KR200392128Y1 - Head cap of pretensioned spun high strength concrete piles - Google Patents

Abstract

The present invention relates to a head cap for high strength concrete piles by a pretension method. The head cap for high-strength concrete piles by the pretension method according to the present invention, the disk-shaped head cap body is integrally fixed to the reinforcing band is formed with one or more embossed belt on its side; A plurality of first coupling holes provided on the same circumference on the outer circumferential surface of the disc shaped head cap body at equal intervals and formed in a dumbbell shape such that two coupling holes are connected to each other to form a single body; And a plurality of second coupling holes provided between the first coupling holes and formed in a dumbbell shape such that two coupling holes are connected to each other to form an integrated body. According to the present invention, the tensile strength and bending resistance are improved, and the optimized high strength concrete is optimized through concrete consideration of the characteristics of the structural structure, the load condition, the stress condition applied during the construction, the construction ground conditions, the construction method and the construction site conditions. Can provide stakes.

Description

Head cap of pretensioned spun high strength concrete piles}

The present invention relates to a head cap for high-strength concrete piles by a pretension method, and more specifically, a head cap for high-strength concrete piles by a pretension method that can fix a reinforcing bar arranged side by side with a PC steel bar introducing a tensile force. It is about.

In order to install a predetermined flooring structure on the ground, it is obvious that the ground must have sufficient bearing capacity for the load of the flooring structure. Soft ground is a ground that does not have sufficient bearing capacity in response to ground conditions or load conditions of flooring structures. Therefore, the soft ground should be prepared before the installation of the building structure, and the most common method among these precautions is to reach the supporting layer evenly and safely. It is a pile method to pre-install. The pile construction method is the most common method of constructing concrete concrete piles produced at the factory using a diesel hammer, steam hammer, or hydraulic hammer, using a blow method or landfilling after drilling the ground. Considering the gender, blow construction is more commonly used in land construction than in landfill construction.

As a concrete pile used to reinforce the soft ground, high strength concrete piles are commonly used. According to the Korean Industrial Standard (KS), the compressive strength of concrete manufactured by applying centrifugal force is 78.5N / mm2 (800㎏f / ㎠). The high strength concrete pile (hereinafter referred to as "PHC pile") by the above-mentioned pretension method is prescribed | regulated. The PHC pile (Pretensioned spun high strength concrete piles) has a larger compressive stress than the conventional PC piles, and thus has a greater bearing capacity for axial load, and the prestress is uniformly introduced into the prestress. And excellent flexural strength and absorb most of the tensile stress caused by the reflected wave generated at the time of driving.Therefore, there is little risk of cracking, so it is easy to penetrate into the hard layer in the ground and penetrate deeper and harder layers. There is an advantage that this can be done easily. In addition, PHC pile has the advantage that can be expressed in the soft ground treatment as a suitable pile in the seismic design received a simultaneous axial and horizontal force because the concrete bending tensile stress is large.

Conventional PHC piles are classified into 300mm, 350mm, 400, 450, 500, 600, 700, 800, 900, 1000, 1100 and 1200, respectively, according to their outer diameter, and class A and B depending on the size of the effective prestress. Species and C (hereinafter referred to as A, B and C, respectively).

In the selection of such concrete piles, it is necessary to design the appropriate type considering the characteristics of the structural structures and the load conditions. However, on the actual work site, ready-made concrete piles, especially class A concrete piles, which are manufactured according to Korean industrial standards without considering various specific conditions or situations, are most commonly used. Although concrete piles complying with Korean industrial standards are not optimized for the actual construction site conditions, the consideration of these specific conditions should be taken into account when constructing general factories or housing sites that are not important structures. It is not enough. For this reason, it will be difficult to deny that there is a risk of considerable damage or destruction in the structure when an external force such as an earthquake is applied to the constructed flooring structure after a simple ground construction is performed.

In addition, the load of the pile after the construction is also important for concrete piles, but the piles should be selected with sufficient consideration of the stress conditions applied to the pile. It is industry practice that we rarely do. However, when the pile is actually installed, the risk is due to the fact that the pile is not visually captured about the breakage of the pile despite the fact that the pile is bent or the lateral crack is generated due to the excessive stress applied to the pile. Ignored or overlooked

On the other hand, with regard to the condition of the ground to be constructed, which is the most important factor in the selection of concrete piles, by selecting the pile considering only the load condition applied to the selected pile, the pile failure for the situation of the construction ground is sufficient. Due to the stress generated in the unexpected state, there is a frequent problem that the construction results lead to insolvent.

Concrete piles must have different results as a result of the construction of the piles. Although the stress applied to piles during pile construction differs depending on the construction method, it is common practice to consider only the load condition of the upper structure as the basis of pile selection in construction, which causes the failure of concrete pile construction. have.

Finally, when the flattening condition of the construction site is poor, especially when the length of the concrete pile is more than 10 m, the damage of the internal pile that is not visually captured due to the bending stress exceeding the allowable stress occurs during the transport of the concrete pile Although it may occur, it is also the industry's reality to construct a pile in which the cause of construction failure is in place without actually considering the defects of the pile itself according to such specific field work conditions.

As described above, concrete piles that meet the Korean industrial standards are considered in consideration of the load conditions without any specific consideration of the characteristics of the structural structures, the load conditions, the stress conditions applied to the construction, the construction ground conditions, the construction method, and the construction site conditions. As a way to solve the various problems caused by the selection, it is more economical and construction by providing optimized concrete piles that can sufficiently meet specific situations and conditions, rather than concrete piles conforming to the types suggested by Korean industrial standards. In connection with the exclusion of defects, etc., efforts to improve the conventional high strength concrete pile structure have been continuously made in the related field, and the present invention has been devised based on the technical background.

The technical problem to be achieved by the present invention on the basis of the above-mentioned conventional problems, optimization through specific considerations of the characteristics of the structural structure, load conditions, stress conditions applied during construction, construction ground conditions, construction method and construction site conditions, etc. It is intended to add reinforcing bars in addition to the conventional pre-stressed PC steel rods that are reinforced inside concrete piles. It is an object of the present invention to provide a head cap for high strength concrete piles.

The head cap for high-strength concrete piles by the pretension method according to the present invention presented for achieving the technical problem to be achieved by the present invention, in the head cap for high-strength concrete piles by the pretension method, the embossed belt is Disc shaped head cap body is fixedly coupled to one or more formed reinforcing bands; A plurality of first coupling holes provided on the same circumference on the outer circumferential surface of the disc shaped head cap body at equal intervals and formed in a dumbbell shape such that two coupling holes are connected to each other to form a single body; And a plurality of second coupling holes provided between the first coupling holes and formed in a dumbbell shape such that two coupling holes are connected to each other to form a single body. The one coupling hole of the first coupling hole includes: It is provided as a fixing hole to which the caulking treatment of the pre-stressed PC steel rod distal end inserted into the high-strength concrete pile is fitted and fixed, the other coupling hole of the first coupling hole is fitted from the top to fix the head cap body A bolt is provided as a fastening hole for screwing, and the second coupling hole is provided as a fixing hole in which a caulking treatment part of a member end for fixing a reinforcement bar being reinforced in the high-strength concrete pile is fitted and fixed, and the other side of the second coupling hole. The coupling hole is provided as a fastening hole for screwing the second bolt fitted from the top to secure the head cap body It is characterized by.

The member for fixing the reinforcing bar is preferably the end of the reinforcing bar itself, or the end of the length extension member connected to the length of the reinforcing bar, the center of the upper surface of the disc-shaped head cap body is an open structure formed with a central through hole, or It is preferable to have a closed structure of a mold type or a depression type. On the other hand, the head cap for high-strength concrete piles by the pretension method may be used as a joint ring or a shoe.

Hereinafter, the present invention will be described in detail with reference to Examples, and in order to help understanding of the present invention, it will be described in detail with reference to the accompanying drawings. However, embodiments according to the present invention can be modified in many different forms, the scope of the present invention should not be construed as limited to the embodiments described below. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Meanwhile, in the present specification, the term 'caulking treatment' means that by forming a blunt head portion by pressing the tip or end portion of a steel rod or steel wire, the steel rod or steel wire passes freely through a predetermined through hole, but is formed at the tip portion or the end portion thereof. The head portion is mounted on the jaw of the through-hole means that the treatment is to be made, used throughout the specification the same meaning.

Concrete piles may be provided with a fixing member in each of the following four combinations according to the purpose of use. First, the construction of a single pile is completed when a single pile is finished, and a reinforcing band is used at the top and a shoe is used at the bottom. Second, when two or more piles are connected, the lower pile is connected with a joint ring at the top. In this case, a shoe is used for the lower part, and in the case of connecting three or more piles, the joint ring is used in both the upper and lower parts in the case of the pile used for the connection in the middle of the lower part or the uppermost part. In the case of piles arranged at the top of the connection construction, a reinforcing band is used at the top and a joint ring is used at the bottom. The head cap according to the present invention can be used as a joint ring or shoe of such a concrete pile, the structure of the head cap described with reference to the drawings below is only presented as a preferred embodiment, the technical features of the present invention in these drawings It is obvious that the scope is not limited.

Figure 1a is an exploded perspective view of a first embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention, Figure 1b is a reverse perspective view of the set plate 49 of Figure 1a.

As shown in FIG. 1A, a reinforcing band in which an embossed belt 40c is formed at the side of the head cap 40 is integrally fixedly coupled to the head cap body 40a, and a recess is formed in the center of the head cap 40. 40b is formed and provided at equal intervals on the same circumference on the outer circumferential surface of the head cap body 40a, and eight first coupling holes 47 of a dumbbell shape are formed so that two coupling holes are connected to each other to form an integral body. Eight, the second coupling hole (48a) of the dumbbell-shaped two coupling holes are connected to each other between the first coupling hole 47 is formed integrally. A set plate 49 is disposed above the head cap 40, and a central through hole 49 b is formed in the body 49 a, and two kinds of through holes are formed on an upper surface of the set plate body 49 a. 42a and 46a) 8 each of which is alternately formed on the same circumference.

Meanwhile, as can be seen through an upward perspective view of the set plate 49 illustrated in FIG. 1B, a through hole 49b (see FIG. 1A) is formed at an inner center of the set plate and surrounds the set plate body 49a. 1A), the upper surface constitutes the same plane, but an area in which 16 through holes 42a, 46a (see FIG. 1A) are arranged to alternate with each other on the same circumference of the lower surface thereof It can be seen that it is formed thicker than the surrounding edge region to form a circular step. As described above, the step formed at the bottom thereof may be used as a coupling groove into which a coupler (not shown) for interconnection with another set plate (not shown) or tension plate (not shown) connected adjacently is fitted. .

In order to fix the end of the pre-stressed PC steel bar 31 for reinforcement to the high-strength concrete pile, the caulking treatment part 31b of the pre-stressed PC steel rod end is fitted to be fixed to one side coupling hole of the first coupling hole 47. In addition, the other side of the first coupling hole 47, the first bolt 42 passed through the through-hole 42a formed in the set plate body 49a on the top of the head cap body 40a to be screwed. On the other hand, in order to fix the end of the reinforcing bar 33 is reinforced to the high-strength concrete pile, the coking treatment portion 33a of the end of the reinforcing bar is fitted to be fixed to one side of the coupling hole of the second coupling hole 48, the second coupling hole The second coupling hole 48 through the through hole 46a formed in the set plate body 49a on the head cap body 40a is screwed into the other coupling hole of the 48a.

Figure 2a is an exploded perspective view of a second embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention, Figure 2b is a reverse perspective view of the set plate 49 of Figure 2a.

As shown in FIG. 2A, a reinforcing band in which an embossed belt 40c is formed at the side of the head cap 40 is integrally fixedly coupled to the head cap body 40a, and the recessed portion is concave in the center of the head cap 40. 40b is formed and provided at equal intervals on the same circumference on the outer circumferential surface of the head cap body 40a, and eight first coupling holes 47 of a dumbbell shape are formed so that two coupling holes are connected to each other to form an integral body. Eight dumbbell-shaped second coupling holes 48b are formed so that two coupling holes are connected to each other between the first coupling holes 47 so as to form a single body. A set plate 49 is disposed above the head cap 40, and a central through hole 49 b is formed in the body 49 a, and eight of the set plate bodies 49 a are alternately arranged on the top surface of the head cap 40. A total of 16 two kinds of through holes 42a and 46a are formed on the same circumference.

In order to fix the end of the pre-stressed PC steel bar 31 for reinforcement to the high-strength concrete pile, the caulking treatment part 31b of the pre-stressed PC steel rod end is fitted to be fixed to one side coupling hole of the first coupling hole 47. In addition, the other side of the first coupling hole 47, the first bolt 42 passed through the through-hole 42a formed in the set plate body 49a on the top of the head cap body 40a to be screwed. On the other hand, in order to fix the reinforcement reinforced to the high-strength concrete pile, after preparing the length extension member 44 at the end of the reinforcement, and the end of the caulking treatment, the caulking treatment portion 44a at the end of the length extension member is coupled to the second After fitting so as to be fixed to the one side coupling hole of the ball (48b), it was tied to the end of the reinforcing bar (33) using a predetermined connecting wire 45, the other end of the length extension member 44 hook (44b) ) To strengthen the binding force with the concrete body after the concrete is placed, the through hole (46a) formed in the set plate body (49a) of the upper head cap body (40a) in the other coupling hole of the second coupling hole (48b) After passing through the second bolt 46 is screwed.

Meanwhile, as can be seen through an upward perspective view of the set plate 49 illustrated in FIG. 2B, a through hole 49b (see FIG. 2A) is formed at the inner center of the set plate body, and the set plate body surrounding the set plate ( 49a (see FIG. 2A) constitute the same plane, but the area in which the sixteen through holes 42a, 46a (see FIG. 2A) disposed on the same circumference of the bottom face is formed to surround the periphery thereof. It can be seen that it is formed thicker than the edge area to form a circular step. As described above, the step formed at the bottom thereof may be used as a coupling groove into which a coupler (not shown) for interconnection with another set plate (not shown) or tension plate (not shown) connected adjacently is fitted. .

Meanwhile, as shown in FIGS. 1A, 1B, 2A, and 2B, the depression 40b in the center of the head cap body 40a may be formed in a flat shape (not shown), and if necessary, hollow It may be manufactured in an open structure (not shown) of the form, all of which belong to the technical scope of the present invention is obvious.

3 is an exploded perspective view of a third embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention.

As shown in FIG. 3, the reinforcing band in which the embossed belt 50c is formed on the side of the head cap 50 is fixedly coupled to the head cap body 50a, and the center of the head cap 50 is a hollow portion ( 50b) is formed and provided at equal intervals on the same circumference on the outer circumferential surface of the head cap body 50a, and eight first coupling holes 57 of a dumbbell shape are formed so that the two coupling holes are connected to each other to form a single body. In addition, eight second coupling holes 58a of a dumbbell shape are formed between the first coupling holes 57 so that two coupling holes are connected to each other. A set plate 59 is disposed above the head cap 50, and a central through hole 59 b is formed in the body 59 a, and two kinds of through holes are formed on an upper surface of the set plate body 59 a. 52a and 56a, each of which is formed alternately on the same circumference. Meanwhile, since the set plate 59 is the same as the set plate 49 (refer to FIG. 1B) described in FIG. 1B, a detailed description thereof will be omitted.

In order to fix the end of the pre-stressed PC steel bar 31 for reinforcement to the high-strength concrete pile, the caulking treatment part 31c of the pre-stressed PC steel rod end is fitted to be fixed to one side of the coupling hole of the first coupling hole 57. In addition, the other side of the first coupling hole 547, the first bolt 52 passed through the through-hole 52a formed in the set plate body 59a on the top of the head cap body 50a to be screwed. On the other hand, in order to fix the end of the reinforcing bar 33 is reinforced to a high-strength concrete pile, the coking treatment portion 33a of the end of the reinforcing bar is fitted to be fixed to one side of the coupling hole of the second coupling hole (58a), the second coupling hole The other coupling hole (58a) of the head cap body (50a) so that the second bolt 56 passed through the through hole (56a) formed in the set plate body (59a) of the upper portion to be screwed.

4 is an exploded perspective view of a fourth embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention.

As shown in FIG. 4, the reinforcing band in which the embossed belt 50c is formed at the side of the head cap 50 is fixedly coupled to the head cap body 50a, and the center of the head cap 50 is the inner hollow part. 50b is formed and provided at equal intervals on the same circumference on the outer circumference of the head cap body 50a, and eight first coupling holes 57 of a dumbbell shape are formed so that two coupling holes are connected to each other to form an integral body. Eight dumbbell-shaped second coupling holes 58b are formed so that two coupling holes are connected to each other between the first coupling holes 57 to form a single body. A set plate 59 is disposed above the head cap 50, and a central through hole 59 b is formed in the body 59 a, and through holes 52 a and 56 a are formed on an upper surface of the set plate body 59 a. 8 are formed on the same circumference. On the other hand, the set plate 59 is the same as the set plate 49 (see Fig. 2b) described in Figure 2b, the detailed description thereof will be weak.

In order to fix the end of the pre-stressed PC steel bar 31 for reinforcement to the high-strength concrete pile, the caulking treatment part 31c of the pre-stressed PC steel rod end is fitted to be fixed to one side of the coupling hole of the first coupling hole 57. In addition, the other side of the first coupling hole 57, the first bolt 52 passed through the through-hole 52a formed in the set plate body 59a of the upper head cap body 50a to be screwed. On the other hand, in order to fix the end of the reinforcing bar 33 to be reinforced to the high-strength concrete pile, after preparing the length extension member 54 to the end of the reinforcing bar, and caulking the end, the caulking treatment portion 54a of the end of the length extension member After fitting so as to be fixed to one side of the coupling hole of the second coupling hole (58b), and bound to the end of the reinforcing bar 33 using a predetermined connecting wire (55). In addition, the hook 54b is formed at the other end of the length extension member 54 to strengthen the binding force with the concrete body after the concrete is placed, and the hook 54b is formed at the other end of the length extension member 54. To reinforce the binding force with the concrete body after the concrete is placed. The other coupling hole of the second coupling hole 58b passes through the through hole 56a formed in the set plate body 59a above the head cap body 45a. One second bolt 56 was screwed in.

On the other hand, as shown in Figures 3 and 4, the hollow portion 50b in the center of the head cap body 50a is filled, the appearance is flat (not shown), or the center of the shape (not shown) It is also possible to be manufactured in), all of them belong to the technical scope of the present invention, the upper surface and the side portion of the head cap body (50a) is a concave shape is finished in a concave shape, the head cap body is When placed vertically and closely contacted, a V-shaped chamfer is formed at the boundary thereof, and the upper and lower head caps are connected to each other by welding, whereby concrete piles can be connected vertically.

And, as shown and described through each of the above-described drawings, because the thickness of the pre-stressed PC steel rod is thicker or at least the same as the reinforcement bar in the same circumference alternately on the head cap body (40a and 50a) In the formed dumbbell-shaped first coupling holes 47 and 57 and the dumbbell-type second coupling holes 48a, 48b, 58a and 58b, the diameters of both through holes constituting the dumbbell-type first coupling holes are dumbbells. It is preferable to make the same or larger size than the two through holes constituting the second coupling hole.

In addition, the first bolts 42 and 52 and the second bolts 46 and 56 used for the purpose of increasing the fixing force because the thickness of the pre-stressed PC steel rods are thicker or at least equal to those of the reinforcing bars. In relation to the relative thickness of the through-holes 42a and 52a formed in the set plate bodies 49a and 59a so that the first bolts 42 and 52 are fitted, the set plates so that the second bolts 46 and 56 are fitted thereto. It is preferable that the diameter of the through holes 46a and 56a formed in the bodies 49a and 59a is greater than or equal to that of the through holes 46a and 56a. The first coupling hole is formed in the head cap bodies 40a and 50a by the same principle. (47, 57) is preferably made of a structure having a larger diameter or the same as the second coupling holes (48a, 48b, 58a, 58b) formed in the head cap body (40a, 50a).

By using the head cap for high-strength concrete piles of various forms according to the present invention described with reference to the above drawings, by tightening the end of the pre-stressed PC steel rod and reinforcing bar to be reinforced to manufacture a high-strength concrete pile, In addition to facilitating the production of concrete piles, it may be possible to improve the strength of the concrete piles.

Optimal embodiments of the present invention described above have been disclosed. Although specific terms have been used herein, these terms are only used for the purpose of describing the present invention in detail to those skilled in the art, but are not used to limit the scope of the present invention as defined in the utility model registration claims.

When using the head cap structure for high strength concrete piles by the pretension method according to the present invention, the tensile strength and bending resistance are improved compared to the concrete piles known in the art, There is an advantage to provide an optimized high strength concrete pile through concrete consideration of stress condition, construction ground condition, construction method and construction site condition.

The following drawings attached to this specification are illustrative of preferred embodiments of the present invention, and together with the detailed description of the invention to be described later serve to further understand the technical spirit of the present invention, the subject matter described in the drawings It should not be construed as limited to.

Figure 1a is an exploded perspective view of a first embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention, Figure 1b is a reverse perspective view of the set plate 49 of Figure 1a.

Figure 2a is an exploded perspective view of a second embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention, Figure 2b is a reverse perspective view of the set plate 49 of Figure 2a.

3 is an exploded perspective view of a third embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention.

4 is an exploded perspective view of a fourth embodiment of the head cap for high-strength concrete piles by the pretension method according to the present invention.

Claims (4)

In the head cap for high-strength concrete piles by a pretension method, A disc-shaped head cap body having a reinforcing band integrally fixed with one or more embossed belts at a side thereof; A plurality of first coupling holes provided on the same circumference on the outer circumferential surface of the disc shaped head cap body at equal intervals and formed in a dumbbell shape such that two coupling holes are connected to each other to form a single body; And It is provided between the first coupling hole, a plurality of second coupling holes formed in the shape of a dumbbell so that the two coupling holes are connected to each other to form a unit; One side coupling hole of the first coupling hole is provided as a fixing hole to which the coking processing part of the PC steel rod end portion for prestressing introduced into the high-strength concrete pile is fitted and fixed, and the other coupling hole of the first coupling hole is the head cap body. The first bolt is inserted into the fastening hole is screwed from the top to secure the The second coupling hole is provided as a fixing hole in which the caulking treatment of the end of the member is fixed to the reinforcement to be reinforced in the high-strength concrete pile is fixed, the other coupling hole of the second coupling hole to fix the head cap body Head cap for high-strength concrete piles by the pre-tension method, characterized in that the second bolt is inserted into the fastening hole is screwed to the upper part. The method of claim 1, The member for fixing the reinforcing bar is the end of the reinforcing bar itself, or the head cap for high-strength concrete piles by the pre-tension method, characterized in that the end of the length extension member connected for length extension to the reinforcing bar. The method of claim 1, The head cap for high-strength concrete piles by the pre-tension method, characterized in that the center of the upper surface of the disc-shaped head cap body has an open structure having a central through hole, or a closed structure of a flat or recessed type. The method according to any one of claims 1 to 3, The head cap for high-strength concrete piles by the pretension method is a head cap for high strength concrete piles by the pre-tension method, characterized in that used as a joint ring or a shoe.