG. 3, the reinforcing casing 30 is installed inside the excavation hole of the soft ground A to support the hollow hole in such a way that the hollow hole does not easily collapse and to form the excavation hole. By holding it, the rock (B) can be smoothly excavated.

In this case, the reinforcing casing 30 may be a corrugated pipe or a sacrificial steel pipe, and formed in a predetermined length so as to protrude to the surface layer of the soft ground A. While flowing into the inside of the 30 can be prevented from mixing with the solidifying agent (50).

In the present invention, as shown in FIGS. 4 and 5, the excavation hole 20 is formed using the excavation rod 20 penetrating through the reinforcing casing 30 to form the excavation hole at a predetermined depth to fix the anchor. A space in which the 40 can be inserted is formed.

At this time, the excavation rod 20 is excavated using a construction equipment such as an auger located on the upper portion of the working line (C) and the excavated rock (B) is the upper portion of the working line (C) using a bucket or suction device Can be discharged.

In the fifth step of the present invention, as shown in FIG. 6, the fixed anchor 40 is inserted into the excavation hole of the rock B to select the fixed position.

Here, the fixed anchor 40 forms a chain or a rope at the top and a weight body 41 at the bottom; including the weight body 41 in the excavation hole of the rock (B) solidification agent (50) ) Can be fixed by pour and the upper chain or rope can be fixed by connecting with offshore structures.

In this case, the weight 41 may be formed to have various shapes and shapes that may increase the surface area so as not to be easily pulled or separated by being combined with the solidifying agent 50.

In the sixth step of the present invention, as shown in FIG. 7, the fixing anchor 40 is fixed by placing a solidifying agent 50 in the excavation hole of the soft ground A and the rock B. FIG.

At this time, the solidifying agent 50 may be pumped into the excavation hole by using the grouting equipment or the pumping equipment located in the upper portion of the working line (C).

Here, the hardener 50 includes cement, concrete, aggregate, or any one or more thereof.

In the present invention, the seventh step is to lift the separation of the guide casing 10 in the soft ground (A) as shown in Figures 8 and 9 to complete the fixing process of the fixed anchor 40.

In particular, as shown in FIG. 10, the incision portion 11 is formed to have a predetermined length along the longitudinal direction from the lower portion to the upper portion of the guide casing 10; to form the guide casing 10 by lifting the work line C. The fixed anchor 40 can be separated through the incision 11 in a state lying down on the top.

At this time, by installing a float in the upper portion of the fixed anchor 40 to maintain a floating state to sink to the seabed.

In addition, as shown in Figure 11, the guide casing 10 is divided into a reference to the longitudinal direction and the removable portion 12 to be assembled or separated therebetween; forming a fixed anchor 40 to leave the The guide casing 10 can be separated on both sides.

At this time, the removable portion 12 may be applied to the opening and closing structure using a bolt and pin coupling structure and the hinge.

As described above, the embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention is included to the extent that they are substantially equivalent to the embodiments of the present invention. Of course.

10: guide casing 11: incision
12: removable part
20: excavation rod (excavation rod) 30: reinforcement casing
40: fixed anchor 41: weight
50: hardener
A: Soft ground B: Rock bed
C: work line

Claims (4)

A first step of installing the guide casing 10 so as to connect from the working ship C to the soft ground A of the sea bottom;
A second step of forming an excavation hole with a predetermined depth of the soft ground A by using the excavation rod 20 inserted into the guide casing 10;
A third step of installing a reinforcing casing 30 in the excavation hole of the soft ground A;
A fourth step of forming an excavation hole with a predetermined depth by using the excavation rod 20 penetrating the reinforcing casing 30;
A fifth step of inserting the fixed anchor 40 into the excavation hole of the rock B;
A sixth step of fixing the fixed anchor 40 by placing a solidifying agent 50 in the excavation hole of the soft ground A and the rock B;
The seventh step of separating the guide casing (10) from the soft ground (A); Fixed anchor construction method of the offshore structure comprising a. The method of claim 1, wherein the guide casing (10) is a fixed anchor construction method of the offshore structure, characterized in that it is formed; cutting portion (11) to have a predetermined length along the longitudinal direction from the bottom to the top. The method of claim 1, wherein the guide casing (10) is a fixed anchor construction method of the offshore structure, characterized in that the; forming a detachable portion (12) so as to quantify in the longitudinal direction and assembled or separated therebetween. The method of claim 1, wherein the fixed anchor (40) forms a chain or rope at the top and a weight body (41) at the bottom.

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