KR100583880B1 - Method for constructing foundation work using concrete pile - Google Patents

Abstract

본 발명은 콘크리트 파일을 이용한 기초공사 구축 공법에 관한 것으로서, 더욱 상세하게는 강선들이 내장된 콘크리트 파일을 지반 내에 다수 개를 설치한 다음 지면으로부터 돌출되는 파일의 상단부를 일정한 높이로 절단할 시, 파일 상단부에 가해지는 충격으로 인해 종 방향으로 균열이 발생되는 것을 방지하고자 한다.

The present invention relates to a construction method for foundation construction using concrete piles, and more particularly, when a plurality of concrete piles with steel wires are installed in the ground and then cut the upper end of the pile projecting from the ground to a certain height, the pile The impact on the upper end is to prevent the crack in the longitudinal direction.

       To this end, the present invention completely cuts one end of the upper end of the concrete pile to a steel wire installed at the edge by using a predetermined cutting means, and then has a disc-shaped body having a predetermined diameter in the inner hole of the pile and cut at one side edge portion thereof. And a wing portion formed successively at the edge of the body and separately folded to cover the inner hole, and spaced apart at predetermined intervals so as to protrude upwardly through the edge of the cap so as to be perpendicular to the upper surface of the cap. And a plurality of reinforcing bars and a concrete injection hole through which concrete passes through the center, and at least one support plate is installed at an edge to be spaced a predetermined distance from an upper surface of the cap to support the rebars while maintaining a predetermined interval. The cap is the back of the support plate Edging over the upper surface of the upper end of the file according to the load characterized in that the insert install the pile cap assembly, which is formed so as to be supported in the file.

       According to the present invention, by completely cutting one end of the upper end of the concrete pile up to the steel wire embedded therein, it is possible to prevent cracking due to the impact applied to the upper end of the pile during cutting, as well as the crushed concrete around the upper end of the pile By reducing trace residues, you can reduce the time spent working.

Foundation work, concrete pile, steel wire, cap assembly, rebar, floor slab

Description

Constructing Foundation Work using Concrete Pile

Figure 1a is a cross-sectional view for explaining the construction method for foundation construction using a concrete pile according to the prior art.

Figure 1b is a photograph of the concrete pile and the surroundings installed by the construction method of foundation construction using a concrete pile according to the prior art.

1C-1F are representative views of prior arts 1-4.

Figure 2a to 2d is a cross-sectional view for explaining an embodiment of the foundation construction method using a concrete pile according to the present invention.

Figure 3 is a perspective view showing a cap assembly used in the construction method of foundation construction using a concrete pile according to the present embodiment.

 Description of the main parts of the drawing

100, 200: Ground 110, 210a, 210b: File

111, 211a, 211b: upper portion 120, 220: cap assembly

130: locking portion 140: steel wire

150, 250 concrete 221: rebar

222a, 222b: support plate 223: cap

223a: body 223b: wing

224: concrete inlet

       The present invention relates to a foundation construction method using a concrete pile, and more particularly, to a foundation construction method using a concrete pile that can quickly and accurately build a concrete pile on the ground.

       The foundation work is the foundation of the structure, and when building a structure such as a building, bridge, or dam on the ground, the vertical load, earthquake, wind, etc. Refers to the work of forming a workpiece to transmit a load to the ground.

       Particularly, in the case of soft ground, the foundation construction is carried out by fixing concrete piles in the ground. After installing the pile in the ground, the upper end of the pile protruding from the ground is easily removed from the ground. It is cut to a certain height and removed.

       This will be described below with reference to the drawings.

       1A is a cross-sectional view illustrating a method for constructing a foundation construction using a concrete pile according to the prior art, and FIG. 1B is a photograph of a concrete pile installed around the foundation construction method using a concrete pile according to the prior art and a photograph of the surroundings thereof.

       1A and 1B, the foundation construction method using the concrete pile according to the prior art first installs a plurality of pieces in the ground so that the concrete pile 110 is supported by the ground 100. At this time, the depth of the pile 110 is embedded depending on the state of the ground. Accordingly, one end of the pile upper end 111 is removed so that the upper end 111 of the pile 110 protruding into the ground 100 has a predetermined height from the ground, and then caps the inner hole formed in the center of each pile 110. By inserting the assembly 120, and then placing the concrete on top of the pile 110 to be integrally connected to each other based on the upper end 111 of the pile 110, to construct the floor slab.

       On the other hand, the concrete pile 110 is provided with a plurality of steel wires 140 for supporting the load therein. Thus, the upper end 111 of the pile 110 protruding into the ground 100, the operator cuts the periphery of the upper end portion 111 to the steel wire 140 by a cutting means such as a diamond blade, and then, fork-lane, etc. Grind with a crusher installed. After that, the exposed internal steel wire is cut with a hydraulic cutter so that only about 30 cm remains, and the curved steel wire is vertically set up by manpower, and a plastic cap is put on the end of the sharp steel wire for safety. After that, people have to remove the concrete residues that are stuck around the steel wires, and as shown in FIG. The prior art, such as the need to remove the concrete debris that surrounds the problem is that the process is complicated and requires a lot of manpower, cost and time.

       Furthermore, in the pile construction method for foundation work according to the prior art, the upper end of the concrete pile is crushed and removed by the crusher, and the impact also causes a fatal problem that cracks are generated at the upper end of the pile.

       In addition, as shown in FIG. 1B, not only the crushed pile portion may not be removed accurately and neatly, but also because the crushed portion is sharply formed, there are many problems such as a great threat to the safety of the worker.

       As a conventional patent document for piles or piles for basic construction, the use of steel pipe piles is described in Korean Patent No. 10-0394072, "Coupling Structure of Steel Pipe Piles and Concrete Structural Foundations, and its Steel Pipe Pile Joints (hereinafter, referred to as 'prior art 1') ) And the Korean Patent Application Publication No. 10-2002-0079082, "Construction method of the head protection structure of steel pipe pile and its structure (hereinafter referred to as" prior art 2 ")", and using a concrete pile 0480018, "Head Cover for Concrete Piles and Construction Method of Pile Foundation Structures Using the Same" (hereinafter, referred to as "Prior Art 3"), and "Rebar Narrow (hereinafter referred to as" Prior Art 4 ") of Japanese Utility Model No. 62-94128. And the like).

       The prior art 1 is a reinforcing bar (3) screwed to the bottom portion 18 as shown in Figure 1c through the horizontal portion 11 to the top and the bottom portion and the horizontal portion is coupled by a support wire 22 after The vertical part 12 is inserted into the inside of the steel pipe pile 2 and then joined, and the concrete is poured. Since each component must be fastened by screwing, the assembly is complicated and can be applied to the concrete pile not the steel pipe pile. There is a drawback to this.

       In addition, the prior art 2 is fixed in the longitudinal direction by welding or screwing a plurality of reinforcing bars (58, 59) in a circular shape on the upper surface of the head cover 57 for receiving the head of the steel pipe pile as shown in Figure 1d The structure of fixing the head cover and the steel pipe pile by welding after arranging the band reinforcing bars 60 and 61. It is not applicable to the concrete pile other than the steel pipe pile, and the upper part of the steel pipe pile is completely blocked so that concrete is not injected. This has the disadvantage of falling.

       In addition, the prior art 3 is a combination of the prior art 1 and 2 as shown in Figure 1e, the configuration is as follows. That is, a plurality of first steel wires 1120 are welded to the inner circumferential surface of the through hole 1112 formed at the center of the circular cap 1110 having a cross-section on both sides thereof, and a predetermined distance from the lower end of the first steel wire 1120. In the center of the circular metal plate 1130 to be welded with (L) is formed to be welded a plurality of second steel wires 1140, the concrete is poured after being joined to the upper outer peripheral surface of the concrete pile 1105 is combined.

       However, the prior art 3 as described above can be applied to the concrete pile, but the cross section of the cap is in the shape of the letter L to form a gap between the concrete pile and the cap to reduce the lateral bearing capacity, one circular metal plate 1130 Since it is impossible to control the depth of the concrete flowing into the pile, it is difficult to construct a more solid pile, and in particular, since the circular metal plate is not provided with a separate cutout or bent portion, it is difficult to insert into a pile having an irregular inner diameter. There is a problem.

       In particular, the prior art 3 is to combine the circular cap 1110 to be fitted to the upper outer peripheral surface of the concrete pile 1105, such a circular cap has a disadvantage that the manufacturing cost is expensive. In addition, the conventional concrete pile (1105) is produced in a manner of reinforcing the reinforcement to the steel cylindrical mold and poured concrete to rotate at a high speed, so that when stopped after high-speed rotation, the inner hole is located in the center of the concrete pile one side incision Since the circular metal plate 1130 of the prior art 3 may not be easily inserted, and a gap occurs after the insertion, the circular metal plate 1130 may flow into the hollow of the pile when the concrete is poured.

       The prior art 4 supports the transfusion body 2 that is elastically deformable under the reinforcing bar body 1 having a cylindrical shape as shown in FIG. 1F to insert the reinforcing bar body into the pile A. It is to be filled with concrete by supporting the main body with the force that is in close contact with the pile wall.

       However, the prior art 4 as described above can solve the problem that it is difficult to insert in the file having an irregular inner diameter, which is a disadvantage of the prior art 3, but only one transfusion body 2 is provided inside the file. It is impossible to control the depth of the concrete to be introduced, there is a problem that does not function to improve the bearing capacity in the longitudinal direction because the structure of the reinforced agricultural body is not mechanically robust.

       In addition, since the prior art 4 uses only one reinforcing bar 14 in the transverse direction as a means for hanging the reinforcing bar main body 1 to the upper portion of the pile (A), the main body is moved by the external force during the concrete casting It is difficult to be located in the center of the, and when a large amount of concrete is injected, the rebar 14 is bent to cause the body to be completely buried into the pile.

       Therefore, the present invention is to provide a method for constructing a foundation construction using a concrete pile that can quickly and cleanly and accurately remove one end of the pile when constructing a plurality of concrete piles in the ground.

       The present invention provides a construction method for foundation construction using concrete piles, comprising: (a) installing a plurality of concrete piles having steel wires embedded therein at predetermined intervals; (b) completely cutting a part of the upper end of the pile projecting from the ground after the step (a) using a predetermined cutting means to the steel wire at once; (c) a cap having a predetermined diameter in the inner hole of the pile and a disc shaped body having one side edge portion cut out, and a wing portion formed successively at the edge of the body and separately separated and folded, a cap blocking the inner hole; Reinforcing bars are installed at a plurality of spaced apart at predetermined intervals so as to penetrate through the edge of the cap so as to be perpendicular to the upper surface of the cap, and a plurality of reinforcing bars are formed, and a concrete inlet through which concrete passes in the center is formed, And at least one support plate installed at a predetermined distance from an upper surface to support the reinforcing bars at regular intervals, wherein the cap includes the pile as the rear edge of the support plate spans the upper surface of the upper end of the pile. Inserting a pile cap assembly formed to be supported by the pile cap assembly; And (d) pouring the concrete so that the upper ends of the piles are integrally connected to each other to form a floor slab.

       In the construction method for the foundation construction using the concrete pile according to the present invention, the step (a) is preferably to install the pile by hitting or embedding, the step (b) is one end of the upper end of the pile using a diamond blade It is preferable to cut.

       Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment for the foundation construction method using a concrete pile according to the present invention.

       2a to 2d are cross-sectional views for explaining an embodiment of a foundation construction method using a concrete pile according to the present invention, Figure 3 is a cap assembly used in the foundation construction method using a concrete pile according to the present embodiment Is a perspective view.

       Referring to FIG. 2A, first, in the present embodiment, a plurality of concrete piles 210a and 210b having steel wires (not shown) are installed to be spaced apart from the ground 200 at a predetermined distance. As a method of installing the piles 210a and 210b in the ground 200, for example, by hitting one end of the piles 210a and 210b, or by forming a perforation in the site where the piles 210a and 210b are to be installed, Install. At this time, the height of the upper end portion 211a of the first pile 210a protruding onto the ground 200 and the height of the upper end portion 211b of the second pile 210b are positioned differently.

       Thus, as shown in FIG. 2B, the upper end portions 211a and 211b of the piles 210a and 210b are cut using a predetermined cutting means to have a constant height from the ground, and then the cut portions are removed. It is preferable to use a diamond blade as the cutting means, and it is preferable to cut completely to the steel wire embedded in the piles 210a and 210b at once. Thus, one end of the upper end portions 211a, 211b to be cut can be cut accurately and quickly. In addition, when the concrete pile (210a, 210b) is cut, concrete debris hardly occurs.

       Next, as shown in FIG. 2C, the cap assembly 220 is inserted into the inner hole of the pile 210a or 210b. In this case, the cap assembly 220 is fixed to the cap and the cap that can block the inner hole of the pile (210a, 210b) so that the concrete is not poured to the bottom surface of the pile (210a, 210b) when the concrete for the floor slab is formed It is preferable that a plurality of rebars 221 protruding upward from the upper end of the pile are provided. For example, it is preferable to use a cap assembly 220 having a structure as shown in FIG. Referring to FIG. 3, the cap assembly 220 includes a cap 223 installed to block an inner hole of the concrete pile, and a first support plate 222a and a second support plate 222b spaced apart from the cap 223 by a predetermined distance. And a plurality of reinforcing bars 221 installed in the cap 223 and protruding from the upper end of the concrete pile after passing through the first support 222a plate and the second support plate 222b. Accordingly, the reinforcing bars 221 installed in the cap 225 increase the coupling force between the piles 210a and 210b and the floor slab to be constructed later, instead of the steel wires embedded in the pile.

       In FIG. 3, the cap 223 includes a disc-shaped body 223a having a predetermined diameter, and a wing portion 223b formed successively at the edges of the body 223a and separately folded. The body 223a is formed in a circular shape in which one side edge is cut, but may also be formed in a circular shape that is not cut. This is a hollow circumferential pile mainly made of concrete piles 210a and 210b using centrifugal force. For example, a high density is achieved by reinforcing reinforcing bars to support the load of piles in a forced cylindrical mold and pouring concrete to rotate at high speed. It is formed of a cylindrical concrete pile having a high strength, because when suddenly stopped after the high-speed rotation, the inner hole located in the center of the concrete pile may be formed in a circular shape with one side cut away.

       In addition, in FIG. 3, the support plates 222a and 222b are formed with a circular concrete inlet 224 through which concrete passes, and the reinforcing bars 221 installed in the cap 223 at an edge portion near the concrete inlet 224. Are penetrated and fixed. Thus, the reinforcing bars 221 are supported to maintain a predetermined interval by the support plates (222a, 222b). Here, the support plates 222a and 222b and the cap 223 may be made of any one material selected from the group consisting of iron, aluminum, or plastic.

       In addition, a plurality of reinforcing bars 221 are installed in the cap 223, and in detail, are installed at regular intervals so as to be perpendicular to the upper surface of the cap 223 at the edge of the cap 223. As described above, the reinforcing bars 221 installed in the cap 223 pass through the second support plate 222b and the first support plate 222a positioned in the upper portion of the cap 223, and then piles 210a protruding into the ground 200. It is positioned to protrude above the upper ends 211a and 211b of 210b). Here, when the reinforcing bars 221 are formed to narrow the inner hole of the pile (210a, 210b) from the ground into the ground 200, the gap between the reinforcing bars 221 is the cap 223 in the first support plate (222a) It can be installed to be narrower.

       As shown in FIG. 2C, the cap assembly 220 according to the present exemplary embodiment has the first supporting plate 222a on the upper surface of the upper ends 211a and 211b of the piles 210a and 210b installed in the ground 200. Since the first support plate 222a and the cap 223 are connected by a plurality of rebars 221, the first support plate 222a and the cap 223 may be more firmly installed in the inner holes of the piles 210a and 210b. Thus, even if concrete for forming the floor slab is poured onto the pile (210a, 210b), the cap assembly 220 can be kept fixed to the pile hole without being damaged.

       In addition, the cap assembly 220 according to the present embodiment is provided with a plurality of reinforcing bars, so that the steel wires embedded in the upper ends 211a and 211b of the concrete piles 210a and 210b may not be exposed. Thus, when removing one end of the upper end of the pile projecting to the upper portion of the ground 200 can be completely removed up to the steel wire at a time by using a predetermined cutting means, it does not have to hit the upper end of the pile (211a, 211b) There is no crack caused by.

       Finally, as shown in Fig. 2d, the concrete 250 is poured over the piles 210a and 210b. At this time, the concrete 250 is poured only to the bottom of the cap assembly 220 installed in the inner hole of the pile (210a, 210b), and then the concrete 250 is poured into the ground. Thus, the bottom slab is formed in which the upper end portions 211a and 211b of the piles 210a and 210b are integrally connected to each other by the concrete 250.

       On the other hand, the foundation construction method using the concrete pile according to the present invention is not limited to this embodiment, many modifications are possible by those skilled in the art within the technical idea of the present invention.

       As described above, the basic construction construction method using the concrete pile according to the present invention completely cuts one end of the upper end of the concrete pile at a time to a steel wire installed at the edge by using a predetermined cutting means, and then a predetermined diameter in the hole of the pile It has a disc-shaped body with one side edge portion cut out, and a wing portion formed in succession to the edge of the body and folded separately, the cap blocking the inner hole, and penetrates the edge of the cap to be perpendicular to the upper surface of the cap And a plurality of reinforcing bars are installed at a plurality of intervals so as to protrude to the upper side of the upper end of the pile, and a concrete injection hole through which concrete passes is formed at the center, and the reinforcing bars are installed at a predetermined distance apart from the upper surface of the cap. Keeps penetrating It includes at least one support plate is, and the cap is characterized in that the insert install the pile cap assembly, which is formed so as to be supported in the file according to the load over the rear edge of the support plate on the upper surface of the upper end of the file.

       Therefore, according to the present invention, by cutting the one end of the upper end of the concrete pile up to the steel wire embedded at a time, it is possible to prevent the occurrence of cracks due to the impact applied to the upper end of the pile. In addition, the reduction of shredded concrete residue around the pile top can greatly reduce the time and cost of working.

Claims (3)

(a) installing a plurality of concrete piles in which the steel wires are embedded in the ground at predetermined intervals; (b) completely cutting one end of the upper end portion of the pile protruding from the ground after the step (a) by using a predetermined cutting means at once to the steel wire; (c) a cap having a predetermined diameter in the inner hole of the pile and a disc shaped body having one side edge portion cut out, and a wing portion formed successively at the edge of the body and separately separated and folded, a cap blocking the inner hole; Reinforcing bars are installed at a plurality of spaced apart at predetermined intervals so as to penetrate through the edge of the cap so as to be perpendicular to the upper surface of the cap, and a plurality of reinforcing bars are formed, and a concrete inlet through which concrete passes in the center is formed, And at least one support plate installed at a predetermined distance from an upper surface to support the reinforcing bars at regular intervals, wherein the cap is formed on the pile as the rear edge of the support plate is spread over the upper surface of the upper end of the pile. Inserting a pile cap assembly formed to be supported; And (d) the foundation construction method using a concrete pile, comprising the step of forming a floor slab by pouring concrete so that the upper ends of the piles are integrally connected to each other. According to claim 1, wherein the step (a) is a foundation construction method using a concrete pile, characterized in that to install the pile by hitting or buried. According to claim 1, wherein the step (b) is a foundation construction method using a concrete pile, characterized in that to remove one end of the upper end of the pile using a diamond blade.

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