KR200298426Y1 - Anticorrosive cap nut - Google Patents

Abstract

The present invention relates to a nut for preventing corrosion of underground water pipes and various devices, and having a screw hole (2) formed with a taper of 2 to 6 ° that is reduced in diameter, and composed of zinc alloy. It features.

Description

Anti-corrosion cap nut {Anticorrosive cap nut}

The present invention relates to a cap nut for preventing corrosion of underground water pipes and various equipment.

Water supply pipes are divided into water pipes for connecting the drainage in the water treatment plant, drain pipes connecting the drainage from the reservoir to the alley just before the home, and water pipes connecting the drainage to the home. In general, domestic tap water leakage rate is known to be considerably higher than that of developed countries, and about 80-85% of domestic tap water leakage is leaked from the above-described drain pipe and water supply pipe (hereinafter, referred to as "distribution water pipe"). In general, the conventional water supply pipe connection is mainly used to bolt the sleeve to the outside of the water supply pipe connection. However, in the conventional fastening method using the sleeve there is a problem that the fasteners such as bolts and the peripheral portion thereof is corroded.

In general, the progress of corrosion of water pipes buried in land is greatly dependent on the surrounding environment. For example, when the soil in which the water pipes are embedded is corrosive, the corrosion progresses rapidly, resulting in a leak accident. As a countermeasure, conventionally, it was only to coat with anticorrosive paint or the like. However, in the case of the coating, the coating is peeled off during construction, or as the time passes, defects occur on the painted surface due to aging and the leakage current is concentrated on this portion, which causes corrosion. In addition, corrosion of underground buried pipes does not generally proceed uniformly, and it is common that the bolts and nuts used for the connection of the distribution pipe are particularly prematurely corroded. Even though the pipes and connecting mechanisms, which consist of the pipe, are made of the same material, the cause of premature corrosion of the bolt or nut is not fully understood at present. It is known that bolts and screws are polarized with respect to cast iron pipes, and this phenomenon causes a significant difference in the area ratio between the negative electrode and the positive electrode, resulting in deterioration of coating of the bolts and nuts as compared with other parts.

On the other hand, as is known in the art, generally, when zinc is connected to iron, zinc has a high ionization tendency and becomes anodized so that a corrosion prevention current flows. It is known to prevent corrosion by 30 years.

The present invention has been devised in view of the above-mentioned problems, and it is to provide a cap nut for reliably preventing the corrosion occurring in various constituent members of the pipeline, especially bolts and nuts, buried in the ground using a member composed of zinc. The purpose.

1 is a half sectional view of a cap nut according to the present invention;

2 is an enlarged view of the thread of the cap nut;

3 is a cross-sectional view of the state of use of the cap nut according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1. Cap nut 2 .. Screwdriver

3 .. Female thread 4 .. Root

A .. Bolt C .. Nut

The first object of the present invention is to be fastened to the front end of the bolt after the nut is fastened to the bolt for fastening the water distribution pipe, the female thread is screwed with the bolt is formed, the one end is closed with a screw hole, The line connecting the threaded ends of the female screw along the longitudinal direction of the screw hole is inclined 2 to 6 ° with respect to the central axis of the screw hole so that the inner diameter of the female screw decreases toward the closed end side, and is made of zinc alloy. It can be achieved by the anti-corrosion cap nut characterized in that.

In the anti-corrosion cap nut according to the present invention, it is preferable that the female thread of the screw hole has a shape in which the metric screw is inclined by 4 °. That is, it is preferable that the thread angle of the female thread of the screw hole is 60 °, and the angle formed by the line connecting the threaded ends of the female thread and the central axis of the screw hole in the longitudinal direction of the screw hole is 4 °.

In addition, the thread end of the thread of the cap nut is preferably formed sharply.

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

1 is a half cross-sectional view of a cap nut according to the present invention, Figure 2 is an enlarged view of the threaded portion of the cap nut shown in FIG.

The material of the cap nut 1 is zinc alloy. Zinc has a higher ionization tendency than iron and is in a low potential state, so it is easily polarized. As shown, the cap nut 1 has a screw hole 2 in which a female screw 3 is formed, and the screw hole 2 has a shape which does not penetrate. That is, one end of the screw hole 2 is closed.

The line L1 connecting the threaded ends 4 (see FIG. 2) of the female thread 3 along the longitudinal direction of the threaded hole 2 is slightly inclined angle θ with respect to the central axis CL of the threaded hole 2. ), The inner diameter of the screw hole 2 becomes smaller toward the closed end. The inclination angle θ is usually about 2 to 6 degrees, and as shown in FIG. 2, when the thread angle of the female thread 3 of the screw hole 2 is 60 °, the inclination angle ( It is preferable to make θ) 4 °. The shape of the screw is similar to the tapered screw, but it is strictly a metric screw rather than a tapered screw. The reason for this is that since the bolt to be screwed is generally a metric screw, it is preferable that the cap nut to be screwed to the bolt is also metric screwed so as to facilitate the coupling.

2, the threaded end 4 of the female screw 3 is sharply formed. It is common to make the end of the thread flat during thread processing, but in the present embodiment, it is preferable to make it the same as the shape of the thread head of the 60 ° angle.

Next, the method of using the anti-corrosion cap nut according to the present invention and the anti-corrosion action will be described.

As shown in Figure 3, the cap nut 1 is coupled to the protruding end portion (B) of the fastening bolt (A). At this time, the cap nut 1 is sufficiently tightened to be completely in contact with the nut C which is fastened earlier. When tightening the cap nut 1, a normal spanner or wrench may be used, and no special tool is required. As described above, the screw hole 2 of the cap nut 1 is formed with the predetermined inclination angle θ, whereas the male screw of the fastening bolt A is a conventional metric screw. Therefore, since the shapes of both screws do not coincide, resistance occurs when the cap nut 1 is fastened. However, since the cap nut 1 is made of zinc alloy, it is more flexible than the steel fastening bolt A. As the tightening proceeds, the thread of the cap nut 1 is deformed under negative pressure against the thread of the bolt A. As a result, the bolt A comes into close contact with the screw thread.

Moreover, since the threaded end 4 of the female screw 3 of the cap nut 1 is pointed, when screwed to the bolt A, the paint film, rustproof film, etc. affixed to the male threaded surface of the bolt A are scraped off. Therefore, the cap nut 1 and the bolt A come into direct contact with the metal, which is the material thereof.

In this manner, the cap nuts 1 and the bolts are brought into complete thread contact with each other, and thus the contact area between the cap nuts is maximized, thereby ensuring sufficient electrical conduction between the cap nuts 1 and the bolts. As a result, in the state where the cap nut 1 is coupled, the zinc cap nut of a lower level than the iron bolt becomes an anode, and the current generated in this anode flows to the bolt as an anticorrosive current, thereby preventing corrosion of the bolt. The anticorrosive effect at this time flows to the fastening bolt (A) and the fastening nut (C), as well as to the distribution water pipe body according to the range of the anticorrosive current.

The present invention is not limited to the above-described embodiments, and can be carried out by applying modifications within the scope of the claims. In particular, the shape of the thread and the inclination angle as described above are free.

Since the cap nut for corrosion prevention according to the present invention is made of zinc alloy, when the cap nut is fastened to the protruding end of the bolt, the cap nut becomes a sacrificial anode and a corrosion current flows through the bolt to protect the bolt and its members from corrosion. In addition, since the inner diameter of the female nut of the cap nut becomes smaller toward the closed end side, the inner thread of the cap nut is closely contacted while cutting off the male screw of the bolt, so that sufficient electricity can always be secured between the two nuts to prevent corrosion failure.

In addition, not only the thread of the cap nut corresponds to the metric screw, but also the inclination angle is appropriate, so that it is generally suitable for use in the method of the most widely used mater bolt. In addition, it is excellent also in terms of construction surface and anticorrosive precision.

Moreover, since the foreign material adhering to the male threaded surface of the bolt can be removed by the sharp thread, good electrical conduction can always be ensured after the cap nut is tightened, and the anticorrosive precision can be improved.

Claims (3)

Following the nut (C) fastened to the water supply pipe fastening bolt (A) is fastened to the front end portion (B) of the bolt (A), the female screw (3) is screwed and the bolt (A) is formed and one side The threaded end 4 of the female screw 3 is provided along the longitudinal direction of the screwed hole 2 so that the inner end of the female screw 3 may become smaller toward the closed end side. The line (L1) connecting the two) is inclined 2 to 6 ° with respect to the central axis (CL) of the screw hole (2), corrosion prevention cap nut (1), characterized in that composed of zinc alloy. The screw thread angle of the female screw 3 of the screw hole 2 is 60 °, and a line connecting the threaded ends 4 of the female screw 3 along the longitudinal direction of the screw hole 2 is formed. L1) and the angle formed by the central axis (CL) of the screw hole (2) is a corrosion preventing cap nut, characterized in that 4 °. The corrosion preventing cap nut according to claim 1 or 2, wherein the threaded end (4) of the female screw (3) is sharp.