JP5507439B2 - Steel pipe sheet pile coating anticorrosion method - Google Patents

Description

  The present invention relates to a steel pipe sheet pile covering anticorrosion method, and more particularly, to a corrosion prevention in the vicinity of a water line portion of a steel pipe sheet pile widely used as a seawall or river revetment wall, and particularly a method applied to an existing structure. About.

  The vicinity of the water line part of the steel pipe sheet pile is generally most prone to corrode, and the anticorrosion layer is severely deteriorated or damaged by waves, collision of drifting objects, ultraviolet rays, and the like. When the thickness of the steel pipe sheet pile forming the revetment is reduced due to corrosion, it becomes impossible to maintain the revetment, which is extremely dangerous. Moreover, since the environment where the steel pipe sheet pile is installed is often a place where it is difficult to repair or reinforce, the need for anti-corrosion measures with a long life is extremely large.

Conventionally, a protective cover for protecting the anticorrosion layer is attached to the steel pipe sheet pile. As a method of attaching this protective cover, a thickened flange portion is provided by bending the both ends in the bending direction at an angle of 90 to 110 degrees on a halved curved plate having the same diameter as the steel pipe portion of the steel pipe sheet pile. A method of attaching the protective cover to the steel pipe sheet pile by attaching a stud bolt to the connecting part for connecting the steel pipe part by welding and fixing the flange part of the protective cover to the stud bolt with a nut. There is.
The installation of the protective cover by this method poses no problem if the steel pipe sheet piles are all installed at the same interval, but in general, it is rarely installed at a fixed interval due to the force applied when the sheet pile is placed. A gap is formed in the vicinity, and the portion cannot be protected against corrosion.

As a method of following such changes in the steel pipe connecting portion, the flange portion of the protective cover is fixed to the stud bolt with a nut in the steel pipe connecting portion, and the flange portion is provided in the protective cover also in the steel pipe portion, and the flanges are bolted to each other. The method of fixing with a nut is taken. This method has been implemented as a coating that absorbs the displacement due to the displacement of the steel pipe connecting portion by allowing the hole diameter and the flange interval of the flange, and has excellent fit.
That is, as a conventional method of attaching a protective cover, as shown in FIG. 5 and FIG. 6, two curved plates having the same diameter as the steel pipe portion 1 of the steel pipe sheet pile A and having a quadrant shape, The flanges 2a and 2a which are thickened by bending both side ends are provided as the protective cover 2, while the stud bolt 3a is attached to the connecting part 3 for connecting the steel pipe part 1 by welding. A method of attaching the protective cover 2 to the steel sheet pile A by fixing one flange portion 2a of the protective cover 2 to the nut 3a with a nut and fixing the other flange portions 2a of the protective cover 2 with bolt nuts 2b. Met.

  However, in this method, when the bolts and nuts are tightened, bending deformation starting from the root of the flange of the steel pipe portion occurs, and a gap is formed in the vicinity of the flange. In order to prevent this, it is sufficient to stop the tightening work before deformation starts, but in reality it is almost impossible to observe the situation from the top of the protective cover, even if such adjustment can be made Insufficient tightening force may cause corrosion problems due to insufficient spreading pressure. If there is a gap in the vicinity of the flange, the anticorrosion layer is usually attached in a state of being integrated with the protective cover, so that the steel material in that portion becomes non-corrosion-proof and generates great corrosion.

  On the other hand, a method of fixing the protective cover with rivets is known mainly for steel pipe piles (see Patent Document 1). In this method, a protective coating such as resin filling is applied to the wrap portion of the protective cover. Yes. In the case of steel pipe pile covering corrosion protection, the entire circumference of the steel pipe is covered, so it is easy to secure the gap necessary for rivet fixing by the buffer layer inside the protective cover that has been generally installed. When fixing the half-circumference part with two protective covers like a sheet pile, the protective cover bends inward at the time of fastening with a belt, and it becomes impossible to secure an interval for fixing with rivets.

In place of the above-mentioned coating anticorrosion, there are also painting and lining using an underwater curing type paint. This method has the advantage of being able to prevent corrosion regardless of the shape of the structure, but the durability of the coating film is greatly affected by the adjustment of the substrate during construction, and a good blast treatment is essential. However, it is difficult to perform a good blasting treatment with an existing structure, and even if it can be carried out, rusting occurs immediately, so that it is necessary to paint immediately after blasting. On the other hand, in the above-mentioned coating anticorrosion, blasting is unnecessary, and long-term anticorrosion can be achieved with a base adjustment of about ISO St2.
Moreover, since the coating film itself has almost no strength, it is relatively easily damaged due to the collision of drifting objects.
There are other ways to line mortar or concrete. This is a method of attaching FRP or steel formwork to a steel pipe sheet pile while maintaining a certain interval, and injecting mortar or concrete between them to prevent corrosion. This method requires large-scale mechanical equipment for attaching the formwork and pouring concrete. In addition, there is a method of leaving the formwork as it is to protect the concrete, but in order to maintain the strength of the concrete, there are cases where reinforcing bars and anchors are built in, and there are problems such as heavy load on the structure and high cost. (Refer nonpatent literature 1).

Conventionally, steel pipe sheet piles installed in places where corrosion is severe, such as the marine environment, were painted at the time of new installation. The protective cover used at that time was provided with a flange, where it was connected and fixed by bolts and nuts. Particularly in recent years, petrolatum coating has been increasingly applied because the anticorrosive body is light in weight, excellent in anticorrosion effect and durability.
However, in the petrolatum coating, since the anticorrosion layer and the protective layer are attached in an integrated state, when the flange is tightened, the both sides of the flange are lifted, which may cause a problem in anticorrosion. Moreover, the part fixed by the connection part may be pulled, and a big clearance gap may be formed.

Japanese Patent No. 3749854

"Port Steel Structure Corrosion Prevention and Repair Manual", p.107-163, November 2009, issued by Coastal Technology Research Center

When most of the corrosion protection objects are used to prevent corrosion of steel structures in water, it is difficult to apply or paste the corrosion protection layer alone to the steel surface, and this is limited to some epoxy coatings. However, in this case as well, it is necessary to adjust the substrate by blasting, and for large-walled structures such as steel pipe sheet piles, the frequency of collision of drifting objects increases, so a protective cover for the anticorrosion layer is required. As a result, methods other than epoxy coating are widely applied. In this case, since the anticorrosion layer is difficult to be directly coated in the underwater portion, one integrated with the protective cover is used.
However, if the flange method used in the steel pipe piles described above is used as a method of fixing the protective cover, the flange is protected by the large force generated when the flange is tightened with bolts and nuts, in the vicinity of the flange or on the opposite fixed part. A deformation | transformation and a movement of a cover will arise and it will become a clearance gap and will become a corrosion-proof defect location.

  An object of the present invention is to provide a method for coating and corrosion prevention of steel pipe sheet piles that can improve the drawbacks of conventional coating and corrosion prevention of steel pipe sheet piles and realize a better corrosion prevention effect at a lower cost.

  The inventors have made various studies in order to achieve the above object, and attached and fixed one end of the protective cover integrated with the anticorrosion layer to the corner of the steel pipe connecting portion and the steel pipe without any gaps. By tightening the other end with a lashing belt and pressing the protective cover on the steel pipe part from both sides and pressing it from above to fix it with a rivet, the airtightness of the anticorrosive layer and the steel surface necessary for anticorrosion is ensured. It has been found that good corrosion protection can be achieved on the entire surface of steel pipe sheet piles.

The present invention has been made on the basis of the above knowledge, and in the coating and corrosion prevention method for a steel pipe sheet pile that covers and protects the steel pipe portion of the steel pipe sheet pile with a protective cover having an anticorrosion layer on the inside, the protective cover is divided into two parts, and the protection is provided. Fix the cover to each other with rivets, and fix the stud bolt perpendicular to the steel pipe sheet pile normal to the connection part that connects the steel pipe part of the steel pipe sheet pile, and match the shape of the connection part to the stud bolt A connecting plate that is molded and integrated with the anticorrosion layer is fitted, and a flange portion formed in advance is fitted into one end of the protective cover, and fixed with a nut, thereby forming a continuous protective layer and an anticorrosion layer. A method for covering and preventing steel sheet piles is provided .

According to the coating anticorrosion method for steel pipe sheet piles of the present invention, it is possible to improve the drawbacks of conventional coating anticorrosion and realize a better anticorrosive effect at a lower cost. Specifically, for example, the following effects are produced.
The flange part of the protective cover in the steel pipe part is eliminated, and the part is fixed using a rivet with the protective cover overlapped, so use the stud bolt installed in the connecting part to attach the eye nut, By tightening with a lashing belt hung on the steel pipe, the steel pipe sheet pile can be covered without a gap.
By eliminating the flange portion of the protective cover in the steel pipe portion, there is no gap generated when the flange portion is tightened, and the anticorrosion performance can be improved.
Even in the flange portion of the protective cover in the connecting portion, it is no longer strongly pulled from the steel pipe side, so there is almost no gap near the flange, and this portion can also improve the anticorrosion performance.

Thickening processing for maintaining the shape of the flange portion is unnecessary, the manufacturing period is shortened, and the manufacturing cost of the protective cover can be reduced.
Since there is no need to increase the thickness of the flange, it becomes possible to apply mechanical molding that enables mass production of protective covers. Also, elasticity is generated, and the elasticity can be applied to steel pipes with slightly different hole diameters. It becomes. This means that productivity is extremely improved as compared with the conventional cover that can only be used with the diameter of the steel pipe to be protected against corrosion.
By eliminating the flange part of the protective cover in the steel pipe part, the landscape of the steel pipe sheet pile after coating anticorrosion was improved.
Conventionally, in this type of coated anticorrosion, a petrolatum-based anticorrosive material is used for the anticorrosion layer, but when a protective cover is fixed at the flange portion, a strong pressure is applied directly under the flange portion. Oil may be squeezed out and leak out. However, in the method of the present invention, since a large spreading pressure is not applied locally, the oil in the anticorrosive material does not exude.

FIG. 1 is a cross-sectional view showing an embodiment of a method for covering and preventing steel pipe sheet piles according to the present invention. FIG. 2 is an enlarged cross-sectional view showing an example of a method of attaching a protective cover in a steel pipe connecting portion having a connection shape of LT type. FIG. 3 is an enlarged view of a rivet fixing portion of the protective cover in FIG. FIG. 4 is an enlarged cross-sectional view showing an example of a method for attaching a protective cover in a steel pipe connecting portion having a PP connection type. FIG. 5 is a cross-sectional view showing a conventional method of covering and preventing steel pipe sheet piles. 6 is an enlarged view of the flange fixing portion of the protective cover in FIG.

Hereinafter, the coating corrosion prevention method of the steel pipe sheet pile of the present invention will be described in detail with respect to preferred embodiments shown in the drawings.
First, a preferred embodiment shown in FIGS. 1 to 3 will be described.
In the present embodiment, a protective cover made of glass fiber reinforced plastic (FRP) having an anticorrosion layer 4 made of a petrolatum-based anticorrosive material on the inner side of an existing steel pipe sheet pile A in which the connection shape of the steel pipe connection portion 3 is an LT type. It is an example in the case of using 2 to carry out coating anticorrosion.

In this embodiment, first, after removing marine life adhering to the existing steel pipe sheet pile A, the steel material surface is subjected to a base preparation of a grade of ISO St2.5 or higher, and then in the center of the steel pipe connecting portion 3 in advance. The plate 5 to which the bolt 5a is welded is fixed by welding. A plurality of bolts 5a are attached to predetermined portions of the steel strip at predetermined intervals.
The protective cover 2 made of FRP has a thickness of 2 to 3 mm formed at the factory, and has the same diameter as that of the steel pipe portion 1 of the steel pipe sheet pile A. The FRP curved plate is an anticorrosive tape defined in JIS Z1902. The anticorrosion layer 4 is attached and integrated, and a flange portion 2a having a width of 50 to 70 mm is formed at one end thereof. The flange portion 2a is not affixed with an anticorrosion tape, and a portion that is applied to the bolt 5a is notched.

An anticorrosive paste specified in JIS Z1903 is applied to the surface of the steel material of the steel pipe portion 1 or the surface of the anticorrosive tape of the protective cover 2.
The gap between the L steel 31 constituting the steel pipe connecting portion 3 and the steel pipe is filled with anticorrosion tape or petrolatum mastic material 9 so that no depression is formed on the side of the L steel 31.

Thus, the flange portion 2a of the protective cover 2 is fitted into the bolt 5a, and the flange portion 2a of the protective cover 2 is connected to the steel pipe so that the bent portion of the flange portion 2a fits the corner of the steel pipe and the connecting portion. The flange part of the protective cover which attaches to the part 3 and coats and protects the adjacent steel pipe part in the same manner is attached to the steel pipe connecting part 3, and is the FRP cover plate 6 having a width of 80 mm and a thickness of 5 mm and the same length as the protective cover 2 Is fitted into the bolt 5a from above the protective cover 2 and fixed with a nut 5b.
The protective cover 2 is attached to the remaining half of the coated anticorrosion target portion of the steel pipe portion 1 in the same manner as described above.

Among the bolts 5a to which the protective cover 2 is attached, bolts 5a at the upper and lower ends of the protective cover 2 and appropriate bolts 5a therebetween (for example, a bolt having a pitch of about 50 cm when the length of the protective cover 2 is 1 m or more) , Fix the lashing belt to the eye nuts on both sides of the steel pipe, and tighten the protective cover 2.
The protective cover 2 is prepared in advance so as to overlap 50 mm or more, and the overlapping portion of the protective cover 2 is fixed with the rivet 7. Note that the anticorrosion layer of the protective cover 2 on the upper side of the overlapping portion may be removed or may not be removed.
In the rivet fixing portion of the protective cover 2, it is preferable that a space of 50 to 90%, particularly 60 to 75%, is secured between the protective cover 2 and the anticorrosive layer 4 with respect to the length of the rivet body. If this interval is too narrow, fixing with rivets becomes difficult, and if this interval is too wide, it is not preferable for corrosion protection.
The spacing is preferably secured by attaching a sheet-like foam material such as foamed polyethylene or foamed polyurethane between the protective cover 2 and the anticorrosion layer 4 to provide a buffer layer.

After the overlapping portion of the protective cover 2 is fixed with the rivet 7, the lashing belt and the eyenut are removed from the bolt 5a, and the upper and lower ends of the protective cover 2 are filled with an underwater curing type epoxy resin. Further, the cap 5c filled with the anticorrosive material is put on the bolt 5a.
As described above, the coating anticorrosion method of the present invention can be performed on the existing steel pipe sheet pile A in which the connection shape of the steel pipe connection portion 3 is an LT type.

Next, an example of the case where the coating anticorrosion method of the present invention is applied to an existing steel pipe sheet pile A whose connection shape of the steel pipe connection portion 3 is a PP type will be described with reference to FIG.
FIG. 4 is an enlarged cross-sectional view showing the state of attachment of the protective cover 2 in the steel pipe connecting portion 3, and the rivet fixing state between the protective covers 2 in the steel pipe portion 1 is not shown, but is shown in FIG. 1. This is the same as the embodiment.

In the present embodiment, first, after adjusting the substrate in the same manner as the embodiment shown in FIG. 1, the stud bolt 3 a is fixed to the steel pipe connecting portion 3 perpendicular to the normal line of the steel pipe sheet pile. A plurality of stud bolts 3a are attached to predetermined portions of the steel pipe connecting portion 3 at predetermined intervals.
The FRP protective cover 2 used in this embodiment is the same as that used in the embodiment shown in FIG. Similarly to the embodiment shown in FIG. 1, an anticorrosive paste defined in JIS Z1903 is applied to the surface of the steel material of the steel pipe portion 1 or the surface of the anticorrosive tape of the protective cover 2.

  In the present embodiment, an FRP connecting plate 8 formed according to the shape of the steel pipe connecting portion 3 and integrated with the anticorrosion layer is used. A bolt hole slightly larger than the diameter of the stud bolt 3a is opened in a predetermined portion of the FRP connecting plate 8.

Thus, the FRP connecting plate 8 is fitted into the stud bolt 3a, and the flange portion 2a of the protective cover 2 is fitted into the stud bolt 3a and attached in the same manner as the embodiment shown in FIG. The cover plate 6 is fitted into the stud bolt 3a from above the protective cover 2 and fixed with the nut 5b. In this case, the FRP cover plate 6 may have a width that allows the notch portion of the flange portion 2a to be hidden.
The protective cover 2 is attached to the remaining half of the coated anticorrosion target portion of the steel pipe portion 1 in the same manner as described above.

The fastening of the protective cover 2 using an eyenut and a lashing belt and the rivet fixation between the protective covers 2 in the steel pipe portion 1 are performed in the same manner as in the embodiment shown in FIG.
As described above, the coating anticorrosion method of the present invention can be performed on an existing steel pipe sheet pile A in which the connection shape of the steel pipe connection portion 3 is a PP type.
In addition, 9 in FIG. 4 is the petrolatum type | system | group mastic material with which the clearance gap between the steel pipe connection part 3, the steel pipe, and the connection board 8 was filled.

The steel pipe sheet pile covering anticorrosion method of the present invention is not limited to the above embodiment. For example, the protective cover is not limited to an FRP protective cover, but a protective cover made of a plastic such as polyester resin, epoxy resin, polypropylene resin, or vinyl chloride resin, or a protective cover made of a corrosion-resistant metal such as stainless steel or titanium. A cover can also be used.
As the rivet for fixing the protective covers, it is preferable to use a self-closing blind type rivet, and the material of the rivet is preferably titanium, titanium alloy, or seawater resistant stainless steel.
Examples of the anticorrosive material for forming the anticorrosive layer include petrolatum-based anticorrosive materials, urethane-based or silicon-based sealing materials, and butyl rubber-based adhesive materials.

A Steel pipe sheet pile 1 Steel pipe part 2 Protective cover 2a Flange part 2b Bolt nut 3 Steel pipe connection part 31 L Steel 3a Stud bolt 4 Corrosion protection layer 5 Plate 5a Bolt 5b Nut 5c Cap 6 Cover plate 7 Rivet 8 Connection plate

Claims (1)

In the steel pipe sheet pile covering anticorrosion method for covering and preventing the steel pipe sheet pile with a protective cover having an anticorrosion layer inside, the protective cover is divided into two parts, and the protective covers are fixed and connected with rivets ,
A stud bolt is fixed perpendicularly to the steel pipe sheet pile normal line to a connecting portion for connecting the steel pipe portions of the steel pipe sheet pile, and the stud bolt is formed in accordance with the shape of the connecting portion and integrated with the anticorrosion layer. A steel pipe sheet pile covering anticorrosion method characterized by forming a continuous protective layer and an anticorrosion layer by inserting a plate, further fitting a flange portion formed in advance to one end of the protective cover, and fixing with a nut .

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