KR20190142492A - PHC pile to facilitate soil guard and construction method of soil guard structure using the same - Google Patents

Abstract

According to the present invention, a construction method for an earth retaining structure comprises the following steps of: manufacturing PHC piles by arranging, in a mold, steel sheets having a cross section with an arc shape and extending in the longitudinal direction of the PHC piles to be embedded in a front surface of the PHC piles, filling the mold with concrete, and performing molding; forming a plurality of bored holes in a row to be perpendicular to the ground on which an earth retaining structure is to be installed, and inserting the manufactured PHC piles into the bored holes, wherein the PHC piles are inserted such that the steel plates of the PHC piles are placed in front of the PHC piles; removing ground portions such that the front surfaces of PHC piles are exposed and then welding wale support brackets at predetermined heights on the steel plates of the PHC piles; and installing wales on upper portions of the wale support brackets in the horizontal direction of the PHC piles.

Description

PHC pile to facilitate soil guard and construction method of soil guard structure using the same}

The present invention relates to a PHC pile (Pretensioned High strength Concrete Pile) used in the structure of the earthquake structure and a construction method of the earthquake structure using the same.

The retaining structure is continuously installed on the ground excavation surface for the foundation construction of buildings, underground roadways and underground structures.

As the construction method of the earthen structure, a construction method using an H-pile and a soil plate, a site casting pile method, and the like are used.

In the construction method using H pile and earth plate, H pile is embedded in the ground at regular intervals, and earthen wall is formed by inserting wooden earth plate to prevent collapse of oyster side between buried H pile and horizontally on bracket installed in H pile. A strip is installed to form the earthen structure. However, in the structure of the earth block, because the soil plate is weak and there are many gaps, it is necessary to perform a separate order reinforcement grouting for the order on the back of the earth block, so that the construction period is long and the construction cost is additionally generated.

On the other hand, in-place pile pile method is to excavate the ground to form a perforated hole, insert the reinforcing bar assembly into the perforated hole, and then filling the filler such as concrete or mortar to form a cast-in-place pile to form a soil wall It is a technique.

In recent years, PHC piles have a higher rigidity than soil walls using cast-in-place piles.

However, there is a problem in that the installation of the strip is difficult because the earth structure using the PHC pile is composed of high-strength concrete. In the field, the earth wall is being constructed by fastening the coupling part which can couple the strips by drilling the bolt hole on the surface of the concrete pile, but there is a problem that the bolt connection part is damaged when the pile is twisted or eccentric due to the earth pressure.

The present invention has been made in order to solve the problems of the prior art as described above, PHC pile and earthquake structure construction method using the same easy to mud can shorten the construction period and construction cost by easy installation and coupling with the band The purpose is to provide.

PHC pile easy to clogging according to the present invention is a PHC pile 10 is formed of a steel plate 11 extending in the longitudinal direction of the PHC pile 10 having an arc-shaped cross section inside the mold for manufacturing the PHC pile 10 It is formed to be formed on the front of the), and the inside of the mold is filled with concrete, molded and cured, so that the steel plate 11 is integrally embedded in the PHC pile 10 vertically formed to expose the front surface of the steel sheet PHC By increasing the rigidity of the pile (10), and welding the belt length support bracket 20 for supporting the belt length 30 when constructing the earthen structure structure by welding to the steel plate 11 embedded in the front surface of the PHC pile (10) Belt strip 30 is characterized in that the connection is easy.

In addition, the steel plate embedded in the front surface is embedded in the PHC pile 10 is characterized in that it is embedded in accordance with the circular curved surface formed by the outer peripheral surface of the PHC pile 10 so as not to protrude from the outer peripheral surface of the PHC pile (10).

In addition, the steel sheet is characterized in that the shear connection member consisting of a projection projecting into the inside of the PHC pile 10 and the head portion extending laterally at the end of the steel sheet is formed integrally.

In the construction method of the earthenware structure according to the present invention, the steel sheet is formed so as to be embedded in the front surface of the PHC pile 10 having a circular cross section inside the mold and extending in the longitudinal direction of the PHC pile 10 and then the inside of the mold. Filling and molding with concrete to produce a PHC pile (10), and forming a plurality of holes in a row perpendicular to the ground on which the earth block structure to be installed, and inserting the prepared PHC pile (10) into the drilling hole And inserting the steel sheet of the PHC pile 10 in front of the PHC pile 10, removing the ground portion so that the front surface of the PHC pile 10 is exposed, and then fixing the steel sheet of the PHC pile 10. Welding each of the band support brackets to a height, and installing a band leader in the transverse direction of the plurality of PHC piles 10 on the band support brackets; The.

In addition, it characterized in that it further comprises the step of welding bonded to the steel sheet embedded in the front surface of the PHC pile 10, the belt length installed on the upper side of the belt support bracket.

In addition, the step of inserting into the drilling hole is characterized in that the prepared PHC pile 10 and the general PHC pile 10 is not embedded in the steel plate is mixed and inserted into the drilling hole.

In addition, the steel sheet disposed in the mold in the step of manufacturing the PHC pile 10 is a projection projecting into the interior of the PHC pile 10 on the rear of the steel plate, and the head portion extending laterally to the end of the projection portion It is characterized in that the shear connecting material is formed integrally.

In addition, the steel sheet of the PHC pile manufactured after the step of manufacturing the PHC pile 10 has a plurality of shear formed by integrally formed with a protrusion protruding from the front surface of the steel sheet, the head portion extending to the side of the protrusion portion integrally formed It characterized in that it further comprises the step of joining the connecting member longitudinally welded to the steel plate of the PHC pile.

According to the present invention, there is provided a PHC pile and a construction method of an earthquake structure using the same, which improves rigidity and facilitates installation coupling with a strip, thereby shortening the construction period and construction cost.

1 is a perspective view of a PHC pile according to a first embodiment of the present invention,
Figure 2 is a plan view of the earth block structure constructed using a PHC pile according to the present invention,
3 is a side view of FIG. 2;
4 is a perspective view of a PHC pile according to a second embodiment of the present invention;
5 is a perspective view of a PHC pile according to a third embodiment of the present invention;
6 is a cross-sectional view of a PHC file according to a fourth embodiment of the present invention;
7 is a plan view of the structure of the clod using a PHC pile according to a fifth embodiment of the present invention,
8 is a side view of the PHC pile of FIG.

Hereinafter, with reference to the accompanying drawings, the construction method of the earthquake-resistant PHC pile and the earthquake structure using the same according to a preferred embodiment of the present invention will be described in detail.

Figure 1 is a perspective view of a PHC pile according to a first embodiment of the present invention, Figure 2 is a plan view of the earth block structure constructed using the PHC pile according to the present invention, Figure 3 is a side view of FIG.

When explaining the construction method of the earthquake structure for the PHC pile 10 and the earthquake structure according to the present invention, the construction method of the earthquake structure using the PHC pile 10 of the present invention has an arc-shaped cross section inside the mold PHC Manufacturing a PHC pile 10 by arranging the steel sheet 11 extending in the longitudinal direction of the pile 10 to be embedded in the front surface of the PHC pile 10 and then filling and molding the inside of the mold with concrete; Forming a plurality of perforation holes in a row perpendicular to the ground, inserting the manufactured PHC pile 10 into the perforation holes, removing the ground portion so that the front surface of the PHC pile 10 is exposed, and then Welding-bonding the strip support brackets 20 to a predetermined height of the steel plate 11 embedded in the front surface of the pile 10, and the plurality of PHC piles 10 on the strip support brackets 20, respectively. ) In the horizontal direction of the PL may comprise the steps:

First, the PHC pile 10 according to the present invention is easily embedded in the PHC pile 10 is integrally embedded with a steel plate 11 having an arcuate cross section vertically over the entire length of the PHC pile 10 on the front of the PHC pile 10 Is done.

To this end, a steel plate 11 is formed in the longitudinal direction on the inner circumferential surface of the mold in which the cross section is formed vertically over the entire length of the PHC pile 10 in an arc shape in the mold for manufacturing the PHC pile 10 in a factory. Next, the concrete is filled into the mold. The steel sheet 11 disposed inside the mold is formed such that an angle between both ends of the steel sheet 11 at the center of the PHC pile 10 is approximately 30 degrees to 60 degrees. In addition, in the mold, a plurality of steel wires may be additionally disposed as in the general pile 10.

After filling concrete inside the mold, it is molded and cured while rotating at high speed with the horizontal axis of the mold as the rotation axis.

PHC pile 10 of the present invention manufactured as described above is a steel plate 11 having an arc-shaped cross section as embedded in the PHC pile 10 is integrated into the PHC pile 10 as shown in FIG. The outer circumferential surface of the PHC pile 10 is coincident with the circular curved surface formed so as not to protrude from the outer circumferential surface.

In this way, the PHC pile 10 is manufactured in the factory, and in the field, a plurality of holes are vertically formed in a line by using a drilling means in the ground on which the earth structure is to be installed.

And, as shown in Figure 2 to insert the PHC pile 10 manufactured as described above in the factory in the drill hole formed in a line, the PHC pile 10 to be inserted into the drill hole is a steel sheet 11 according to the present invention The embedded PHC pile 10 and the steel plate 11 using the general PHC pile 10a not embedded together, and as shown, the steel plate 11 according to the present invention is embedded between the general PHC pile 10a. The PHC files 10 are arranged one by one. When the PHC pile 10 according to the present invention is inserted into the drilling hole, the embedded steel plate 11 is inserted in front of the PHC pile 10.

As such, after the insertion of the PHC file 10 is completed, the ground portion is excavated and removed to expose the front surface of the PHC file 10.

Next, among the PHC piles 10 of which the ground portion is removed and exposed, the PHC piles 10 according to the present invention have a belt support bracket for supporting the belts 30 on the steel plate 11 of the PHC piles 10. 20) is respectively welded to a predetermined position of the steel sheet (11). The coupling portion coupled to the PHC pile 10 in the strip support bracket 20 has an arc shape corresponding to the outer circumferential surface of the steel sheet 11, and the arc-shaped coupling portion is welded to the steel sheet 11 of the PHC pile 10 by welding. Will be combined.

Coupling the band support bracket 20 to the steel plate 11 of the PHC pile 10, and then to the upper portion of the band support bracket 20 in the transverse direction of the plurality of PHC pile 10 in the horizontal direction of the H-shaped steel strip 30 Install over). In addition, the strip 30 is welded to the steel plate 11 of the PHC pile 10 to complete the earth structure.

The construction method of the PHC pile 10 and the earth structure using the same according to the present invention having such a configuration has the following effects.

First, the construction method of the PHC pile 10 and the earth block structure according to the present invention by integrally embedding the steel plate 11 extending in the longitudinal direction on the front of the PHC pile 10 at the time of manufacturing the PHC pile 10 in the factory By manufacturing the PHC pile 10, the rigidity of the pile 10 itself is increased to improve the earth pressure bearing force, thereby preventing the warpage phenomenon or the warpage of the PHC pile 10 due to the back earth pressure.

Second, the construction method of the PHC pile 10 and the earth block structure according to the present invention by joining the band support bracket 20 to the steel plate 11 embedded in the front of the PHC pile 10 by welding to separate bolt holes There is no need to perforate and thus there is an advantage that can solve the problem that the bolt connection is damaged if the pile is warped or eccentric due to the back earth pressure.

Third, the construction method of the PHC pile 10 and the earth block structure according to the present invention by coupling the band support bracket 20 as well as the band support 30 to the embedded steel plate 11 of the PHC pile 10 by welding force The reinforcement is thereby integrated with the mud wall, thereby increasing the earth pressure bearing force of the mud wall as a whole.

Fourth, in the construction method of the PHC pile 10 and the earth block structure according to the present invention, when the band support bracket 20 is coupled to the steel plate 11 of the PHC pile 10 as shown in Figure 3 ( 20) has the advantage that can be easily changed up and down according to the situation or conditions of the site.

4 and 5 illustrate the PHC pile 10 according to the second and third embodiments of the present invention. In the above-described first embodiment, the steel plate 11 is formed of one, but the second and third embodiments are illustrated. In the PHC pile 10 in the example, a plurality of steel plates 11 are segmented. In the second embodiment, as shown, divided into six steel sheets 11 and embedded along the longitudinal direction of the PHC pile 10 at intervals of about 1 cm, and in the third embodiment, are embedded at 45 degrees diagonally and embedded without spaced apart. In this embodiment, the plurality of steel sheets 11 are thus segmented so that deformation of the steel sheet 11 can be prevented against distortion in the longitudinal direction of the PHC pile 10.

6 is a cross-sectional view of the PHC pile 10 according to the fourth embodiment of the present invention. In the PHC pile 10 illustrated in FIG. 6, the shear connecting member 12 is coupled to the rear surface of the steel plate 11. Shear connector 12 is formed integrally with a projection 12a protruding into the PHC pile 10 from the rear surface of the steel plate 11 and a head portion 12b extending laterally at the end of the projection 12a. In this embodiment, as shown, two shear connecting members 12 are integrally formed on both sides of the rear surface of the steel sheet 11.

In this embodiment, the shear connector 12 is integrally formed on the rear surface of the steel sheet 11 and embedded together so that the binding force with the PHC pile 10 is strengthened.

7 and 8 illustrate a PHC pile 10 according to a fifth embodiment of the present invention. FIG. 7 is a plan view of an earth block structure using a PHC pile according to a fifth embodiment of the present invention. 8 is a side view of FIG.

In the PHC pile 10 illustrated in FIGS. 7 and 8, a plurality of shear connecting members 13 are vertically coupled to the front surface of the steel plate 11. The shear connector 13 is formed by integrally forming a protrusion 13a protruding from the front surface of the steel plate 11 and a head 13b extending laterally at an end of the protrusion 13a, and the shear connector 13. Is welded to the steel plate 11 and formed integrally.

In the case of the PHC pile 10 of the present embodiment made as described above, when the formwork structure is formed and the formwork is installed in front of the retaining wall and the concrete is poured to form the plywood, the plywood is integrated with the plywood as shown to strengthen the bearing force and the binding force. .

The present invention has been described above with reference to preferred embodiments, but the present invention is not limited thereto, and any person having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Any variety of variations will be possible.

10: PHC file 11: steel sheet
12: Shear connector 20: Bracket support bracket
30: Sash

Claims (4)

In the PHC file,
A steel sheet 11 having an arc shape in cross section and extending in the longitudinal direction of the PHC pile 10 is disposed on the front surface of the PHC pile 10 to form the PHC pile 10. It is made by filling the interior with concrete, forming and curing, so that the steel plate 11 is vertically embedded in the PHC pile 10 and the front surface of the steel sheet 11 is exposed so that the rigidity of the PHC pile 10 is increased. And, when the construction of the earthquake structure is welded to the steel sheet 11 embedded in the front plate of the PHC pile 10 to support the strip length bracket 30 to support the strip length 30 is easy to connect PHC pile which is easy to make with earth. The method of claim 1,
The steel sheet 11 is a shear composed of a projection 12a protruding into the PHC pile 10 on the rear surface of the steel sheet 11 and a head portion 12b extending laterally at the end of the projection 12a. PHC pile easy to clod, characterized in that the connecting material 12 is formed integrally. In the construction method of the earth block structure,
A steel plate 11 having a circular cross section inside the mold for manufacturing a PHC pile and extending in the longitudinal direction of the PHC pile 10 is disposed to be formed on the front surface of the PHC pile 10, and then the inside of the mold is concrete. Filling and molding to prepare a PHC pile 10;
Form a plurality of holes in a row perpendicular to the ground on which the earth block structure is to be installed, and insert the pre-fabricated PHC file 10 into the hole, wherein the steel plate 11 of the PHC file 10 is a PHC file ( Inserting in front of 10),
Removing the ground portion so that the front surface of the PHC pile 10 is exposed and then welding-bonding the band support brackets 20 to a predetermined height of the steel plate 11 of the PHC pile 10;
Construction method of the earthquake structure, characterized in that comprising the step of installing a strip 30 in the horizontal direction of the plurality of PHC pile (10) on the top of the strip support bracket (20). The method of claim 3,
In the manufacturing of the PHC pile 10, the steel sheet 11 disposed inside the mold includes protrusions 12a protruding into the PHC pile 10 on a rear surface of the steel sheet 11, and protrusions 12a. Shear connecting member 12 consisting of a head portion 12b extending laterally at the end of the) is formed integrally,
In the step of inserting into the drilling hole construction method of the earthquake structure, characterized in that the prepared PHC pile (10) and the steel plate (11) is not mixed with a common PHC pile (10a) to be inserted into the drilling hole.

Images