KR102028961B1 - Structure for head anchorage of steel pipe pile and micro pile - Google Patents

Abstract

According to the present invention, an upper part anchoring structure of a steel pipe pile allows a steel pipe pile to be inserted into the ground for base reinforcement through a perforated hole formed on base concrete forming a base of a conventional building, allows a circular steel plate to be coupled to an upper end of the inserted steel pipe pile, allows a plurality of support rods to be erected in the perforated hole of the base concrete, allows a lower part of the support rod to be fixed to the perforated hole of the base concrete, allows a coupling plate to be coupled to an upper part of the support rod, wherein the coupling plate is coupled with an upper surface of the circular steel plate coupled to the upper end of the steel pipe pile.

Description

Structure for head anchorage of steel pipe pile and micro pile

The present invention relates to an upper fixing structure of a steel pipe pile and a micro pile, and more particularly, to a fixing structure for fixing an upper portion of a steel pipe pile and a micro pile used for foundation reinforcement to a basic structure and a fixing method thereof.

Steel pipe piles and micro piles are buried in soft ground or grounds with insufficient bearing capacity and are being constructed to reinforce the foundation of existing buildings.

This conventional micropile is shown in FIG. As shown in FIG. 1, a conventional micropile has a spiral coupling protrusion formed continuously on an outer circumferential surface thereof, and a plurality of threadbars 40 provided with spacers 41 are screwed by a coupler 50. Is done. The construction process of such a micropile is performed by drilling the foundation concrete 20, drilling the ground 10, inserting the casing 30 in the ground drilling hole 11, inserting the micropile assembly in the casing 30, cementing in the casing, and the tread bar. The upper part of the 40 is constructed in the order of assembly of the fixing structure, section recovery and finishing with concrete or mortar.

Thus, the structure for fixing the conventional micro pile to the foundation concrete 20 is composed of a lock nut 60, an anchor plate 70, and an upper lock nut 61 fastened to the tread bar 40 The anchor plate 70 is fixed to the finishing concrete 80 to be fixed.

Therefore, the most important part of the conventional micro pile anchoring structure is the integration of the anchor plate 70 and the finishing concrete 80. Under normal working loads subjected to compression, anchor plate 70 may be safer to be located deeper on top of the concrete foundation and the installation location should be at least 50 cm deep on top of the foundation concrete.

However, in practice, it is very difficult to dismantle and install the anchor plate 70 to a depth of about 50 cm of the existing foundation concrete and must break a much larger area than the casing 30. This can be a dangerous operation that can cause fatal damage to existing structures.

In addition, in the case of the anchor plate 70, when the load to be drawn by the micropile is applied, there is a problem in that it is merely vulnerable to the drawing because it is only embedded in the finishing concrete 80.

Accordingly, the present invention has been made to solve the problems of the prior art, to provide a top fixing structure of the steel pipe and micropile that can improve the fixing strength while securing the stability of the foundation structure by minimizing the removal portion of the foundation structure It aims to do it.

The upper fixing structure of the steel pipe pile according to the present invention is a steel pipe is inserted under the ground for reinforcement through a drilled hole formed in the foundation concrete to form the foundation of the existing building, the circular steel plate is coupled to the top of the inserted steel pipe A plurality of support rods are erected in the perforated holes of the foundation concrete, and a lower portion of the support rods is fixed to the perforation holes of the foundation concrete, and a coupling plate is coupled to an upper portion of the support rod, and the coupling plate is connected to an upper end of the steel pipe. It is characterized in that it is coupled together to the upper surface of the circular steel sheet to be bonded.

In addition, the lower portion of the support bar is formed integrally with the L-shaped bent portion bent outward, the inner circumferential surface of the perforated hole of the base concrete is formed with a coupling hole extending to the side is formed, the bent portion of the support rod is coupled to the coupling hole It is characterized in that it is fixed.

In addition, the fixing plate is coupled to the lower portion of the support rod, characterized in that the fixing plate is fixed to the bottom surface of the base concrete.

In the upper fixing structure of the micropile according to the present invention, the micropile is inserted below the ground for reinforcing the foundation through a drilling hole formed in the foundation concrete forming the foundation of the existing building, and the first on top of the inserted micropile. A fixing nut is fastened, an insertion hole is formed in the center to couple the micropile, and the circular steel sheet is coupled to the upper side of the first fixing nut, and the second fixing nut is coupled to the upper side of the circular steel sheet at the top of the micropile. A plurality of support rods are erected in the perforated holes of the foundation concrete, and a lower portion of the support rods is fixed to the perforation holes of the foundation concrete, and a coupling plate is coupled to an upper portion of the support rod, and the coupling plate is formed on an upper surface of the circular steel sheet. It is characterized by being coupled together.

According to the present invention, there is provided a fixing structure of steel pipes and micropiles that can improve the fixing strength while minimizing the removal of the foundation structure while ensuring the stability of the existing structure.

1 is a view showing an upper fixing structure of a conventional micropile,
2 is a view showing an upper fixing structure of the steel pipe pile according to the first embodiment of the present invention,
3 is a plan view of the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention,
4 is a view showing another example of the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention,
5 is a view showing an upper fixing structure of a micropile according to a second embodiment of the present invention;
6 is a view showing another example of the upper fixing structure of the micropile according to the second embodiment of the present invention.

Hereinafter, the upper fixing structure of the steel pipe pile configured according to the present invention will be described in detail with reference to the drawings.

2 is a view showing the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention, Figure 3 is a plan view of the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention, Figure 4 4 is a view showing another example of the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention.

As shown in Figure 2, the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention for the foundation reinforcement through the drilling hole 101 formed in the foundation concrete 100 to form the foundation of the existing building The steel pipe pile 110 is inserted under the ground, the circular steel plate 120 is coupled to the upper end of the inserted steel pipe pile 110, a plurality of support rods 200 in the drilling hole 101 of the foundation concrete 100 Standing and the lower portion of each support rod 200 is fixed to the drilling hole 101 of the base concrete 100, the coupling plate 220 is coupled to the upper portion of the support rod 200, the coupling plate 220 is a steel pipe pile ( The upper surface of the circular steel sheet 120 is coupled to the upper end of 110 is made together.

Referring to the fixing structure of the upper portion of the steel pipe pile according to the first embodiment of the present invention in more detail through the process, first the perforated hole 101 in the foundation concrete 100 to form a foundation, such as independent foundation for supporting the building in the existing building ), And the steel pipe pile 110 is inserted below the ground through the drilling hole (101). The steel pipe pile 110 to be inserted may be one or more, such that the upper portion of the steel pipe pile 110 located at the top in the press-fitting operation of the steel pipe pile 110 is located in the drilling hole 101 of the base concrete 100 do.

Then, the upper end of the steel pipe pile 110 is located on the upper side of the circular steel sheet 120 is coupled to the upper end of the steel pipe pile 110 by welding.

In addition, four coupling holes 102 are formed at predetermined intervals in the inner circumferential surface of the drilling hole 101 of the foundation concrete 100, and the coupling holes 102 are formed to a predetermined depth from the inner circumferential surface of the drilling hole 101 to the side surface. . The coupling hole 102 forming operation may be performed immediately after the drilling hole 101 is formed in the foundation concrete 100 and before the insertion of the steel pipe pile 110.

Then, four support rods 200 are placed vertically in the drilling hole 101 of the foundation concrete 100, four support rods 200 are arranged at intervals of 90 degrees around the steel pipe pile (100). And, each of the supporting rods 200, the coupling plate 220 is coupled to the upper portion by welding, the lower portion of the supporting rods 200 is formed integrally with the L-shaped bent portion 210 bent outward.

The supporting rods 200 configured as described above are disposed to stand vertically in the drilling hole 101 of the basic concrete 100, but the bending portions 210 bent in an L shape under the supporting rods 200 are formed of the base concrete 100. It is inserted into and fixed to the coupling hole 102 formed in the inner circumferential surface of the drilling hole 101).

As such, the lower portion of the supporting rod 200 is fixed to the basic concrete 100 and the coupling plate 220 coupled to the upper portion of the supporting rod 200 is coupled to the upper surface of the circular steel sheet 120 by welding.

In this embodiment, the coupling plate 220 is made of a triangular steel plate as shown, the side is coupled with the support rod 200, the bottom surface of the coupling plate 220 is coupled with the circular steel plate 120.

After the support rod 200 is coupled to the circular steel sheet 120 through this process, the non-condensed concrete is poured and cured in the drilling hole 101 of the foundation concrete 100 to complete the fixing process.

Since the upper fixing structure of the steel pipe pile according to the first embodiment of the present invention has such a configuration, in the conventional fixing structure, the anchor plate 70 is simply embedded in the finishing concrete 80, so that the load is applied when the load is applied. Vulnerable, when the adhesive strength of the boundary between the finishing concrete 80 and the existing foundation concrete 20 is weakened, there was a problem that the pile may be drawn together with the finishing concrete 80, in the case of the present invention In the plurality of support rods 200 inserted in the 101, the bent portion 210 is fixed to the drilling hole 101 and the coupling plate 220 coupled to the upper support rod 200 is welded to the upper surface of the circular steel plate 120. By bonding, there is an advantage that solves the problems as in the prior art and improves the fixing strength.

In addition, in the existing anchoring structure, in order to install the anchor plate 70, the existing foundation concrete 20 has to be removed to a depth of about 50 cm, much larger than the casing 30, but the present invention is configured as described above By having the basic concrete 100 to be drilled in the same manner as the boring hole 101 of the ground, construction is more convenient and there is an advantage that the construction can be performed without harming the stability of the existing structure.

Meanwhile, FIG. 4 illustrates another example of the upper fixing structure of the steel pipe pile according to the present invention. In FIG. 4, the fixing plate 230 is welded to the lower portion of the supporting rod 200 and the fixing plate 230 is welded. As shown in the drawing to be fixed to the bottom of the concrete 100.

In FIG. 4, the support rod 200 can be fixed without forming a separate coupling hole 102 in the foundation concrete 100.

Next, the upper fixing structure of the micropile according to the second embodiment of the present invention will be described with reference to the drawings. 5 is a view showing an upper fixing structure of the micropile according to the second embodiment of the present invention, and FIG. 6 is a view showing another example of the upper fixing structure of the micropile according to the second embodiment of the present invention. .

The upper fixing structure of the micropile according to the second embodiment of the present invention is a micropile 111 down the ground for foundation reinforcement through the drilling hole 101 formed in the foundation concrete 100 forming the foundation of the existing building Is inserted, the first fixing nut 113 is fastened to the upper portion of the inserted micro pile 111, the circular steel sheet 120 is formed in the center so that the insertion hole is inserted into the first fixing nut ( The upper side of the 113 is coupled to the micropile 111, the second fixing nut 114 is coupled to the upper side of the circular steel sheet 120 in the upper portion of the micropile 111, the drilling hole 101 of the base concrete 100 ) A plurality of support rods 200 are erected and the bottom of the support rods 200 are fixed to the drilling holes 101 of the foundation concrete 100, the coupling plate 220 is coupled to the upper portion of the support rods 200, The plate 220 is coupled to the upper surface of the circular steel sheet 120 is made.

The fixing structure of the upper portion of the micropile according to the second embodiment of the present invention will be described in more detail through the process. First, the hole 101 is formed in the foundation concrete 100 that forms the foundation of the independent foundation for supporting the building in the existing building. ) And four coupling holes 102 formed at a predetermined depth on the inner circumferential surface of the drilling hole 101 at intervals of 90 degrees. The casing 112 is inserted below the ground through the drilling hole 101.

Then, the micropile 111 is inserted into the casing 112, and the micropile 111 made of a tread bar is connected to each other by a coupler, inserted into the casing 112, and positioned at the center of the casing 112.

Thereafter, the first fixing nut 113 is fastened to an upper portion of the uppermost micropile 111 positioned in the drilling hole 101 of the foundation concrete 100.

Then, the circular steel sheet 120 is bonded to the micropile 111. The micropile 111 is passed through an insertion hole formed in the center of the circular steel sheet 120, and the circular plate is formed on the upper side of the first fixing nut 113. The steel plate 120 is bonded to the micropile 111.

Then, the second fixing nut 114 is fastened to the upper portion of the micropile 111 on the circular steel plate 120.

Then, four support rods 200 are erected vertically in the drilling hole 101 of the foundation concrete 100, each support rod 200 is coupled to the coupling plate 220 by the welding rod, the support rods 200 The lower portion of the) is formed integrally with the L-shaped bent portion 210 is bent to the outside.

The supporting rods 200 configured as described above are disposed to stand vertically in the drilling hole 101 of the basic concrete 100, but the bending portions 210 bent in an L shape under the supporting rods 200 are formed of the base concrete 100. It is inserted into and fixed to the coupling hole 102 formed in the inner circumferential surface of the drilling hole 101).

As such, the lower portion of the supporting rod 200 is fixed to the basic concrete 100 and the coupling plate 220 coupled to the upper portion of the supporting rod 200 is coupled to the upper surface of the circular steel sheet 120 by welding.

After the support rod 200 is coupled to the circular steel sheet 120 through this process, the non-condensed concrete is poured and cured in the drilling hole 101 of the foundation concrete 100 to complete the fixing process.

The upper fixing structure of the micropile 111 according to the second embodiment has the advantage of improving the fixing strength without compromising the stability of the existing structure as in the first embodiment by the configuration as described above.

Figure 6 shows another example of the upper fixing structure of the micropile 111 according to the present invention, the fixing plate 230 is welded to the lower portion of the support rod 200 and the fixing plate 230 is shown As it is fixed to the bottom of the base concrete (100).

In FIG. 6, as in FIG. 4, the support rod 200 may be fixed without forming a separate coupling hole 102 in the foundation concrete 100. Other configurations and effects are the same as in the previous embodiment, and a detailed description thereof will be omitted here.

As mentioned above, although this invention was demonstrated with reference to the preferred embodiment, this invention is not limited to this, The person skilled in the art can variously change in the range which does not deviate from the summary of this invention described in the claim below. It will be easy to understand.

100: basic concrete 101: drilling hole
102: coupling hole 110: steel pipe pile
111: micropile 112: casing
120: round steel plate 200: support rod
210: bend portion 220: coupling plate
230: fixed plate

Claims (6)

The steel pipe pile 110 is inserted below the ground for reinforcing the foundation through the drilling hole 101 formed in the foundation concrete 100 forming the foundation of the existing building,
The bottom surface of the circular steel sheet 120 is coupled to the upper surface of the upper end of the inserted steel pipe pile 110,
A plurality of support rods 200 are erected in the drilling holes 101 of the foundation concrete 100 and the lower portion of the support rods 200 is fixed to the drilling holes 101 of the foundation concrete 100.
The coupling plate 220 is coupled to the upper portion of the support rod 200, the coupling plate 220 is coupled together to the upper surface of the circular steel sheet 120 is coupled to the upper end of the steel pipe pile 110, the circular steel sheet The bottom surface of the coupling plate 220 coupled to the upper surface of the 120 extends from the support rod 200 to the center of the steel pipe pile 110, the end of which is disposed inside the inner circumferential surface of the steel pipe pile 110,
The lower portion of the support rod 200 is formed integrally with the L-shaped bent portion 210 is bent to the outside, the coupling hole 102 is formed to extend to the inner peripheral surface of the drilling hole 101 of the base concrete 100 ) Is formed, the bent portion 210 of the support rod 200 is fixed to the upper fixing structure of the steel pipe pile, characterized in that coupled to the coupling hole 102 is fixed. delete delete delete delete delete

Images