KR20050031506A - In place assembling top blocks and their reinforced complex foundation method - Google Patents

Abstract

A cast-in-place and assembling top type pile and a hybrid foundation method thereby are provided to improve stability of a structure, and to construct the pile easily by filling the top type pile with filler on the spot. A cast-in-place and assembling top type pile(P) is composed of a top part(10) having a wide upper part, a narrow lower part and an empty hollow, a pile body(20) extended in a lower part of the top part and composed of an empty hollow, and a pile end part(30) reducing a section from a lower part of the pile body. The pile body is combined and inserted to the lower part of the top part, and the pile end part is thread-connected to the lower part of the pile body. The top type pile is integrally assembled on the spot under construction work, and made of polyethylene, polystyrene, ABS(Acrylonitrile Butadiene Styrene Copolymer) resin, EPS(Expandable Polystyrene), a galvanized iron sheet, aluminum, an iron plate, an iron core, a metal, nonmetal or wood.

Description

In-place assembling top blocks and their reinforced complex foundation method

The present invention relates to a cast-in-place pile-type pile and a composite foundation method using the same. In particular, the pile-type pile is integrated or separated and field-assembled to be placed and assembled in the field, and the pile-type pile is made of synthetic resin, It is possible to place and assemble according to the engineering characteristics of the filling material in the top pile using the soft ground reinforcement foundation method using hollow products such as steel, wood, etc., and double-sided inside the pocket type geotextile in the filling stone layer for basic reinforcement. The present invention relates to a field casting and prefabricated spinning top pile and a composite foundation method using the same, by additionally disposing drainage with horizontal drainage for drainage.

In general, the foundation method using the factory-made concrete top pile pile is a method of laying a top pile concrete pile on the foundation ground surface of the structure. It is widely used as a part of the foundation in the soft ground. By dispersing and delivering to the ground smoothly, the effect similar to the case of improving the foundation part and the surrounding ground is obtained.

This method installs square reinforcement bars that also secure the position of piles on the foundation surface, lays out the top-side concrete piles side by side, then binds the reinforcing rods to the reinforcing bar that is buried in order to fasten piles. The lower space of the pile is filled with crushed stone and compacted.

On the other hand, the concrete top pile used for the soft ground has a circular top surface and at the same time the top of the top and the pile main body and the pile main body is extended in the center of the top of the top and the pile body It is a structure consisting of a pile tip portion extending from the lower portion of the portion having a conical bottom.

The conventional factory-made concrete spinning top pile having the structure as described above has a very high ground due to the conical top portion and the pile main body forming an inclined surface of 45 ° to disperse the loading load acting from the top to the bottom in all directions of the ground. It has a reinforcing effect.

However, the conventional factory-made concrete spinning top pile and the soft ground reinforcement method using the same have the following problems.

First, the conventional factory-made concrete spinning top pile has a significant burden on the site (production and yard) and plant facilities due to the manufacture of the top pile pile shape of various forms and specifications.

Second, in the case of the conventional factory-produced concrete top-type pile, the weight is 60-80Kg, so it is essential to carry and install by skilled adult technicians and cranes, and the transportation and field installation costs are relatively high. have.

Third, the conventional factory-made concrete spinning top pile takes a lot of time to level the top pile pile at the time of installation and requires skilled technicians and technicians. There are disadvantages to losing.

Fourth, the conventional factory-made concrete spinning top pile is not possible to manufacture and install the top pile pile part (top section, pile section), and various materials (bearing concrete, Mortar, crushed stone and grout material, sand and grout material, general earth and grout material, EPS material) is a disadvantage that can not be selected.

Fifth, the conventional factory-produced concrete spinning top pile has a disadvantage in that its use range is limited because it is used under permanent foundation conditions.

Sixth, the conventional factory-made concrete spinning top pile is used for demoulding or curing, even if it is made of concrete reinforced with reinforcing bars and rebars due to the unique shape in which the small piling portion protrudes downward from the wide top of the top pile. When carrying and mounting, or when installing on-site or when installing on-site, a large stress tends to be applied to the base of the connection part of the top part and the pile part, and the pile part is broken when the bottom part of the connection part is cracked or severe.

Seventh, conventional factory-made concrete spinning top piles cannot be identified between cracks and cuttings between tops of pile tops and piles after installation on the ground. There is a disadvantage that can be magnified by damage.

Eighth, the conventional factory-produced concrete spinning top pile has a disadvantage in that it is difficult to extend the length of the top pile pile for additional reinforcement of the ground under the foundation ground or for reinforcing the eccentric foundation and the stress concentration base.

Ninth, the conventional factory-produced concrete spinning top pile has a disadvantage that it is difficult to install the base portion reinforcement and grout injection device through the top portion or the pile portion.

Tenth, the conventional factory-produced concrete spinning top pile has a drawback that only the connecting reinforcing bar for the connection between the concrete top pile pile.

Eleventh, the conventional factory-made concrete spinning top pile has a problem that the use of crushed stone as a filler around the top pile is limited to the basic stress dispersion effect, and is not used in parallel with buoyancy resistance facilities.

On the other hand, the definition of soft ground used in the present invention means "all grounds lacking design support capacity, even if the ground for which design support power is secured, the ground to restrain the differential settlement, total settlement and lateral flow as the design reference value. And the term including the rock layer. "

Accordingly, the present invention has been made to solve the above problems, it is possible to reinforce the ground of the lower base and the length of the pile body portion by using the top-shaped pile, the engineering of the filling material to fill the inside of the top pile It is possible to pour and assemble in the field according to the characteristics of the site, and install the drainage material inside the pocket-type geotextiles in the filling reinforcement layer for foundation reinforcement so that it can also be used as a permanent drainage facility. And the purpose is to provide a composite foundation method using the same.

On-site casting and prefabricated spinning top pile according to the present invention for achieving the above object is a top portion formed of hollow hollow and at the same time hollow hollow; A pile body portion extending into a lower portion of the top portion and formed into a hollow hollow at the same time; It is characterized in that the top-shaped pile consisting of the pile end portion is reduced by a certain angle from the lower end of the pile body portion formed integrally.

In addition, in order to achieve the above object in accordance with the present invention the site-based composite method using the prefabricated pile-type pile is excavating the ground to a predetermined depth to form a constant space; Installing geotextiles on the bottom surface of the space part; Installing basic reinforcing bars on the geotextiles; Installing a plurality of top-shaped piles on the installed base bar; Connecting between the top piles with a connecting part reinforcing steel; Filling a filler in the top pile; Installing a lid on the filler; Filling a crushed stone in the voids between the top piles; Pouring the discarded concrete onto the lid; Characterized in that the step of installing the floor slab on the discarded concrete sequentially.

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

1 is a perspective view 1 showing an integral type of a top-shaped pile according to the present invention, FIG. 2 is a cross-sectional view 1 showing an integral type of a top-shaped pile according to the present invention, and FIG. 3 is an integral type of a top-shaped pile according to the present invention. 4 is a cross-sectional view illustrating an integrated type of the spinning top pile according to the present invention, and FIG. 5 is a cross-sectional view illustrating a first integrated embodiment of the spinning top pile according to the present invention. Is a cross-sectional view showing a second embodiment of the top pile pile according to the present invention, Figure 7 is a cross-sectional view showing a third embodiment of the top pile pile according to the present invention, Figure 8 is a top according to the present invention Fig. 9 is a cross-sectional view 1 showing an open type of a top pile according to the present invention, and Fig. 10 is a perspective view 2 showing an open type of a top pile according to the present invention. 11 is a top file of the present invention Fig. 12 is a cross-sectional view showing an open type first embodiment of the spinning top pile according to the present invention, and Fig. 13 is a cross-sectional view showing an opening type second embodiment of a spinning top pile according to the present invention. 14 is a cross-sectional view showing a third open type of the spinning top pile according to the present invention, FIG. 15 is a cross-sectional view showing a fourth open type working of the spinning top pile according to the present invention, and FIG. Fig. 17 is a sectional view showing the fifth open type of the spinning top file according to the present invention, and Fig. 17 is a cross sectional view showing the sixth open type of the spinning top file according to the present invention.

As shown in these drawings, the cast-in-place and prefabricated top pile according to the present invention includes a top portion 10 formed of a hollow hollow at the same time and formed of a hollow hollow; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; The top-shaped pile (P) consisting of the pile tip portion 30 is reduced by a predetermined angle from the lower end of the pile body portion 20 is formed integrally.

That is, the cast-in-place pile-type pile P according to the present invention is characterized in that the top portion 10, the pile body portion 20, and the pile tip portion 30 are integrally formed.

Here, the top pile (P) is a polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), expanded polystyrene (EPS: Expandable Poly-Styrene) It is composed of at least one of tin, aluminum, iron plate, iron wire, metals, non-metals and woods.

In addition, the top-shaped pile (P) has a projection 60 formed to protrude outward at a predetermined position on the inside, the outer surface, the spiral portion 62 is formed by winding spirally, and the step portion formed in a step shape to form a layer. It is comprised in the cross-sectional shape of at least any one of 64.

In addition, the top-shaped pile (P) is filled with a filling material therein, the filling material is configured to be filled with at least one of a weight material, recycled material, natural materials and lightweight materials.

Here, the weight material is composed of at least one of ready-mixed concrete, mortar, crushed grout material and miscible material.

In addition, the recycled material is composed of at least one of slag, reusable aggregate and sawdust grout material.

In addition, the natural material is composed of at least one of soil, gravel, sand and soil cement.

In addition, the lightweight material is composed of at least one of expanded polystyrene (EPS: Expandable Poly-Styrene) block and expanded polystyrene (EPS: Expandable Poly-Styrene) lightweight aggregate.

On the other hand, the top portion 10 is formed in at least one of the cross-sectional shape of a circle, triangle, square, pentagon, hexagon, octagon, rectangle, decagon, decagon, pentagon and octagon.

In addition, the top portion 10 has a structure in which a lid having the same cross-sectional shape as that of the top portion 10 is provided so that the inside and the outside of the top portion 10 are blocked.

Here, the lid is made of at least one of a material of synthetic resin, iron plate, wood.

On the other hand, the top pile (P) is provided with reinforcing hardware (86, 88, 89) in order to reinforce the strength in a predetermined position of the inner, outer surface.

That is, the reinforcing steel (86, 88, 89) is formed in a cross-sectional shape corresponding to at least one of the top portion 10, the pile body portion 20 and the pile tip portion 30, respectively, the top portion ( The top section reinforcement 86 is made of the same cross-sectional shape as that of 10), and the pile body reinforcement 88 and the pile end reinforcement are formed in the same shape as the pile main body 20 and the pile tip 30. 89).

In addition, the top-shaped pile (P) is formed with a plurality of through-holes 66 to penetrate the inside and outside at a predetermined position, the through-hole 66 is a top portion 10, pile body portion 20 and pile tip portion It is formed in at least one or more of 30.

Hereinafter, a description will be given of the composite foundation method using the in-situ and prefabricated spinning top pile according to the present invention having the configuration as described above.

Composite foundation method using the site-pouring and prefabricated spinning top pile according to the present invention comprises the steps of excavating the ground to a predetermined depth to form a constant space; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Installing a plurality of top-shaped piles (P) on the installed base bar (FS); Connecting the top-shaped piles (P) with a connection part reinforcing steel (90); Filling a filler in the top pile (P); Installing a lid on the filler; Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Characterized in that the step of installing the floor slab (BS) on the discarded concrete (W) sequentially.

That is, the composite foundation method using on-site casting and prefabricated spinning top pile according to the present invention is a composite using a top pile pile (P) for reinforcing soft ground and civil fiber (D) which is a permanent drainage facility installed on the floor surface Based on the technical features of the present invention.

Here, the geotextile (D) is used to install a horizontal drainage for double-sided drainage therein.

On the other hand, the step of connecting the top-shaped pile (P) with the connecting portion reinforcing steel 90 is installed in close contact between the top-shaped pile (P), the top portion 10 of the top-shaped pile (P) Cover the connection part reinforcing steel 90 is formed in the through hole 92, and connects the through-hole 92 by inserting the fastening member.

Here, the connecting portion reinforcing steel 90 is formed in a channel shape with a three-sided block as a whole, the through-holes 92 are formed on both sides, respectively, the fastening member inserted between the through-holes 92 are bolts 94 and reinforcing bars Fasten to at least one of the 96 and the cable tie 98.

The field casting and prefabricated spinning top pile and composite foundation method using the same according to the present invention composed of the above-described configuration and construction are based on the box culvert, the foundation of the strut structure of the steel tower and the advertising tower, the foundation of the retaining wall, the roadbed and the roadbed. Foundation, manhole foundations of water and sewerage and pipelines, foundations of various waterway structures, bridges and bridge foundations of bridges, foundations of roads and embankments, foundations of landfills and environmental structures, foundations of construction roads (temporary roads), protection work on shores of shores ( Blocks for breaking waves, river scour prevention foundations, coastal erosion prevention slope protectors), panic runway foundations, vibrating machine foundations, and foundations for civil engineering structures, such as dustproofing and foundations for precision machinery.

In addition, the field casting and the prefabricated pile-type pile and the composite foundation method using the same according to the present invention are intended to suppress the differential settlement, the total settlement and the lateral flow as much as possible, even if the load of the structure is less than the allowable bearing capacity of the ground. Even when the floor load is more than the allowable bearing capacity of the ground, it has the effect of achieving the simplicity of construction, the shortening of air, the economical efficiency, the engineering safety of the method, the environmental friendliness, and the convenience of maintenance.

In addition, on-site casting and prefabricated pile-type pile and composite foundation method using the same are independent and front foundations of factories and plants, various large buildings (row houses, warehouses, large and large buildings, hospitals, hotels, etc.). , Tank foundations of septic tanks and reservoirs, apartments and officetels, independent and frontal foundations of residential complexes, foundations of single-family homes, foundations of reclaimed ground (temporary structures, warehouses), stress concentration reinforcement foundations, eccentric reinforcement foundations for high- and low-level boundaries. There is a working effect widely used in the foundation of building structures.

In addition, in-site casting and prefabricated top-type piles and composite foundation method using the same according to the present invention are simple in construction, shortening of air, and economical efficiency in various application basic fields (plant, nuclear power plant, environmental field, etc.) that require improvement of basic ground. It can also be widely used for engineering safety, environmental friendliness and maintenance convenience of construction methods.

Therefore, the field-pouring and prefabricated spinning top pile according to the present invention is made by separating or integrally forming the top 10 and the pile main body 20 and the pile tip 30 of the top-shaped pile for on-site casting and assembly ( In case of standard 500mm, the weight is about 2kg per piece) It is easy to transport, install and assemble on site, and considering the variables such as foundation ground, groundwater, load condition, type of foundation structure, construction and permanent condition, It is possible to achieve the simplicity of on-site installation, shortening of air, inexpensive economy, reliability of soft ground reinforcement (safety), environmental friendliness, convenience of maintenance, and engineering excellence.

In particular, it is possible to adjust the length of the pile body portion 20 to maximize the ground reinforcement of the foundation base, the site can be placed or assembled according to the engineering characteristics of the filling material, double-sided drainage inside the geotextile (D) There is an effect that can be used as a permanent drainage by placing additional drainage installed horizontal drainage.

Hereinafter, the present invention will be described in more detail with reference to various embodiments.

Example 1

Figure 18 is an exploded perspective view 1 showing a detachable type of a spinning top file according to the present invention, Figure 19 is an exploded cross-sectional view showing a detachable type of a spinning top file according to the present invention, Figure 20 is a spinning top pile according to the present invention. 2 is an exploded perspective view illustrating a detachable type of a top pile according to the present invention, and FIG. 21 is a cross-sectional view illustrating a detachable type of a top pile according to the present invention. 23 is an exploded cross-sectional view showing a second type of detachable pile according to the present invention, and FIG. 24 is an exploded cross-sectional view showing a third type of detachable pile according to the present invention.

As shown in these drawings, the cast-in-place and prefabricated top pile according to the present invention includes a top portion 10 formed of a hollow hollow at the same time and formed of a hollow hollow; A pile main body portion 20 which is inserted into and coupled to a lower portion of the inner surface of the top portion 10 and has a predetermined length and is formed of a hollow hollow; It is characterized in that the top-shaped pile (P) consisting of the pile front end portion 30 is screwed to the lower end of the pile body portion 20 at the same time the cross-section is reduced by a predetermined angle from the pile body portion 20 is integrally formed. do.

That is, the cast-in-place pile-type pile P according to the present invention is characterized in that the top portion 10, the pile body portion 20, and the pile tip portion 30 are configured to be separated.

Here, the top pile (P) is a polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), expanded polystyrene (EPS: Expandable Poly-Styrene) y-Styrene), tin, aluminum, iron plate, iron wire, and wood.

In addition, the top-shaped pile (P) is at least one of the projections (60) protruding outward at a predetermined position on the inner surface, the spiral portion (62) wound in a spiral, and the step portion (64) formed in a step shape. It consists of either cross-sectional shape.

The top pile P has a protrusion 60 protruding outward at a predetermined position on an outer surface thereof, a spiral portion 62 wound in a spiral, and a stepped portion 64 having a stepped shape. At least one of the cross-sectional shape.

On the other hand, the top pile (P) is filled with a filling material therein, the filling material is configured to be filled with at least one of the weight material, recycled material, natural materials and lightweight materials.

Here, the weight material is composed of at least one of ready-mixed concrete, mortar, crushed grout material and miscible material.

In addition, the recycled material is composed of at least one of slag, reusable aggregate and sawdust grout material.

In addition, the natural material is composed of at least one of soil, gravel, sand and soil cement.

In addition, the lightweight material is made of at least one of expanded polystyrene (EPS: Expandable Poly-Styrene) block, expanded polystyrene (EPS: Expandable Poly-Styrene) lightweight aggregate.

Here, the expanded polystyrene (EPS: Expandable Poly-Styrene) is a PS polymer of 92 ~ 98 wt%, harmless foaming agents such as pentane 3 ~ 8 wt%, other flame retardants and 0.3 made of additives necessary for molding It is in the form of a ball of ~ 2.5mm.

Here, the expanded polystyrene block is a product in which the bead of the expanded polystyrene is blocked.

Here, since the unit volume weight of the expanded polystyrene is about 1/100 of the soil, when the expanded polystyrene block is applied as a fill material on the soft ground, problems such as settlement and lack of bearing capacity of the soft ground are greatly reduced by reducing the load. I can solve it.

In addition, the compressive strength of the expanded polystyrene block is generally applicable to the fill material because the allowable compressive strength within the elastic range of about 0.3 ~ 1.4㎏ / ㎠.

In addition, unlike the soil, the expanded polystyrene also has a characteristic that a clear shear failure does not occur even in the firing region.

On the other hand, the top portion 10 is formed in at least one of the cross-sectional shape of a circle, triangle, square, pentagon, hexagon, octagon, rectangle, decagon, decagon, pentagon and octagon.

In addition, the top portion 10 has a structure in which a lid having the same cross-sectional shape as that of the top portion 10 is provided so that the inside and the outside of the top portion 10 are blocked.

Here, the lid is made of at least one of a material of synthetic resin, iron plate and wood.

On the other hand, the top pile (P) is provided with a reinforcing hardware (86, 88, 89) for reinforcing the strength at a predetermined position of the inner, outer surface, the reinforcing steel (86, 88, 89) It is formed in a cross-sectional shape corresponding to at least one of the top portion 10, the pile body portion 20 and the pile tip portion 30, respectively.

Particularly, in the separation type of the spinning top pile according to the present invention, the pile main body 20 has an injection tube 70 installed therein, and the injection tube 70 has a hollow hollow shape and a plurality of injections. The ball 72 is formed.

In addition, the top-shaped pile (P) is formed with a plurality of through-holes 66 to penetrate the inside and outside at a predetermined position, the through-hole 66 is a top portion 10, pile body portion 20 and pile tip portion It is a structure formed in at least one part of (30).

Hereinafter, a description will be given of the composite foundation method using the in-site casting and prefabricated spinning top pile according to the present invention having the configuration as described above.

Composite foundation method using the site-pouring and prefabricated spinning top pile according to the present invention comprises the steps of excavating the ground to a predetermined depth to form a constant space; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Assembling a plurality of top-shaped piles (P) integrally; Installing a plurality of top-shaped piles (P) on the installed base bar (FS); Connecting between the top piles (P) with a connection part reinforcing steel (90); Filling a filler in the top pile (P); Installing a lid on the filler; Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Characterized in that the step of installing the floor slab (BS) on the discarded concrete (W) sequentially.

Here, since each of the above steps is a matter mentioned in the above-mentioned integral type of the top file, a description of further overlapping matters will be omitted.

On the other hand, the step of assembling a plurality of top-shaped pile (P) integrally as the top 10, the pile main body 20 and the pile divided by a member divided separately into a top portion 30, respectively To complete (P), if necessary, the finished product assembled at the factory is transported to the site, or installed in the field, it will be understood that it can be installed.

In addition, the top-shaped pile is a top-shaped pile (P) by using the top-shaped pile (P) consisting of the top portion 10, the pile body portion 20 and the pile tip portion 30 is separated structure. When using, the individual members are lighter, and the work efficiency is further improved.

On the other hand, the length of the pile body portion 20 should be a constant length corresponding to the soil conditions, but when the top-shaped pile (P) is adopted as a separate structure, if the pile body portion 20 is connected in multiple stages , Can easily adjust the length of the pile body 20.

Example 2

25 is an exemplary view showing an integrated EPS block according to the present invention, FIG. 26 is a perspective view 1 showing an integrated EPS block according to the present invention, and FIG. 27 is a sectional view 1 showing an integrated EPS block according to the present invention. 28 is a perspective view 2 showing an integrated EPS block according to the present invention, FIG. 29 is a sectional view 2 showing an integrated EPS block according to the present invention, and FIG. 30 is an exploded perspective view 1 showing the EPS block of FIG. 31 is an exploded cross-sectional view 1 of the EPS block of FIG. 27, FIG. 32 is an exploded perspective view 2 of the EPS block of FIG. 28, and FIG. 33 is an exploded cross-sectional view 2 of the EPS block of FIG. 28. 34 is an exploded perspective view of the pile part of FIG. 26, FIG. 35 is a perspective view illustrating the top portion of the integrated EPS block according to the present invention, and FIG. 36 is a pile body protecting portion of the integrated EPS block according to the present invention. Is a cross-sectional view, Figure 37 is in accordance with the present invention Fig. 38 is a perspective view showing the connection reinforcing steel of the top-shaped pile of Fig. 37, Fig. 39 is a perspective view showing the cable tie of the top-shaped pile of Fig. 37, Fig. 40 37 is an exemplary view illustrating a state in which the connecting portion of the top pile file is bolted together, and FIG. 41 is an exemplary view illustrating a state in which the connecting portion of the top pile file of FIG. 37 is connected by reinforcing bars, and FIG. Fig. 1 is an illustration showing a state in which the connecting portion of the top-shaped pile is connected with a cable tie.

As shown in these drawings, the cast-in-place and prefabricated top pile according to the present invention includes a top portion 10 formed of a hollow hollow at the same time and formed of a hollow hollow; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; In the top-shaped pile (P) consisting of a pile front end portion 30 is reduced in cross section at a predetermined angle from the lower end of the pile body portion 20,

An EPS block which is filled at a predetermined position in the top pile P and has a through hole at the center thereof; The reinforcing bar inserted through the EPS block is integrally formed.

In other words, the cast-in-place pile-type pile (P) according to the present invention is that the EPS block is installed in the integral top-type pile (P) consisting of the top portion 10, the pile body portion 20 and the pile tip portion (30). It is a feature of the technical idea of the present invention.

Here, the top pile (P) is made of polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), EPS (expandable polystyrene: Expandable Poly- Styrene), tin, aluminum, iron plate, iron wire, metals, non-metals and wood.

In addition, the top portion 10 is formed in at least one of the cross-sectional shape of the circle, triangle, rectangle, pentagon, hexagon, octagon, rectangle, decagon, decagon, pentagon and octagon.

Here, the top portion 10 is provided with a lid having the same cross-sectional shape as the cross-sectional shape of the top portion 10 at its upper end, and the lid is made of at least one of synthetic resin, iron plate, and wood.

On the other hand, the top pile (P) is provided with a reinforcing hardware (86, 88, 89) to reinforce the strength at a predetermined position on the outer surface, the reinforcing hardware (86, 88, 89) is a top portion ( 10) is formed in a cross-sectional shape corresponding to at least one of the pile body portion 20 and the pile tip portion 30, respectively.

Hereinafter, a description will be given of a composite foundation method using a top file containing a built-in integrated EPS block according to the present invention having the configuration as described above.

According to the present invention, there is provided a composite foundation method using an enclosed pile file having an integrated EPS block, the method comprising: excavating a ground to a predetermined depth to form a constant space portion; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Installing a plurality of top-shaped piles (P) on the installed base bar (FS); Connecting between the top piles (P) with a connection part reinforcing steel (90); Installing a lid on the top pile (P); Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Characterized in that the step of installing the floor slab (BS) on the discarded concrete (W) sequentially.

Here, the reinforcing fiber (D) is installed in the horizontal drainage for double-sided drainage.

In addition, the step of connecting the top-shaped pile (P) with a connecting portion reinforcing steel 90 is installed by continuously contact between the top-shaped pile (P), the top portion 10 of the top-shaped pile (P) Cover the connection part reinforcing steel 90 is formed in the through hole 92, the connection between the through holes 92 by inserting the fastening member.

At this time, the connecting portion reinforcement 90 is made of a channel shape of the three surfaces are clogged as a whole, the through-holes 92 are formed on each side.

In addition, the fastening member is fastened to at least one of the bolt 94, the reinforcement 96 and the cable tie (98).

Example 3

30 to 42, the cast-in-place and prefabricated spinning top pile according to the present invention includes a top portion 10 formed of hollow hollow at the same time, and formed of hollow hollow; A pile main body portion 20 which is inserted into and coupled to a lower portion of the inner surface of the top portion 10 and has a predetermined length and is formed of a hollow hollow; In the top-shaped pile (P) consisting of a pile front end portion 30 is screwed to the lower end of the pile body portion 20 and reduced in cross section at a predetermined angle from the pile body portion 20, the top-shaped pile ( An EPS block filled with a predetermined position in P) and having through-holes in the middle thereof; It is composed of the reinforcing bar inserted through the EPS block, characterized in that the assembly is formed in the field.

That is, the site-pouring and prefabricated spinning top pile P according to the present invention is that the EPS block is installed in the split top spinning pile P composed of the top 10 and the pile main body 20 and the pile tip 30. It is a feature of the technical idea of the present invention.

Here, the top pile (P) is made of polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), EPS (expandable polystyrene: Expandable Poly- Styrene), tin, aluminum, iron plate, iron wire, metals, non-metals and wood.

In addition, the top portion 10 is formed in at least one of the cross-sectional shape of the circle, triangle, rectangle, pentagon, hexagon, octagon, rectangle, decagon, decagon, pentagon and octagon.

And, the top portion 10 is provided with a lid of the same cross-sectional shape as the cross-sectional shape of the top portion 10 in the upper end, the lid is made of at least one of synthetic resin, iron plate, wood.

In addition, the top pile (P) is provided with a reinforcing hardware (86, 88, 89) to reinforce the strength at a predetermined position on the outer surface, the reinforcing steel (86, 88, 89) is a top portion ( 10) is formed in a cross-sectional shape corresponding to at least one of the pile body portion 20 and the pile tip portion 30, respectively.

Hereinafter, a description will be given of a composite foundation method using a spinning top pile with a separate EPS block according to the present invention having the configuration as described above.

The composite foundation method using a topped pile with a built-in separate EPS block includes excavating the ground to a predetermined depth to form a predetermined space portion; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Assembling and installing a plurality of top-shaped piles (P) integrally on the installed base reinforcing bars (FS); Connecting between the top piles (P) with a connection part reinforcing steel (90); Installing a lid on the top pile (P); Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Characterized in that the step of installing the floor slab (BS) on the discarded concrete (W) sequentially.

That is, the composite foundation method using the field-assembled separated EPS top pile according to the present invention is similar to the separate top pile pile composite base method as described above, and the EPS block is embedded only in the top portion and the pile body. It is characterized by the method of assembling and using in the field.

Here, the geotextile (D) is installed in the horizontal drainage for double-sided drainage.

On the other hand, the step of connecting the top-shaped pile (P) with the connecting portion reinforcing steel 90 is installed in close contact between the top-shaped pile (P), the top portion 10 of the top-shaped pile (P) Cover the connection part reinforcing steel 90 is formed in the through hole 92, the connection between the through holes 92 by inserting the fastening member.

In addition, the connecting portion reinforcement 90 is made of a channel shape of the three surfaces are clogged as a whole, the through-holes 92 are formed on each side.

The fastening member is fastened to at least one of the bolt 94, the rebar 96, and the cable tie 98.

That is, the technical significance of the assembly of the top-type pile embedded with the EPS as described above in the field used.

On the other hand, since the above-mentioned steps are mentioned in the integrated and detachable type of the top-type pile described above, further description of the duplicated matters will be omitted.

Therefore, the field-casting and prefabricated top-type pile and the composite foundation method using the same according to the present invention composed of the above-described configuration and construction are based on the basic engineering characteristics of the field-assembled EPS (Expandable Poly-Styrene) block. There is an effect that can be selected and applied to the site.

As described above, the field casting and prefabricated spinning top pile and the composite foundation method using the same according to the present invention have the following effects.

First, in-site casting and prefabricated spinning top pile and composite foundation method using the same are manufactured only at the factory for the appearance of top-shaped piles of various shapes and specifications in the factory, and the construction of the top pile pile in the field as a top-up construction By forming the pile (P) in an integral, separate and field-assembled structure, there is an advantage that the site (production and yard) and plant facilities for manufacturing the pile-type pile (P) on a large scale can be omitted.

Second, in-site casting and prefabricated spinning top pile and composite foundation method using the same according to the present invention, in the case of the standard top spinning pile (P) 500mm, the weight per top of the spinning top pile (P) is about 2Kg. P) has the advantage of easy transportation and yardage and easy installation on site.

Third, the field casting and the prefabricated spinning top pile and the composite foundation method using the same can be easily installed by the unskilled person to level the top of the pile top pile, and the daily installation amount is the conventional concrete top pile pile. It is 3-5 times more than this, and the working time can be greatly reduced.

In particular, when the top file is made of EPS (Expandable Poly-Styrene) block, there is an advantage that can significantly shorten the installation and construction period of the top file.

Fourth, in-site casting and prefabricated spinning top pile and composite foundation method using the same can manufacture and install the top pile pile in the form of a part, a single body and an assembly, and bear the basic bearing capacity according to the load type of the foundation. There is an advantage that can be selectively applied to a variety of materials according to the basic engineering properties.

In addition, the materials that can be filled include heavy-duty materials such as ready-mixed concrete, mortar, crushed stone, grout and additive injection type, slugs, reused aggregates, environmental waste and reused materials of sawdust and grouting, sand and earth and sand There are natural materials such as cement and grout, lightweight aggregates, etc., and there is an advantage that the field-assembled EPS (Expandable Poly-Styrene) block can be variously filled.

Fifth, the field casting and prefabricated spinning top pile and the composite foundation method using the same have advantages in that they can be used in parallel as well as in a permanent foundation.

Sixth, the field casting and prefabricated spinning top pile and composite foundation method using the same according to the present invention because the construction of the top 10 and the pile main body 20 by putting the appropriate filling and stress material in the top base pile When a large stress is applied to the underside of the connection part, there is an effect of fundamentally blocking the problem that the shaft angle may be broken when a crack is generated or is severe.

Seventh, the field casting and prefabricated spinning top pile and the composite foundation method using the same according to the present invention, since the top portion, pile body portion 20 and pile tip portion 30 are integrally separated, field-assembled, According to the type conditions (eccentricity and stress concentration reinforcement) there is an advantage that it can be easily installed by appropriately extending the length of the top-shaped pile body 20.

Eighth, in-site casting and prefabricated spinning top pile and composite foundation method using the same is provided with a grout material inlet for reinforcing the lower ground in the top portion, pile body portion 20 and pile tip portion 30, There is an advantage of maximizing the top pile connection and the soft ground improvement effect of the lower part.

In particular, the length of the pile body portion 20 can be easily extended by using a connecting device to the standard type top pile, there is an advantage that can maximize the eccentric foundation or stress concentration foundation reinforcement effect.

Ninth, on-site casting and prefabricated spinning top pile and composite foundation method using the same, the connection of the on-site casting top pile is connected to a variety of connections, such as connecting rebar, bolted joint, groove joint, hardware joint, cable tie There is an advantage that can be constructed.

Tenth, the field casting and the prefabricated spinning top pile and the composite foundation method using the same according to the present invention are not limited to the basic stress dispersion effect, but the use of the filled crushed stone layer around the top pile pile, By installing the double-sided horizontal drainage protected by pocket type geotextile (D) using the filled crushed rock layer, it is possible to fundamentally reduce the upward water pressure acting on the foundation structure. There is an advantage to be secured.

Eleventh, the field casting and prefabricated spinning top pile and composite foundation method using the same according to the present invention are simpler in construction, shorter air, cheaper economy, engineering of construction method than conventional concrete spinning pile or other soft ground improvement methods. It has the advantage of promoting safety, environmental friendliness and maintenance convenience.

1 is a perspective view 1 showing an integral type of a spinning top pile according to the present invention;

2 is a cross-sectional view 1 showing an integral type of the spinning top pile according to the present invention;

3 is a perspective view illustrating an integrated type of the spinning top pile according to the present invention;

4 is a cross-sectional view 2 showing an integral type of the spinning top pile according to the present invention;

Figure 5 is a cross-sectional view showing a first embodiment of the integrated pile top according to the present invention,

Figure 6 is a cross-sectional view showing a second embodiment of the integrated pile top according to the present invention,

7 is a cross-sectional view showing a third embodiment of an integrated pile top according to the present invention;

8 is a perspective view showing an open type of the spinning top pile according to the present invention;

Figure 9 is a cross-sectional view 1 showing an open type of the spinning top pile according to the present invention;

10 is a perspective view 2 showing an open type of a spinning top pile according to the present invention;

11 is a cross-sectional view 2 showing an open type of the spinning top pile according to the present invention;

12 is a cross-sectional view showing an open type first embodiment of a spinning top pile according to the present invention;

13 is a cross-sectional view showing a second open type embodiment of a spinning top pile according to the present invention;

14 is a cross-sectional view showing an open type third embodiment of the spinning top pile according to the present invention;

15 is a cross-sectional view showing an open type fourth embodiment of the spinning top pile according to the present invention;

16 is a cross-sectional view showing a fifth open type of the spinning top pile according to the present invention;

17 is a cross-sectional view showing a sixth embodiment of an open type pile pile according to the present invention;

18 is an exploded perspective view illustrating a detachable type of a spinning top file according to the present invention;

19 is an exploded cross-sectional view 1 showing a detachable type of a spinning top pile according to the present invention;

20 is an exploded perspective view illustrating a detachable type of a spinning top file according to the present invention;

21 is an exploded cross-sectional view 2 showing a detachable type of a spinning top pile according to the present invention;

Fig. 22 is a separation showing the first embodiment of the detachable pile according to the present invention.

Cross-section,

Figure 23 is a separation showing a second embodiment of the spinning top pile according to the present invention

Cross-section,

Figure 24 shows the separation of the spinning top pile according to the third embodiment of the present invention.

Cross-section,

25 is an exemplary view showing an integrated EPS block according to the present invention;

26 is a perspective view showing an integrated EPS block according to the present invention;

27 is a sectional view 1 showing an integrated EPS block according to the present invention;

28 is a perspective view of an integrated EPS block 2 according to the present invention;

29 is a sectional view 2 showing an integrated EPS block according to the present invention;

30 is an exploded perspective view illustrating the EPS block of FIG. 26;

31 is an exploded cross-sectional view 1 illustrating the EPS block of FIG. 27;

32 is an exploded perspective view illustrating the EPS block of FIG. 28;

33 is an exploded cross-sectional view 2 illustrating the EPS block of FIG. 28;

34 is an exploded perspective view illustrating the pile part of FIG. 26;

35 shows the top portion of the integral EPS block protection hardware according to the present invention

Perspective,

36 is a view showing the pile body protection hardware of the integrated EPS block according to the present invention.

Cross-section,

37 is a cross-sectional view showing the construction of the spinning top pile according to the present invention;

FIG. 38 is a perspective view of the connection reinforcing steel of the folding pile of FIG. 37; FIG.

FIG. 39 is a perspective view of the cable tie of the enclosed pile of FIG. 37; FIG.

FIG. 40 is a view illustrating a state in which the connection part of the top-shaped pile of FIG. 37 is bolted;

Example,

FIG. 41 is a view showing a state in which connecting portions of the top-shaped pile of FIG. 37 are connected with reinforcing bars;

Example,

42 is a view illustrating a state in which a connection portion of the top-shaped pile of FIG. 37 is connected with a cable tie.

Illustrated diagram shown.

Explanation of symbols on the main parts of the drawing

10: top part 12: hollow

20: pile body 22: hollow

30: pile tip 60: protrusion

62: spiral 64: staircase

66: through hole 70: injection tube

72: injection hole 80: EPS block

80a: EPS Block Cover 80b: EPS Block Top

80c: EPS block pile 80d: EPS block through hole

82: reinforcement 86: top portion reinforcement

88: pile body reinforcement 89: pile end reinforcement

90 connection reinforcing steel 92 through hole

94: Bolt 96: Rebar

98: cable tie BS: floor slab

D: Geotextile F: Filled stone

FS: Basic reinforcing bar P: Top pile

W: discarded concrete

Claims (47)

A top portion 10 which is formed of a light beam and is formed of a hollow hollow at the same time; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; On-site pile and prefabricated spinning top pile, characterized in that the top-shaped pile (P) consisting of a pile tip portion 30 is formed integrally reduced in cross-section at a predetermined angle from the lower end of the pile body portion 20. The method of claim 1, The top pile is inserted and coupled to the lower end of the inner side of the top portion 10, the pile end portion is configured to be screwed to the lower end of the pile body, characterized in that the top-shaped pile is integrally formed in the field Cast and prefabricated spinning top pile. The method according to claim 1 or 2, The top pile (P) is made of polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), EPS (expandable polystyrene: Expandable Poly-Styrene) , Cast iron, aluminum, iron plate, iron wire, metals, non-metals and wood, at least one of the cast-in-place pile and prefabricated pile type. The method according to claim 1 or 2, The top pile (P) is of a projection (60) protruding outward at a predetermined position on the inner surface, the spiral portion (62) wound in a spiral, and the step portion (64) consisting of steps to form a layer. On-site casting and prefabricated spinning top pile, characterized in that composed of at least one cross-sectional shape. The method according to claim 1 or 2, At least one of the top-shaped pile P includes a protrusion 60 protruding outward at a predetermined position on an outer surface thereof, a spiral portion 62 wound in a spiral, and a stepped portion 64 formed in a step shape. On-site casting and prefabricated spinning top pile, characterized in that formed in the cross-sectional shape of. The method according to claim 1 or 2, Wherein the top-shaped pile (P) is filled with a filling material therein, the filling material is on-site casting and prefabricated top-type pile, characterized in that configured to be filled with at least one of the weight material, recycled material, natural materials and lightweight materials. The method of claim 6, The weight material is a cast-in-place and prefabricated pile-type pile, characterized in that composed of at least one of ready-mixed concrete, mortar, crushed grout material and admixture. The method of claim 6, The recycled material is on-site casting and prefabricated spinning top file, characterized in that composed of at least one of slag, reusable aggregate and sawdust grout material. The method of claim 6, Wherein the natural material is in-situ, gravel, sand and soil cement and cast-in-place pile-type pile, characterized in that composed of at least one. The method of claim 6, Wherein the lightweight material is an EPS (expandable polystyrene: Expandable Poly-Styrene) block and EPS (expandable polystyrene: Expandable Poly-Styrene) cast-in-place and prefabricated folding type file, characterized in that composed of at least one of the lightweight aggregate. The method according to claim 1 or 2, The top portion 10 is a cast-in-place and prefabricated, characterized in that the cross-sectional shape is formed of at least one of circular, triangular, square, pentagonal, hexagonal, octagonal, octagonal, decagonal, decagonal, pentagonal and octagonal Top file. The method according to claim 1 or 2, Field top and prefabricated top-shaped piles, characterized in that the top portion is provided with a lid having the same cross-sectional shape as the cross-sectional shape of the top portion 10 so that the inner and outer parts are blocked at the upper end. The method of claim 12, The lid is a cast-in-place prefabricated pile-type pile, characterized in that the material is composed of at least one of synthetic resin, iron plate, wood. The method according to claim 1 or 2, The top-shaped pile (P) is a cast-in-place and prefabricated top-shaped pile, characterized in that the reinforcing hardware (86, 88, 89) is installed to reinforce strength at a predetermined position of the inner, outer surface. The method of claim 14, The reinforcing steel (86, 88, 89) is a cast-in place and prefabricated spinning top characterized in that it is formed in a cross-sectional shape corresponding to at least one of the top portion 10, pile body portion 20 and the pile tip portion 30, respectively Type files. The method according to claim 1 or 2, The top-shaped pile (P) is a cast-in-place and prefabricated top-shaped pile, characterized in that a plurality of through-holes 66 are formed so as to pass through the inside and outside at a predetermined position. The method of claim 16, The through-hole 66 is on-site casting and prefabricated top-type pile, characterized in that formed in at least one or more of the top portion 10, the pile body portion 20 and the pile tip portion (30). The method of claim 2, The pile main body 20 has an injection tube 70 installed therein, and the injection tube 70 has a hollow hollow shape and a plurality of injection holes 72 are formed at the same time. And prefabricated top piles. A top portion 10 which is formed of a light beam and is formed of a hollow hollow at the same time; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; In the top-shaped pile (P) consisting of a pile front end portion 30 is reduced in cross section at a predetermined angle from the lower end of the pile body portion 20, An EPS block which is filled at a predetermined position in the top pile P and has a through hole at the center thereof; On-site casting and prefabricated spinning top file, characterized in that the reinforcing bar inserted through the EPS block is integrally formed. The method of claim 19, The top pile (P) is filled with a predetermined position therein and at the same time the EPS block having a through hole in the center; On-site casting and prefabricated spinning top file, characterized in that the reinforcing bar inserted through the EPS block to form the assembly. The method of claim 19 or 20, The top pile (P) is made of polyethylene resin (PE: polyethylene), polystyrene resin (PS: polystyrene), ABS resin (ABS: acrylonitrile butadiene styrene copolymer), EPS (expandable polystyrene: Expandable Poly-Styrene) , Cast iron, aluminum, iron plate, iron wire, metals, non-metals and wood, at least one of the cast-in-place pile and prefabricated pile type. The method of claim 19, The top portion 10 is a cast-in-place and prefabricated, characterized in that the cross-sectional shape is formed of at least one of circular, triangular, square, pentagonal, hexagonal, octagonal, octagonal, decagonal, decagonal, pentagonal and octagonal Top file. The method of claim 19, The top portion 10 is a site-mounted and prefabricated top-shaped pile, characterized in that the upper end is provided with a lid having the same cross-sectional shape as the cross-sectional shape of the top portion 10. The method of claim 23, wherein The lid is a cast-in-place prefabricated pile-type pile, characterized in that the material is composed of at least one of synthetic resin, iron plate, wood. The method of claim 19 or 20, The top pile (P) is cast in place and prefabricated top-shaped pile, characterized in that the reinforcing hardware (86, 88, 89) is installed to reinforce strength at a predetermined position on the outer surface. The method of claim 25, The reinforcing steel (86, 88, 89) is a cast-in place and prefabricated spinning top characterized in that it is formed in a cross-sectional shape corresponding to at least one of the top portion 10, pile body portion 20 and the pile tip portion 30, respectively Type files. Excavating the ground to a predetermined depth to form a constant space; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Installing a plurality of top-shaped piles (P) on the installed base bar (FS); Connecting the top-shaped piles (P) with a connection part reinforcing steel (90); Filling a filler in the top pile (P); Installing a lid on the filler; Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Composite foundation method using on-site casting and prefabricated top-type pile, characterized in that to sequentially perform the step of installing the floor slab (BS) on the discarded concrete (W). The method of claim 27, After installing the basic reinforcing bar (FS) on the geosynthetic fiber (D) complex, using the site casting and prefabricated spinning top pile, characterized in that the additional step of assembling and installing a plurality of top pile pile (P) integrally Basic construction method. The method of claim 27, The geosynthetic fiber (D) is a composite foundation method using on-site casting and prefabricated pile-type piles, characterized in that the horizontal drainage for double-sided drainage is installed therein. The method of claim 27, The top-shaped pile is formed of a light into the bottom and at the same time the top portion 10 is formed of a hollow hollow; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; Composite foundation method using on-site casting and prefabricated folding-type pile, characterized in that consisting of a pile front end portion 30 is formed by reducing the cross section at a predetermined angle from the lower end of the pile body portion 20. The method of claim 28, The top pile is inserted and coupled to the lower end of the inner side of the top portion 10, the pile end portion is configured to be screwed to the lower end of the pile body portion, the top-shaped pile (P) is integrally formed in the field Composite foundation method using on-site casting and prefabricated top pile. The method of claim 27, The step of connecting the top pile (P) with the connection portion reinforcing steel 90 is installed by continuously contact between the top pile (P), and penetrates the top portion 10 of the top pile (P) Covering the reinforcement of the connection portion 90 formed with a ball 92, and inserting the fastening member between the through-holes 92, the site casting and the composite foundation method using the prefabricated pile-type pile. The method of claim 27 or 32, The connection part reinforcement 90 is formed in a channel shape clogged three sides as a whole, and the through-holes 92 are formed on each side, respectively, on-site casting and prefabricated composite top method using a prefabricated pile type pile. The method of claim 32, The fastening member is bolted (94), reinforcement (96) and the cable tie (98), characterized in that the fastening of the composite foundation method using on-site casting and prefabricated top-type pile. The method of claim 27, The filling material is a composite foundation method using on-site casting and prefabricated pile-type pile, characterized in that configured to fill at least one of heavy materials, recycled materials, natural materials and lightweight materials. The method of claim 35, wherein The weight material is a composite foundation method using on-site casting and prefabricated pile-type pile, characterized in that composed of at least one of ready-mixed concrete, mortar, crushed grout material and admixture. The method of claim 35, wherein The recycled material is a composite foundation method using on-site casting and prefabricated spinning top pile, characterized in that composed of at least one of slag, reusable aggregate and sawdust grout material. The method of claim 35, wherein The natural material is a composite foundation method using on-site casting and prefabricated pile-type pile, characterized in that composed of at least one of soil, gravel, sand and soil cement. The method of claim 35, wherein The lightweight material is an EPS (expandable polystyrene) block, EPS (expandable polystyrene: Expandable Poly-Styrene) composite composite construction method using on-site casting and prefabricated top-type pile, characterized in that composed of at least one of lightweight aggregate . Excavating the ground to a predetermined depth to form a constant space; Installing geotextiles (D) on the bottom surface of the space part; Installing a foundation reinforcing bar (FS) on the geotextile (D); Installing a plurality of top-shaped piles (P) on the installed base bar (FS); Connecting between the top piles (P) with a connection part reinforcing steel (90); Installing a lid on the top pile (P); Filling the crushed stone (F) into the gap between the top pile (P); Casting the discarded concrete (W) onto the lid; Composite foundation method using on-site casting and prefabricated top-type pile, characterized in that to sequentially perform the step of installing the floor slab (BS) on the discarded concrete (W). The method of claim 40, The geosynthetic fiber (D) is a composite foundation method using on-site casting and prefabricated top-type pile, characterized in that the horizontal drainage for installing the double-sided drainage therein. The method of claim 40, After installing the basic reinforcing bar (FS) on the geosynthetic fiber (D) complex, using the site casting and prefabricated spinning top pile, characterized in that the additional step of assembling and installing a plurality of top pile pile (P) integrally Basic construction method. The method of claim 40, The top-shaped pile (P) and the top portion 10 is formed as a hollow light and at the same time hollow hollow; A pile main body portion 20 formed at the same time as a predetermined length is extended to the lower portion of the top portion 10 and a hollow hollow; A pile front end portion 30 having a cross section reduced at a predetermined angle from a lower end portion of the pile body portion 20; An EPS block which is filled at predetermined positions in the top portion 10, the pile body portion 20, and the pile tip portion 30, and has a through hole in the center thereof; Composite foundation method using on-site casting and prefabricated spinning top pile, characterized in that to form a reinforcing bar integrally inserted through the EPS block. The method of claim 42, The top-shaped pile (P) and the top portion 10 is formed as a hollow light and at the same time hollow hollow; A pile main body portion 20 which is inserted into and coupled to a lower portion of the inner surface of the top portion 10 and has a predetermined length and is formed of a hollow hollow; A pile front end portion 30 which is screwed to the lower end of the pile body portion 20 and reduced in cross section at a predetermined angle from the pile body portion 20; An EPS block which is filled at predetermined positions in the top portion 10, the pile body portion 20, and the pile tip portion 30, and has a through hole in the center thereof; Composite foundation method using on-site casting and prefabricated spinning top pile, characterized in that the assembly consisting of the reinforcing bar inserted through the EPS block, assembled in the field. The method of claim 40, The step of connecting the top pile (P) with the connection portion reinforcing steel 90 is installed by continuously contact between the top pile (P), and penetrates the top portion 10 of the top pile (P) Covering the reinforcing steel (90) formed connection hole (92), and the connection between the through-holes 92 by inserting the fastening member, the site casting and composite foundation method using prefabricated folding type pile. 46. The method of claim 40 or 45, The connection part reinforcement 90 is formed in a channel shape clogged three sides as a whole, and the through-holes 92 are formed on each side, respectively, on-site casting and prefabricated composite top method using a prefabricated pile type pile. The method of claim 45, The fastening member is bolted (94), reinforcement (96) and the cable tie (98), characterized in that the fastening of the composite foundation method using on-site casting and prefabricated top-type pile.