KR101873449B1 - Method for installing anode and Support for anode - Google Patents

Abstract

Anode installation method and anode support are disclosed. The method of installing an anode according to an embodiment of the present invention includes the steps of (a) installing an anode support on a surface of a structure; (B) temporarily supporting the anode in the state that the anode is spaced apart from the surface of the structure; (C) performing a painting operation on the surface of the structure; And (d) fixing the anode to the anode support.

Description

[0001] The present invention relates to an anode installation method and an anode support method,

The present invention relates to an anode mounting method and anode support.

Marine or marine structures exposed to the marine environment are subject to rapid corrosion due to chloride ions and dissolved oxygen contained in seawater. In order to prevent such corrosion, anode is attached to the seawater in areas such as a flooded area or a ballast tank, and cathodic protection is provided by the sacrificial anode.

The installation process of the conventional anode is as follows.

Anode support is installed in the structure ahead. Thereafter, coating is performed on the structure. Then, join the anode to the anode support.

In the case of the above-mentioned installation process of the anode, the operator carries the anode and waits until the painting operation is completed, and when the painting operation is completed, the anode is transported again and joined to the anode support. And safety of workers may be a problem.

Furthermore, before joining the anode to the support, the anode needs to wait in advance or to be placed in the space, and the loss of the anode during standby or in the standby state may be a problem.

An embodiment of the present invention is to provide a simple anode installation method and an anode support used therefor.

According to an aspect of the present invention, there is provided a method of manufacturing a structure, comprising: (a) providing an anode support on a surface of a structure; (B) temporarily supporting the anode in the state that the anode is spaced apart from the surface of the structure; (C) performing a painting operation on the surface of the structure; And (d) the anode is fixed to the anode support.

A guide member protrudes from one side of the anode, a guide hole through which the guide member is inserted is formed in the anode support, and the guide hole is formed in the first side And a second region in which the guide member is located in the step (d).

According to another aspect of the present invention, there is provided an anode support installed on a surface of a structure for supporting an anode, comprising: a first body formed with a guide hole through which a guide member protruding from one side of the anode is inserted; And an anode support formed to extend laterally from the first body and including a second body to which the guide member is coupled.

The guide hole may include a first region formed at a position spaced apart from the surface of the structure and temporarily supporting the guide member; And a second region extending from the first region such that the guide member is accessible to a surface of the structure and a second body.

The guide hole may have an L shape or a U shape.

According to the embodiment of the present invention, since the anode support is installed on the surface of the structure before the painting operation and the anode is temporarily supported in the anode support, the anode installation process is simplified and there is no need to separately store the anode, The risk can disappear.

1 is a flowchart of an anode installation method according to an embodiment of the present invention,
2 to 4 are views for explaining an anode installation method according to an embodiment of the present invention,
5 is a view showing a modification of the guide hole shown in FIG. 2,
6 is a view showing a state in which an anode is additionally fixed to the anode support shown in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Referring to the accompanying drawings, the same or corresponding components are denoted by the same reference numerals, do.

FIG. 1 is a flow chart of an anode installation method according to an embodiment of the present invention, and FIGS. 2 to 4 are views for explaining an anode installation method according to an embodiment of the present invention. Hereinafter, an anode installation method according to the present embodiment will be described with reference to FIGS. 1 to 4. FIG.

First, referring to FIGS. 1 and 2, an anode support 100 is installed on a surface 10 of a structure (S100). The anode support 100 supports the anode (200 in Fig. 3) described later. For example, the operator can weld the anode support 100 to the surface 10 of the structure.

The anode support 100 is provided, and the structure to be painted may be, but not limited to, a ship or a block constituting an offshore structure.

The anode support 100 may be provided as a pair. The pair of anode supports 100 may be arranged to face each other.

A guide hole 110 may be formed in the anode support 100. A guide member 210 protruding from one side of the anode 200 may be inserted into the guide hole 110. The guide member 210 (FIG. 3) inserted into the guide hole 110 can move along the extending direction of the guide hole 110. At this time, the anode (200 in FIG. 3) can move along the guide hole (110) along with the guide member (210 in FIG. 3).

The guide hole 110 may have an L shape as shown in FIG. Or the guide hole 110 may have a U-shape as shown in FIG. 5 is a view showing a modification of the guide hole shown in FIG. 2. FIG.

Referring to FIG. 2, the guide hole 110 may include a first region 111 and a second region 112.

The first region 111 is an area where the guide member 210 of FIG. 3 is positioned when the anode (200 of FIG. 3) is temporarily supported in the anode support 100 among the guide holes 110. The first region may be formed at a position spaced apart from the surface of the structure. The guide member 210 (FIG. 3) located in the first region 111 can be supported on one side of the first region 111 by one side of the anode (200 in FIG. 3) by its own weight. Accordingly, the anode (200 in FIG. 3) can be temporarily supported on the anode support 100 without a separate fastening means. The position and shape of the first region 111 can be variously modified.

The second region 112 is an area where the guide member 210 of FIG. 3 is positioned when the anode (200 of FIG. 3) is fixed to the anode support 100 among the guide holes 110. The second region 112 may extend from the first region so that the guide member 210 (FIG. 3) is accessible to the surface of the structure and the second body. The position and shape of the second region 112 can be variously modified.

The anode support 100 may include a first body 101 and a second body 102.

The guide hole 110 may be formed in the first body 101. The first body 101 temporarily supports the anode (200 in Fig. 3) before painting the surface 10 of the structure.

The second body 102 may extend laterally from the first body 101. The first body 101 and the second body 102 may extend in an L-shape as shown in FIG. 2, but are not limited thereto.

The second body 102 fixes and supports the anode (200 in Fig. 3) after the painting operation on the surface 10 of the structure.

The second body 102 may be provided with a bolt hole 121 through which a bolt (B in FIG. 4) for fixing and supporting a guide member (210 in FIG. 3) passes. Corresponding to this, a bolt hole (221 in FIG. 3) through which the bolt (B in FIG. 4) penetrates can be formed in the guide member (210 in FIG. 3).

Referring to FIGS. 1 and 3, the anode 200 is temporarily supported on the anode support 100 while being spaced apart from the surface 10 of the structure (S200).

For example, the operator can temporarily support the anode 200, on which the guide member 210 is formed, to the anode support 100 after the anode support 100 is installed on the surface 10 of the structure. For this purpose, the operator can secure the anode support 100 and the anode 200 in advance and carry them to the structure at a time.

In this case, unlike the conventional method in which the anode support 100 and the anode 200 are transported separately before and after the painting operation, the transportation of the anode 200 and the anode support 100 is performed at one time, The installation process is simplified, there is no need to separately store the anode 200, and the risk of loss of the anode 200 can be eliminated.

On the other hand, when the structure is a ship block, a crane (not shown) is usually installed at an assembly site for assembling the ship block. When the upper crane is used in the process of temporarily installing the anode on the surface (10) of the structure (ex. Ship block), it is possible to prevent musculoskeletal diseases and safety accidents of the operator.

When the guide member 210 is placed in the first region 111 of the guide hole 110, the anode 200 is temporarily supported by the anode support 100. At this time, the anode 200 including the guide member 210 can be supported on the anode support 100 without a separate fastening means.

When the anode 200 is temporarily supported on the anode support 100, the anode 200 may be supported on the anode support 100 in a state separated from the surface 10 of the structure. In this case, the coating operation of the surface 10 of the structure facing the anode 200 can proceed smoothly.

After the anode 200 is temporarily supported on the anode support 100, a painting operation is performed on the surface 10 of the structure (S300).

Since the anode 200 is disposed at a predetermined distance on the surface 10 of the structure, the coating on the surface 10 of the structure located between the anode 200 and the anode support 100 The work can be performed smoothly.

1 and 4, the anode 200 is fixed to the anode support 100 (S400).

For example, the operator can fix the anode 200 temporarily fixed to the anode support 100 to the anode support 100 after the painting operation is performed on the structure.

At this time, the operator moves the guide member 210 located in the first region 111 of the guide hole 110 to the second region 112. When the guide member 210 is located in the second region 112, the anode 200 is brought close to the surface 10 of the structure. At this time, the anode 200 may contact the surface 10 of the structure, but is not limited thereto.

The operator moves the guide member 210 to the second region 112 and then fixes the guide member 210 to the anode support 100. At this time, the guide member 210 may be coupled to the anode support 100 with a bolt B. Or the guide member 210 may be welded to the anode support 100.

The above-described method of installing the anode can be realized by installing the anode support 100 on the structure surface 10 before painting and temporarily supporting the anode 200 to the anode support 100, The process is simplified, there is no need to separately store the anode 200, and the risk of loss of the anode 200 can be eliminated.

Meanwhile, after the anode 200 is fixed to the anode support 100 as shown in FIG. 4, the anode 300 may be further fixed to the anode support 100 as shown in FIG. 6 is a view showing a state in which an anode is additionally fixed to the anode support shown in FIG.

In this case, the added anode 300 may be fixed to the anode support 100 while being spaced apart from the existing anode 200. At this time, the added anode 300 may be coupled to the anode support 100 as a bolt B.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

100: anode support
101: first body
102: second body
110: Guide hole
111: first region
112: second region
200: Anode
210: guide member
B: Bolt

Claims (5)

(A) providing an anode support on the surface of the structure;
(B) temporarily supporting the anode in the state that the anode is spaced apart from the surface of the structure;
(C) performing a painting operation on the surface of the structure; And
(D) fixing the anode to the anode support,
A guide member protruding from one side of the anode,
Wherein the anode support is formed with a guide hole through which the guide member can be inserted,
The guide hole
Wherein the guide member is positioned in the step (b), and one surface of the guide member is supported by the weight of the anode on one side thereof,
Wherein the guide member includes a second region extending from the first region in the step (d). delete An anode support installed on a surface of a structure for supporting an anode,
A first body having a guide member protruding from one side of the anode and having a guide hole movable along the extending direction thereof; And
And a second body extending laterally from the first body and coupled to the guide member,
The guide hole
A first region formed at a position spaced apart from a surface of the structure and temporarily supporting the guide member, wherein one surface of the guide member is supported by the self weight of the anode; And
And a second region extending from the first region such that the guide member is accessible to a surface of the structure and a second body. delete The method of claim 3,
Wherein the guide hole has an L shape or a U shape.

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