KR20200017855A - Cathodic protection block for concrete mattress - Google Patents

Abstract

The present invention relates to a cathodic protection type block for a concrete mattress, which can protect a submerged-pipe from external environment, prevent soil erosion, and prevent corrosion. The cathodic protection type block comprises: a lower block into which a first connection hole is penetrated vertically; an upper block coming in close contact with an upper surface of the lower block and enabling a second connection hole corresponding to the first connection hole to be penetrated thereinto; a fastener coupled through the first connection hole and the second connection hole; and corrosion prevention member including an electrode module detachably installed in the lower block or the upper block and an electrode connection wire having one end connected to the electrode module and the other end connected to the submerged-pipe.

Description

Cathodic protection block for concrete mattress

The present invention relates to a cathodic protection block for a concrete mattress, and more particularly, to a cathodic protection block for a concrete mattress in which a sacrificial electrode is inserted to prevent corrosion of a seabed metal pipeline.

In general, a subsea pipe is a gas pipe or an oil pipe installed on the sea floor for supply of gas and oil, etc., between two points isolated between the continent and the sea such as land and islands.

Since these pipelines are installed on the sea floor, they may be damaged by currents, tidal currents, waves, and friction with the sea floor, and in particular, in areas where fishing activities are active, they may be damaged by anchors or fishing gears. In case of line, concrete mattress with cathodic protection type corrosion protection device is used to prevent rust from metal pipe due to seawater containing strong salt.

As an example of the conventional method that combines the role of preventing soil erosion of the concrete mattress block and preventing corrosion of the protective pipe, there is an integrated block made of concrete after installing electrodes, wires, and connectors in a plastic formwork. Corrosion prevention electric method of general steel structure is applied to concrete mattress and is used for the purpose of extending the life of gas pipe and oil pipe. However, since it is made of formwork, there is a difficulty in the manufacturing process and maintenance.

The present invention has been made to solve the above problems, it is easy to replace when each block is eroded or destroyed by configuring the blocks constituting the concrete mattress, and concrete that can prevent the corrosion of the seabed pipeline It is a main object to provide a cathodic protection block for a mattress.

Blocks of the cathodic protection method for a concrete mattress according to the present invention is a lower block through which the first connecting hole is formed up and down, and close contact with the upper surface of the lower block, the second connecting hole corresponding to the first connecting hole is formed through An upper block, a fastener penetratingly coupled to the first connecting hole and the second connecting hole, an electrode module detachably installed in the lower block or the upper block, one end of which is connected to the electrode module, and the other end of the bottom And an anti-corrosion member including an electrode connection wire connected to the pipeline.

In addition, it is formed extending from one end to the other end of the upper surface of the lower block, characterized in that it further comprises a connection groove for receiving the connector.

In addition, the connection groove further includes a first wire connection groove extending from the left and right on the upper surface of the lower block, and a second wire connection groove extending forward and backward on the upper surface of the lower block so as to intersect the first wire connection groove. And a cross groove is formed on a lower surface of the upper block at a position corresponding to an intersection point of the first wire connecting groove and the second wire connecting groove.

Cathode protection block for concrete mattress according to the present invention is connected to the electrode module is installed in the lower block or the upper block through the submarine cable and the electrode connecting wire is installed on the seabed, the dielectric anode method (a kind of cathode, subsea pipe Is a cathode, and the electrode module having a greater ionization tendency is contacted with the anode to conduct electricity, thereby preventing corrosion of the seabed pipeline as the electrode module is ionized.

In addition, the connection groove is formed on the upper surface of the lower block is connected to each of the blocks of the cathodic protection method for the concrete mattress is connected through the connector so that can be flexibly coupled between each block, the connection groove is the upper surface of the lower block The first electric wire connecting groove and the second electric wire connecting groove are formed so as to cross, and the lower groove of the upper block of the point corresponding to the point where the first electric wire connecting groove and the second electric wire connecting groove intersect is formed, the first It provides an effect to improve the durability of the connector by securing a sufficient space to be accommodated so that the connector cross each of the wire connecting groove and the second wire connecting groove.

In addition, the concrete mattress block containing the ionized electrode module is divided into a lower block and an upper block, so that the operator can easily separate and replace the concrete mattress block containing the ionized electrode module from the seabed and maintain it. There is an effect that can facilitate the maintenance.

1 is a perspective view showing a coupled state between the blocks of the cathodic protection method for a concrete mattress according to an embodiment of the present invention.
Figure 2 is an exploded cross-sectional view showing a block of the cathodic protection method for a concrete mattress according to an embodiment of the present invention.
Figure 3 is a perspective view showing the upper surface of the lower block and the lower surface of the upper block according to an embodiment of the present invention.
Figure 4 is a perspective view showing the lower surface of the lower block and the upper surface of the upper block according to an embodiment of the present invention.
5 is a perspective view illustrating a state in which a lower block, a connection groove, and a corrosion preventing member are coupled according to an exemplary embodiment of the present invention.
6 is a perspective view illustrating a state in which a block of a cathodic protection method for a concrete mattress and a subsea pipeline are connected according to an exemplary embodiment of the present invention.
7 is a view showing a state of use of the concrete mattress of the present invention.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

The accompanying drawings are only examples as illustrated in order to describe the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

However, in the following description of the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

1 is a perspective view showing a coupled state between the blocks of the cathodic protection method for a concrete mattress according to an embodiment of the present invention, Figure 2 is a block of the cathodic protection method for a concrete mattress according to a preferred embodiment of the present invention It is the exploded cross section shown.

As shown in Figure 1 and 2, the block 1000 of the cathodic protection method for a concrete mattress according to the present invention is the lower block 100, the upper block 200, fastener 300 and the corrosion preventing member 600 ).

First, the lower block 100 is located on the lower side of the cathodic protection block for the concrete mattress, as shown in Figure 3, the first connection hole 110 is formed up and down, preferably the first 1 connection hole 110 is formed in the center of the lower block (100).

At this time, the upper surface and the lower surface of the lower block 100 is formed in a rectangular shape, the upper surface is formed in a wider area than the lower surface, the inclined surface inclined toward each corner of the lower surface at each corner of the upper surface 6 It will form a block of concrete.

In addition, the upper block 200 is located on the upper side of the cathodic protection block for the concrete mattress, in close contact with the upper surface of the lower block 100, the second connection hole corresponding to the first connection hole 110 210 is formed through.

And the upper surface and the lower surface of the upper block 200 is formed in a rectangular shape, the lower surface is formed in a wider area than the upper surface, the hexahedron by making the inclined surface inclined in each corner direction of the upper surface at each corner of the lower surface. Of concrete blocks.

Here, as shown in Figure 6, the lower surface of the lower block 100 and the upper surface of the upper block 200 is in close contact to form a 10-sided block, each block of 10-sided octahedron blocks While being in close contact with the inclined surface of the subsea pipe (C) can be coupled flexibly.

Referring to FIG. 2 again, the fastener 300 may be coupled to the first connection hole 110 and the second connection hole 210 by the male screw part 310, the upper washer part 320, and the female screw part ( 330 and lower washer 340.

First, the male screw portion 310 is inserted into the second connecting hole 210 formed in the center of the upper block 200, the end of the second connecting hole 210 is the head of the male screw portion 310 The diameter is relatively large so as to be in close contact.

And the upper washer 320 is coupled to the outer circumferential surface of the male screw portion 310, is installed between the head of the male screw portion 310 and the end of the second connecting hole 210 is generated in the male screw portion 310 The pressure is dispersed to protect the surface of the male screw 310 head.

Next, the female screw portion 330 is formed adjacent to the first connecting hole 110 formed in the center of the lower block 100, the first connecting hole 110 and the second connecting hole 210 It is coupled to the end of the male screw portion 310 inserted through.

In addition, the lower washer 340 is provided in the electrode module accommodating groove 230 to be described later, the electrode module 610 and the upper block 200 is positioned to disperse the pressure generated in the electrode module 610 electrode The surface of the module 610 and the electrode module receiving groove 230 is protected.

Therefore, the upper and upper surfaces of the lower block 100 are tightened by the male screw 310 and the female screw 330 respectively coupled to the lower surface of the lower block 100 and the upper surface of the upper block 200. The lower surface of the block 200 is in close contact with each other, and the connector 500 and the corrosion preventing member 600 to be described below are fixed between the lower block 100 and the upper block 200.

At this time, the connector 500 is a rope molding made of a polypropylene material, the polypropylene material is high strength, low hygroscopicity, even if it is maintained in sea water for a long time can be maintained durability.

Next, as shown in FIGS. 3 and 4, the upper surface of the lower block 100 extends from one end of the upper surface of the lower block 100 to the other end and is connected to the connector 500. Groove 400 is formed.

Here, the connection groove 400 is a first wire connection groove 410 extending to the left and right on the upper surface of the lower block 100, and the lower block 100 so as to intersect the first wire connection groove 410. It includes a second wire connecting groove 420 is formed to extend back and forth on the upper surface of the.

The first wire connection grooves 410 and the second wire connection grooves 420 are formed to be orthogonal to each other and extend to four sides of the upper surface of the lower block 100.

That is, another concrete mattress cathodic protection block positioned in the left and right directions of the cathodic protection block 1000 for concrete mattresses is connected through the connector 500 accommodated in the first wire connecting groove 410. The negative cathodic protection block for the concrete mattress positioned in the direction is connected through the connector 500 accommodated in the second wire connecting groove 420 and flexible with the negative cathodic protection block for the concrete mattress in four directions: Will be connected.

A cross groove 220 is formed on a lower surface of the upper block 200 at a position corresponding to a point where the first wire connecting groove 410 and the second wire connecting groove 420 cross each other.

When the connector 500 is accommodated in the first wire connection groove 410 and the second wire connection groove 420, respectively, the first wire connection groove 410 and the second wire connection groove 420 cross each other. Since the connector 500 overlaps the point, the cross groove 220 is formed at the point where the connector 500 is provided to provide sufficient space to accommodate the connector 500.

The first wire connecting groove 410 and the second wire connecting groove 420 are provided in the lower block such that four intersections of the first wire connecting groove 410 and the second wire connecting groove 420 are provided. It is formed in pairs on the upper surface of the 100 respectively.

When the first wire connecting groove 410 and the second wire connecting groove 420 are formed in pairs, respectively, as shown in FIG. 6, the block of the negative electrode protection method for the concrete mattress located on the outermost side of the concrete mattress The connector 500 is formed in the connection groove 400 of the "U" shape is to be across the hook of the crane to facilitate the transport of the entire concrete mattress.

In addition, the first wire connection groove 410 and the second wire connection groove 420 is formed at least one bent portion 430 is bent or bent at a predetermined angle on the connection groove 400.

The bent portion 430 may be formed to be curved in the form of a gentle curve, it is formed to be bent at a predetermined angle.

The connecting groove 400 is formed to have a smaller diameter so that the upper surface of the lower block 100 and the lower surface of the upper block 200 are in close contact with each other, so that the connector 500 accommodated in the connecting groove 400 is fixed to the connector 500. ) Can be fixed so as not to move, but when a strong force is applied in the longitudinal direction of the connector 500, the connector 500 can be moved from the initial position of the connection groove 400.

Therefore, since the cathodic protection method for the concrete mattress of the present invention is configured as an assembly type, the coupling of the connector 500 accommodated between the lower block 100 and the upper block 200 may not be fixed, but the connector The bent portion 430 is formed in the connection groove 400 formed to accommodate the 500, even if a force is applied in the longitudinal direction of the connector 500, so that the friction surface increases between the connection groove 400 and the connector 500. The connector 500 can be fixed without moving.

Next, the corrosion preventing member, which is a key component of the present invention, includes an electrode module 610 and an electrode connection wire 630, as shown in FIG.

First, the electrode module 610 is detachably installed in the lower block 100 or the upper block 200, but is made of an alloy having a higher potential than the subsea pipe C.

The electrode module 610 is made of Mg (magnesium), Zn (zinc) or Al (aluminum) or made of an alloy thereof.

Here, the electrode module accommodating groove 230 is recessed to accommodate the electrode module 610 in the upper block 200, and the electrode module 610 is accommodated in the electrode module accommodating groove 230. A through hole through which the male screw part 310 penetrates is formed.

The male screw part 310 is inserted into the upper block 200, the electrode module 610, and the lower block 100 so that the lower block 100 and the upper block 200 closely adhere to each other. It is fixed to the upper block 200.

One end of the electrode connection wire 630 is connected to the electrode module 610, and the other end thereof is connected to the subsea pipe C to electrically connect the electrode module 610 and the subsea pipe C.

In addition, a sliver crimp contact 620 is coupled between the electrode module 610 and the male screw part 310, and the sliver crimp contact 620 is connected to the electrode module 610 and the electrode connection wire 630. Although it is connected, it is preferable that it consists of austenitic stainless steel excellent in chemical resistance and heat resistance.

6 and 7, the electrode connection wire 630 is connected between the lower block 100 and the upper block 200 forming the block of the cathodic protection method for each concrete mattress, concrete mattress It extends from the block forming the side of and is connected to the subsea pipe (C).

The subsea pipe (C) is corroded when exposed to the sea bed for a long time by the concentration of salt in the sea water, the concentration of dissolved oxygen, the amount of impurities, flow rate, temperature, etc., the electrode module 610 having a higher potential than the subsea pipe (C) ) And the electrode connection wire 630 may be electrically connected to protect the subsea pipe C in such a way that the electrode module 610 is corroded without the subsea pipe C being corroded.

Each electrode block 610 of the cathodic protection method for the concrete mattress of the present invention is accommodated, the oxidation rate, that is, the consumption rate of the electrode module 610 is different depending on the position of the block forming the concrete mattress In the block forming the concrete mattress, the lower block 100 and the upper block 200 are detachably coupled to replace the corroded electrode module 610 by releasing the fastener 300 even in the sea floor, or the corroded block. Only replaceable bay provides easy maintenance.

In addition, as shown in FIG. 4, in a state in which the plurality of lower blocks 100 are arranged side by side, the electrode module 610 is built in the lower block 100 or the upper block 200, Connect the electrode module 610 with the electrode connection wire 630, the upper block 200 is coupled to the upper portion of the lower block 100 to the concrete mattress in which the lower block 100 and the upper block 200 is in close contact I can produce it.

Here, when the block located on the inner side of the blocks constituting the concrete mattress is destroyed or corroded, by releasing the fastener 300 to separate the lower block 100 and the upper block 200 provides an effect that can be easily replaced do.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: Block of cathodic protection method for concrete mattress
100: lower block
110: first connection hole
200: upper block
210: second connection hole
220: cross groove
230: electrode module receiving groove
300: fastener
310: male thread
320: upper washer
330: female thread
340: lower washer part
400: connecting groove
410: first wire connecting groove
420: second wire connecting groove
430 bend
500: connector
600: corrosion protection member
610: electrode module
620: Sliver Type Crimp Contact
630: electrode connection wire
C: Subsea Pipe

Claims (3)

A lower block through which the first connecting hole is formed;
An upper block in close contact with an upper surface of the lower block and having a second connecting hole formed therethrough corresponding to the first connecting hole;
A fastener coupled through the first connection hole and the second connection hole; And
And a corrosion preventing member including an electrode module detachably installed inside the lower block or the upper block, one end of which is connected to the electrode module, and the other end of which is connected to a subsea pipe. Cathodic protection block for concrete mattress.
The method of claim 1,
Block of the cathodic protection method for the concrete mattress,
Blocks are formed extending from one end to the other end of the upper surface of the lower block, the connection groove for receiving the connector and the wire connection groove for receiving the electrode connection wire further comprises a negative electrode protection method for the concrete mattress.
The method of claim 2,
The connecting groove,
Further comprising a first wire connection groove extending to the left and right on the upper surface of the lower block, and a second wire connection groove extending back and forth on the upper surface of the lower block so as to intersect the first wire connection groove,
On the lower surface of the upper block,
Block of the cathodic protection method for a concrete mattress, characterized in that the cross groove is formed at a position corresponding to the intersection of the first wire connecting groove and the second wire connecting groove.

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