KR200459878Y1 - Safety cap for file - Google Patents

Abstract

The present invention relates to a pile safety cap, comprising: a disc-shaped cap body disposed in an opening of a pile to shield the opening; And a bending flange that is bent toward the pile from the circumferential surface of the cap body and is fitted to the outside of the opening, wherein the cap body and the bending flange are made of a metal material, and the bending flange has a plurality of cutting grooves. The lower end portion is characterized in that it has a diameter larger than the outer diameter of the pile. As a result, it is possible not only to retain the desired rigidity while reducing its thickness or volume, but also to reduce the manufacturing cost and logistics cost, and furthermore, it can be collected and recycled as scrap metal, thereby solving economic and environmental pollution problems.

Steel pipe pile, pile, head, reinforcement, cap, safety cap

Description

Safety cap for file

The present invention relates to a pile safety cap, and more particularly, it can not only retain the desired rigidity while reducing its thickness or volume, but also can reduce manufacturing costs and logistics costs, and can be collected and recycled as scrap metal. It is about pile safety cap that can solve economic and environmental pollution problem.

When constructing various building structures such as buildings and bridges, the PILE method is often used as a countermeasure against the stability and settlement of structures based on soft ground. In other words, steel pipe piles, PHC piles, PC piles, or RC piles pre-produced at the factory are constructed by the type method (hit, vibrate) or embedding method. The protruding pile is properly cut and so-called head reinforcement is performed to reinforce the tip. Next, reinforce the bottom reinforcement in the horizontal direction on the upper part, and cast the foundation concrete so as to stably support the structure by the piled pile and the poured concrete.

Before the head reinforcement step during the construction of such a structure, the cut file is exposed to the ground as it is. At this time, if the file embedded in the ground is left uncut, the safety cap may be lost because the worker may fall into the file and a safety accident may occur. In other words, the pile safety cap serves to temporarily shield the opening of the pile before head reinforcement.

However, currently widely used pile safety caps are mostly made of plastic injection molding to increase the rigidity of the thickness or volume unnecessarily increases the production cost and causes a problem of increased logistics costs during transportation, In particular, it is difficult to recycle after use has a problem causing environmental pollution.

Therefore, while maintaining the desired rigidity while reducing its thickness or volume, it is possible to reduce the production cost and logistics costs, and furthermore, the development of a pile safety cap that can solve the environmental pollution problem is required.

The purpose of the present invention is not only to retain the desired rigidity while reducing its thickness and volume, but also to reduce the manufacturing cost and logistics costs, and furthermore, it can be collected and recycled as scrap metal, which can solve economic and environmental pollution problems. To provide a file safety cap.

The object includes: a disc shaped cap body disposed in the opening of the pile to shield the opening; And a bending flange that is bent toward the pile from the circumferential surface of the cap body and is fitted to the outside of the opening, wherein the cap body and the bending flange are made of a metal material, and the bending flange has a plurality of cutting grooves. And a lower end thereof is achieved by a pile safety cap, which has a diameter larger than the outer diameter of the pile.

At least one through hole is formed in the cap body.

The at least one through hole may include a plurality of circular through holes spaced apart from each other along a circumferential region of the cap body; And a plurality of long holes formed inside the plurality of circular holes and disposed along a radial direction of the cap body.

Wherein the cap body comprises: a first surface layer; A second surface layer formed radially inward of the first surface layer and having a surface higher than the first surface layer; And a third surface layer formed radially outward of the first surface layer and having a surface higher than the first surface layer, wherein bead lines are formed on the first surface layer and the third surface layer.

According to the present invention, it can not only retain the desired rigidity while reducing its thickness or volume, but also reduce the production cost and logistics cost, and can be collected and recycled with scrap metal, thereby eliminating economic and environmental pollution problems. There is.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a trial of the pile safety cap coupled to the pile according to an embodiment of the present invention, Figure 2 is an exploded perspective view of Figure 1, Figure 3 is a cross-sectional view taken along line AA of Figure 1, Figure 4 Is a rear perspective view of the pile safety cap.

As described above, when the construction of various building structures such as buildings and bridges, as described above, file designation for laying piles (10), also called piles, on the ground to reinforce the strength of the soft ground as foundation work. There is this.

After the pile 10 is buried in the ground, the head is reinforced into the pile 10. The pile safety cap 20 is covered with the opening 10a of the pile 10 before the head reinforcement as shown in FIG.

Pile safety cap 20 is provided to eliminate the risk that the operator falls into the opening (10a) of the pile (10) that is left open and the safety accident or the surrounding building tools are lost.

However, although the pile safety cap (not shown) has been used in the related art, the conventional pile safety cap is made of plastic injection molding, so the thickness and volume of the pile pile are unnecessarily increased in order to increase rigidity. And it causes a problem of rising logistics costs, in particular, there was a problem causing the environmental pollution is to propose a pile safety cap 20 as shown in Figures 1 to 4 to solve this problem.

1 to 4, the pile safety cap 20 of the present embodiment is disposed in the opening 10a of the pile 10 to shield the opening 10a, and the cap body. It is provided with the bending flange 25 which is bent toward the pile 10 at the circumferential surface of 21 and forcibly fitted on the outer side of the opening 10a.

The cap body 21 is a portion that substantially shields the opening 10a of the pile 10. Since the pile 10 is made of a tubular body, the cap body 21 is also provided in a disk shape to correspond thereto.

For reference, the pile 10 may be a steel pipe pile or concrete pile including various construction piles, and thus the pile safety cap 20 of the present embodiment may be applied to any kind of pile.

Pile safety cap 20 of the present embodiment is made of a metal material unlike the conventional. For corrosion resistance may be made of stainless steel or aluminum, but in the present embodiment is made of steel.

As such, unlike the prior art, as the pile safety cap 20 of the present embodiment is made of a metal material, the thickness or volume thereof may be significantly reduced compared to the conventional one, but the rigidity may be superior to the conventional one. Therefore, manufacturing cost and logistics cost can be reduced, and furthermore, it can be collected and recycled as scrap metal, thereby solving economic and environmental pollution problems.

The cap body 21 having a disk shape includes a first surface layer 21a, a second surface layer 21b formed radially inward of the first surface layer 21a, and having a surface higher than the first surface layer 21a. And a third surface layer 21c formed radially outward of the first surface layer 21a and having a surface higher than the first surface layer 21a.

Inclined surfaces 21d and 21e are formed between the first and second surface layers 21a and 21b and between the first and third surface layers 21a and 21c, respectively.

Of course, the cap body 21 may be manufactured in a flat form without the first to third surface layers 21a to 21c and the first and second inclined surfaces 21d and 21e, but the first to third surface layers 21a to 21c may be manufactured. 21c) and when the first and second inclined surfaces 21d and 21e are formed, even if the cap body 21 is made of a thin thin plate, there is an advantage that the deformation is reduced and the supporting force is improved.

However, since the scope of the present invention is not limited thereto, the first to third surface layers 21a to 21c and the first and second inclined surfaces 21d and 21e should not be formed.

The cap body 21 is formed with a plurality of through holes (22, 23) for air circulation to the inside and outside.

In the present embodiment, the plurality of through holes 22 and 23 are disposed inside the plurality of circular through holes 22 and the plurality of circular through holes 22 which are spaced apart from each other along the circumferential region of the cap body 21. It may be divided into a plurality of long holes 23 arranged along the radial direction of the body 21.

In this case, the plurality of circular through holes 22 are formed to span the third surface layer 21c and the plurality of long through holes 23 to cover the first surface layer 21a and the second surface layer 21b. However, this also cannot limit the scope of the present invention.

In addition, bead lines 21f and 21g are formed in the first surface layer 21a and the third surface layer 21c to reinforce the bearing capacity. Here, the inner bead 21f is formed to protrude upward and the outer bead 21g is preferably formed to protrude downward for the purpose of reinforcing the bearing force (see FIG. 3).

The bending flange 25 is a part which is bent toward the pile 10 from the circumferential surface of the cap body 21 and is forcibly fitted to the outside of the opening 10a.

That is, when the bending flange 25 places the cap body 21 at the opening 10a of the pile 10 and hits the upper end of the cap body 21, the bending flange 25 has the opening 10a of the pile 10. It is pressed against and shields the opening 10a of the pile 10. As shown in FIG.

As shown in FIG. 3, the lower end portion of the bending flange 25 has a shape that is further opened radially outward of the pile 10 so that the opening 10a of the pile 10 is easily inserted. That is, the diameter of the lower end of the bending flange 25 becomes larger than the outer diameter of the pile 10. Therefore, the diameter of the lower end of the bending flange 25 is formed to be wider than the outer diameter of the pile 10 and the diameter of the upper end is formed so as to correspond to the outer diameter of the pile 10, so that the pile safety cap 20 is opened 10a of the pile 10. ) Is easy to fit. In addition, a plurality of cutting grooves 25a are formed at the lower end of the bending flange. Therefore, even if there is some error in the thickness of the pile 10, since the cutout grooves 25a can be inserted while partially deforming, the insertion into the pile 10 becomes easier.

Thus, if the pile safety cap 20 is fitted to the outside of the pile 10 by the structure of the bending flange 25, the pile safety cap 20 is not separated from the pile 10 without using a tool Tight fastening can be achieved.

Looking again at the process of installing the pile safety cap 20 having such a configuration, first, the pile safety cap 20 of the present embodiment is first disposed in the opening 10a of the pile 10 before head reinforcement.

Then hit the top of the cap body 21. The pile 10 is then easily inserted through the lower end of the bending flange 25 having a wide diameter and enters the upper end of the bending flange 25 having a diameter corresponding to the outer diameter of the pile 10. At this time, even if there is a slight error in the thickness of the pile 10, since the plurality of cutting grooves 25a formed at the lower end of the bending flange 25 may be partially deformed and inserted, the insertion into the pile 10 may be facilitated. As a result, the pile safety cap 20 is forcibly fitted to the pile 10 so that the pile safety cap 20 is not easily separated from the opening 10a of the pile 10. In the case of removing the installed pile safety cap 20, the upper end of the bending flange 25 is gripped with a tool, and the upper portion of the pile safety cap 20 can be separated.

In the case of a construction site, because the number of piles 10 is large, it is also possible to easily install the pile safety cap 20 in this way can also be another effect of the present invention.

Thus, according to the pile safety cap 20 of the present embodiment, not only can retain the desired rigidity while reducing its thickness or volume, but also can reduce the production cost and logistics costs, and furthermore can be collected by scrap metal and recycled At the same time, it is possible to solve environmental pollution problems.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1 is a perspective view of a file safety cap coupled to a file according to an embodiment of the present invention,

2 is an exploded perspective view of FIG. 1;

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a rear perspective view of the pile safety cap.

DESCRIPTION OF THE REFERENCE NUMERALS

10: file 10a: opening

20: file safety cap 21: cap body

21a ~ 21c: Surface layer 21d, 21e: Slope

21f, 21g: Bead line 22, 23: through hole

25: bending flange

Claims (4)

A disc shaped cap body disposed in the opening of the pile to shield the opening; And A bending flange that is bent toward the pile from the circumferential surface of the cap body and is fitted to the outside of the opening, The cap body and the bending flange is made of a metal material, The bending flange has a plurality of cutting grooves, the lower end of which has a diameter larger than the outer diameter of the pile, A through hole is formed in the cap body, The cap body, First surface layer; A second surface layer formed radially inward of the first surface layer and having a surface higher than the first surface layer; And A third surface layer formed radially outward of said first surface layer and having a surface higher than said first surface layer, Pile safety cap, characterized in that the bead line is formed on the first surface layer and the third surface layer. delete The method of claim 1, The through hole, A plurality of circular apertures spaced apart from each other along a circumferential region of the cap body; And The pile safety cap is disposed inside the plurality of circular through holes, characterized in that it comprises a plurality of long through holes arranged along the radial direction of the cap body. delete

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