KR101822175B1 - Retaining Wall using Precast Piles and Constructing Method thereof - Google Patents

Abstract

The present inventions relates to a retaining wall with a reinforcement steel plate for supporting an earth anchor of a precast concrete pile, and the precast concrete pile therefor. The present invention increases stiffness of the retaining wall by supporting the precast concrete pile by using an earth anchor when the retaining wall is constructed by using a preliminarily manufactured precast concrete pile such as a PHC pile and improves bending stiffness of the precast concrete pile itself by using a steel plate while easily performing a wale installing work when wale installation is required when necessary.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pre-cast concrete pile having a reinforced steel plate and an earth anchor supporting structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earth retaining wall supporting a back soil in construction such as a trencher, and more particularly, to an earth anchor (earth anchor) using a pre-cast concrete pile, ), The stiffness of the retained wall is increased by supporting the precast concrete pile, and the flexural stiffness of the precast concrete pile itself is improved by using the steel plate, and when the wale is installed as required, The present invention relates to an earth retaining wall having an earth anchor supporting structure of a precast concrete pile reinforced with a steel plate, a method of constructing the precast concrete pile, and a precast concrete pile for the same.

A technique using a PHC pile has been proposed in constructing an earth retaining wall for preventing the collapse of the back soil during the earthquake construction work. However, the PHC pile is essentially a compression member supporting a vertical load acting in the longitudinal direction thereof, and its bending stiffness is not sufficient to be used as a component of the earth retaining wall supporting the earth pressure acting in the horizontal direction .

Although the prior art patents such as Korean Patent Registration No. 10-1058982 propose to construct a pavement wall by arranging PHC piles in series or in the middle of the pavement by casting in situ, There is still a problem in that it is still not certain whether the retaining wall will have sufficient bearing capacity.

Korean Patent Registration No. 10-1058982 (issued on Aug. 23, 2011).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a technique for constructing an earth retaining wall using a pre-cast concrete pile made of PHC pile or the like in order to overcome the limitations of the prior art.

Particularly, according to the present invention, by providing an earth anchor on a precast concrete pile constituting the earth retaining wall, the precast concrete pile exhibits sufficient supporting force against the back earth pressure, but the linear tensile material of the earth anchor penetrates through the precast concrete pile A steel plate for reinforcement is provided integrally with the steel plate at the time of manufacture so that the cast iron or prestressing material of the precast concrete pile is not lost during the process of installing the earth anchor, It is an object of the present invention to provide a technology for constructing a rigid earth retaining wall by allowing a precast concrete pile to exhibit sufficient flexural rigidity.

In order to achieve the above object, according to the present invention, there is provided an earth retaining wall body comprising a plurality of piles arranged in a row at intervals in a lateral direction, wherein a reinforcing assembly composed of a cast iron muscle and a transverse reinforcement is embedded in the concrete, And a precast reinforced pile having a reinforced steel plate integrally formed thereon for reinforcement is included in the front of the pile; In the precast reinforced pile, a cast iron root is not laid on the front face where the reinforcing steel plate is installed and the rear face opposite thereto; In the state where the front part of the earth retaining wall is excavated and the reinforcement steel plate of the precast reinforced pile is exposed, the earth anchor is installed on the back soil soil through the reinforced steel plate and the precast reinforced pile in the direction of the rear soil slope, There is provided an earth retaining wall characterized in that a supporting force by an anchor is exerted.

In order to achieve the above object, according to the present invention, each pile is disposed on a ground so that a plurality of piles are arranged in a row at intervals in the lateral direction, thereby forming a retaining wall by a plurality of piles A method of constructing a wall, the method comprising: providing a pre-cast reinforced pile with a reinforcing steel assembly comprising a cast iron root and a transverse reinforcement embedded in the concrete, and a reinforcing steel plate integrally formed with the pile; In the precast reinforced pile, a cast iron root is not laid on the front face where the reinforcing steel plate is installed and the rear face opposite thereto; A plurality of piles including precast reinforced piles are installed in the ground to construct the earth retaining wall, and then the front part of the retaining wall is excavated to expose the reinforcing steel plate of the precast reinforced pile; There is provided a method of constructing an earth retaining wall, comprising the steps of providing an earth anchor on the back soil so as to penetrate the reinforced steel plate and the pre-cast reinforcing pile in a direction from the front surface to the back surface soil, thereby applying a supporting force by the earth anchor to the earth retaining wall .

In the earth retaining wall according to the present invention and the construction method of the present invention, when the pre-cast reinforcing pile is preliminarily manufactured, a reinforcing steel plate having through holes is formed, and the reinforcing steel plate is directly contacted with the concrete at the position where the through- A backfill is formed by attaching a filling material having a thickness that is removable by a piling method; When the earth anchor is installed, the earth anchor can be fixed to the back surface soil by allowing the earth anchor to penetrate the buried filler through the through hole. In this case, a wale cradle is provided on the reinforced steel plate, and a wale consisting of a beam member extending in the transverse direction is placed on the wale cradle, and is laterally coupled to the front surface of the pile of the retaining wall. The wale cradle has a configuration including a horizontal cradle in which the belt is placed, a vertical cradle, and a cradle provided in a bent shape at the top of the vertical cradle in a backward direction; A part of the embedment filling member existing on the back surface of the reinforcing steel plate is dug and removed at a position below the through hole formed in the reinforcing steel plate to form an empty space in the back surface of the through hole, The welt rest is installed on the front face of the reinforcing steel plate so that the vertical restraint of the rest is close to the front face of the reinforcing steel plate; The wale band may be provided on the wale stand.

Further, in the present invention, a pre-cast reinforced pile installed vertically on the ground to form the earth retaining wall, wherein a reinforcing steel assembly composed of a cast iron muscle and a transverse reinforcing steel is embedded in concrete, and a reinforcing steel plate for reinforcing is integrated Prefabricated; There is no cast iron rope installed at the front face where the reinforcing steel plate is installed and the rear face facing the reinforcing steel plate; A through hole is formed in the reinforced steel plate; Wherein a reinforcing steel plate having a thickness at the back surface of the reinforcing steel plate which is in direct contact with the concrete at the position where the through hole is formed is manufactured in a state in which an embedment filling member of a material capable of being removed by a piling method is attached in advance do.

In the present invention, when the earth retaining wall is constructed by using the pile, a strong supporting force is generated in the backward direction on the precast reinforced pile by the provision of the earth anchor, thereby improving the bearing capacity and stability of the retaining wall to the back earth pressure .

Particularly, in the present invention, in the pre-cast reinforced pile constituting the earth retaining wall, a through hole can be formed in advance in the reinforced steel plate. In this case, the drilling work for installing the earth anchor through the through hole can be very easily performed, Furthermore, in the case where the filling member is provided on the back surface of the reinforcing steel plate at the position of the through hole, the thickness of the concrete portion constituting the precast reinforcing pile is somewhat reduced due to the presence of the filling member, So that it is possible to penetrate through the precast reinforcing pile and to advance in the back surface soil erosion direction to perforate the installation hole, thereby facilitating the construction of the earth anchor.

Further, in the case of the precast reinforced pile in the present invention, the cast iron rope is not laid at the position where the through hole of the reinforcing steel plate is formed and the position of the rear face facing the pile, and even when the tensions for introduction of the tensional force are arranged, Since the tension member is not disposed at the position where the through hole is formed and the rear surface facing the through hole, it is possible to prevent cutting or damaging of the cast iron rope or the tension member by the perforator during the installation process of the earth anchor, It is possible to install the earth anchor in a form in which the damage to the structural function of the reinforced pile is minimized.

Further, according to the present invention, the buried filler member provided in the reinforced steel plate is dug and removed, so that the retaining ring of the wale stand can be easily spread on the reinforced steel plate through the through hole. It is possible to install the wrist strap fast and securely without performing troublesome and unfavorable work, and thus it is possible to easily perform reinforcement by installing the strap.

1 is a schematic perspective view of a precast reinforced pile according to a first embodiment of the present invention.
FIGS. 2 and 3 are schematic perspective views showing the precast reinforcement piles shown in FIG. 1 in different directions in which the shape of the reinforcing steel assembly and the installation shape of the reinforcing steel plate are viewed.
4 is a schematic plan view in longitudinal direction along line AA of FIG. 1 for the precast reinforced pile of the present invention.
5 (a) and 5 (b) are perspective views schematically showing a reinforcing steel plate having through holes formed therein and provided with an embedding filler member in different directions.
6 is a schematic plan sectional view taken along the line BB in Fig.
FIG. 7 is a schematic cross-sectional view taken along the line CC of FIG. 5; FIG.
FIG. 8 is a schematic perspective view corresponding to FIG. 2 showing a precast reinforced pile according to a second embodiment of the present invention. FIG.
9 is a schematic perspective view showing a state in which the earth retaining wall body of the present invention is constructed using the precast reinforced pile of the present invention and the front ground is excavated.
10 is a schematic plan sectional view according to line EE in Fig. 9, in which the earth anchor is installed.
11 is a schematic cross-sectional side view along the line FF of Fig.
12 is a schematic perspective view showing a state in which a wale stand is installed on the front surface of the earth retaining wall according to the present invention.
Fig. 13 is a schematic perspective view showing a state in which a wristband is installed subsequent to Fig. 12;
Fig. 14 is a schematic enlarged view of the circle G portion of Fig. 12 showing the wale cradle spanning the through-hole of the reinforcing steel plate.
15 and 16 are schematic cross-sectional views along the line KK of Fig. 14, respectively.
17 is a schematic perspective view of an earth retaining wall according to another embodiment of the present invention.
18 is a schematic plan sectional view according to line VV in Fig. 17, which is the position where the earth anchor is installed in the embodiment shown in Fig.
Fig. 19 is a schematic perspective view corresponding to Fig. 17 showing a state in which the earth retaining wall according to the present invention is additionally supported by a support material.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby. The pre-cast concrete pile according to the present invention is provided with a steel plate ("reinforcing steel plate") for reinforcement on the front surface. In the present specification, the precast concrete pile of the present invention having such a reinforcing steel plate is referred to as " Precast reinforced pile ".

1 is a schematic perspective view of a precast reinforced pile 1 according to a first embodiment of the present invention, and Figs. 2 and 3 show a precast reinforced pile 1 shown in Fig. A schematic perspective view showing the shape of the reinforcing steel assembly 2 and the installation shape of the reinforcing steel plate 3 is shown.

As shown in the drawing, the pre-cast reinforced pile 1 according to the present invention is a pile member preformed by concrete, and a reinforcing bar assembly 2 made up of a main steel bar 21 and a transverse reinforcing bar 22 is embedded in concrete And a reinforcing steel plate 3 for reinforcing is integrally provided on a surface ("front surface") opposite to a surface ("back surface") directly contacting the back surface soil.

The reinforcing bar assembly 2 to be embedded in the concrete of the precast reinforced pile 1 includes a plurality of cast iron rods 21 extending in the longitudinal direction of the pile and a transverse reinforcing bar 22 extending in the lateral direction of the cast iron rods 21 In contrast to the prior art, in the precast reinforced pile 1 of the present invention, the cast iron rope 21 is not laid on the front surface where the reinforcing steel plate 3 is installed and the rear surface opposite thereto. FIG. 4 is a schematic cross-sectional view of a precast reinforced pile 1 according to the present invention taken along the line AA of FIG. 1 in a longitudinal direction. As shown in the drawing, a plurality of cast iron rods 21 Is disposed on the circular cross section of the precast reinforced pile 1 at intervals along the circumference. Unlike the prior art, the front face on which the reinforcing steel plate 3 is installed and the back face opposite to the reinforcing steel plate 3 are provided with cast iron rods 21 ) Is not arranged in the concrete. As described later, in the present invention, the precast reinforcing pile 1 is vertically installed on the ground, and the reinforcing steel plate 3 is exposed by excavating the ground from the front surface of the precast reinforcing pile 1, The penetration of the "installation hole for the earth anchor" for the installation of the earth anchor in the rear soil erosion direction penetrates through the steel plate 3. Since the damage or cutting of the cast iron muscle 21 may occur during the drilling of the installation hole for the earth anchor, the reinforcement corresponding to the direction in which the hole for installing the earth anchor, that is, the direction in which the installation hole of the earth anchor is perforated The cast iron rope 21 is not disposed at the installation position of the steel plate 3 and the rear position facing the installation position.

 Since the reinforcement steel plate 3 is disposed at the tensile stress generating position of the precast reinforcing pile 1, that is, at the tensile side, the precast reinforcing pile 1 The reinforcing steel plate 3 further increases the flexural rigidity of the precast reinforcing pile 1 and reduces the amount of reinforcing steel due to the partial omission of the cast iron reinforcement 21, It has the advantage of cost saving.

The precast reinforcement pile 1 according to the present invention may be of a construction in which only a reinforcing bar assembly 2 made of a steel main bar and a steel bar is embedded in concrete without a tension member as shown in the figure, It may be the case that a tensile force is introduced by placing a tensile material in the longitudinal direction as in a general PHC pile of FIG. However, when the tension member is disposed in the longitudinal direction, the tension member may be damaged or cut in the drilling process, as in the case where a part of the cast iron root is omitted. Therefore, in the present invention, the reinforcement steel plate 3 The tension member is not disposed at the installation position of the battery and the rear surface position facing the installation position.

In manufacturing the precast reinforced pile 1 so as to have the reinforcing steel plate 3 and the reinforcing steel plate 3 with the above-described structure, a method of manufacturing a conventional PHC pile, that is, centrifugal molding may be used. Although not shown in the figure, a reinforcing steel plate (2) and a reinforcing steel plate (3) in a form in which the roots of the cast iron muscle are omitted on the front and back surfaces are disposed in a mold for manufacturing a general PHC pile, Casting the pre-cast reinforced pile 1 according to the present invention having the above-described structure. The reinforcing steel plate 3 and the reinforcing steel plate 3 may be individually positioned in the formwork. However, the reinforcing steel plate 3 may be previously positioned in the form of the reinforcing steel plate 3 while being integrally joined to the reinforcing steel assembly 2 by welding or the like . Of course, the method of manufacturing the precast reinforced pile 1 of the present invention is not limited thereto. The precast reinforcing pile 1 of the present invention may have a hollow structure as illustrated in the drawing, but is not limited thereto.

5 (a) and 5 (b) show the reinforcing steel plate 3 in which the through holes 30 are formed and the embedding stud 31 and the filling member 32 are provided, There is shown a schematic perspective view, with a schematic plan view according to line BB in FIG. 5, and a schematic lateral cross-sectional view in accordance with line CC in FIG. 5.

The reinforced steel plate 3 is a plate member made of steel, and is integrally formed with the concrete at the front surface of the precast reinforced pile 1. That is, the reinforcing steel plate 3 is exposed on the front surface of the precast reinforcing pile 1. [ This reinforcing steel plate 3 may be provided over the entire length of the precast reinforcing pile 1. [ The embedding stud 31 is provided on the back surface of the reinforcing steel plate 3 so that the reinforcing steel plate 3 can be firmly fixed to the concrete of the precast reinforcing pile 1. The embedding stud 31 is pre- The reinforcing steel plate 3 can be integrally installed in a form embedded in the concrete of the pile 1. [

 As described above, after the reinforcing steel plate 3 is exposed by the ground excavation, the perforation for the installation of the earth anchor is progressed from the front side through the reinforcing steel plate 3 in the direction of the back soil erosion. It is preferable that the reinforcing steel plate 3 is provided with a through hole 30 in advance. At this time, the through holes 30 may be formed in a plurality of intervals in the longitudinal direction of the precast reinforcing piles 1. [ As a matter of course, it is also possible to penetrate the reinforced steel plate 3 at the site when the earth anchor is installed without previously forming the through hole 30 as described later.

In the present invention, on the back surface of the reinforced steel plate 3 in which the through hole 30 is formed in the reinforced steel plate 3 or in which the through hole is to be formed, the concrete is directly contacted with the concrete of the precast reinforced pile 1 A removable "embedding filler member" 32 may be provided in advance so as to form a predetermined empty space, that is, a cavity. 5 to 7, at the position where the through hole 30 is formed or at the position where the through hole is to be formed later, the back surface of the reinforced steel plate 3, which is in direct contact with the concrete, (32) may be attached in advance.

The embedment filler member 32 is made of a material that can be dug and removed by the operation on the front surface of the reinforcing steel plate 3 through the through hole 30 as required, for example, a foam member called a styrofoam , Rubber, and the like. It is preferable that the embedment filling member 32 is larger than the size of the through hole 30. [ The embedment filling member 32 is previously attached to the back surface of the reinforcing steel plate 3 using an adhesive or the like. When the embedding filling member 32 of a size larger than the through-hole 30 is attached, It is preferable that the clearance portion (section indicated by L in Fig. 7) of the through-hole 32 is located below the through-hole 30. As described later, the buried filler member 32 is dug and removed to make an empty space. Then, through the through hole 30, the filler ring can be easily extended to the empty space from which the buried filler member 32 is removed It is for this reason. It is preferable that the edge of the surface directly adhered to the concrete at the upper and lower ends of the filler member 32 is chamfered as an inclined surface or a curved surface as indicated by a circle D in FIG. Such a chamfering structure helps the concrete to be poured tightly when the concrete of the precast reinforced pile 1 is poured in a state that the reinforcing steel plate 3 is provided with the buried filling member 32.

The reinforced steel plate 3 having the above-described construction, but the precast reinforced pile 1 having a hollow shape as shown in the drawing can be manufactured by a centrifugal molding method as in the case of manufacturing a conventional PHC pile . For example, in a state in which the reinforcing steel assembly 2 is manufactured so as to have the steel reinforcing bars 21 and the transverse reinforcing bars 22, and the reinforcing steel plate 3 is integrally bonded to the side surfaces of the reinforcing steel assembly 2, The pre-cast reinforced pile 1 of the present invention, that is, the reinforced steel plate 3, is integrally formed by centrifugal molding by rotating the form, placing the pre-cast reinforced pile 1, that is, the reinforced steel plate 3, The cast reinforcing pile 1 can be manufactured.

1 to 7, the reinforcing steel plate 3 is formed of a flat plate member, but the present invention is not limited thereto. The reinforcing steel plate 3 may be formed of a precast reinforcing pile 1, And a plate member bent to have a curvature in conformity with the circular cross section of the plate member. FIG. 8 is a schematic perspective view corresponding to FIG. 2 showing a precast reinforced pile having a reinforced steel plate 3 formed of a curved plate member as a precast reinforced pile according to a second embodiment of the present invention . The other constitutions of the reinforced steel plate 3 according to the second embodiment shown in Fig. 8 apply the same contents as described above. When preparing the precast reinforced pile 1 shown in Fig. 8, the centrifugal forming method can be used as described above. In this process, when the reinforcing steel plate 3 is integrally bonded to the reinforcing steel assembly 2 in advance, a separate crosslinking member is disposed between the reinforcing steel assembly 2 and the reinforcing steel plate 3, The reinforcing bars 3 and the reinforcing bars 2 or the transverse reinforcing bars 22 may be integrated with each other.

9 is a schematic perspective view showing a state where the earth retaining wall body 100 of the present invention is constructed and its front face is excavated using the precast reinforced pile 1 of the present invention, Sectional view taken along the line EE of FIG. 1, that is, a schematic plan sectional view at a position where the earth anchor 5 is installed. Fig. 11 is a schematic cross-sectional view taken along the line F-F of Fig.

In the earth retaining wall 100 according to the present invention, a plurality of piles are arranged in a row continuously in a transverse direction. Among the piles arranged in such a manner, the above-described precast reinforcing piles 1 of the present invention . As shown in the figure, piles are arranged in a row in a continuous manner in a form in which one or a plurality of general piles 200 are placed between precast reinforced piles 1, It can be. Although not shown in the drawings, the pre-cast reinforced piles 1 of the present invention may be continuously arranged so that their side surfaces are in contact with each other to form the earth retaining wall body 100, and a plurality of piles may be continuously arranged in a row The reinforcing piles 1 of the present invention may be continuously arranged in a plurality of sections such that their side surfaces are in contact with each other.

The general pile 200, which is heat-set together with the precast reinforced pile 1 of the present invention to form the earth retaining wall 100 of the present invention, may be pre-manufactured at a factory like a PHC pile, And may be a field-applied pile made of concrete or the like by drilling the ground in the field. Of course, the PHC pile and field installed pile may be mixed as a common pile 200. Further, the general pile 200 may be a steel pipe pile.

The precast reinforced pile 1 according to the present invention is formed by piling the ground and inserting the precast reinforced pile 1 into the perforated hole, It can be installed vertically. That is, in the present invention, there is no particular restriction on the method of vertically penetrating and installing the precast reinforced pile 1 on the ground, and various known methods can be used.

The pre-cast reinforced pile 1 of the present invention is inserted into the ground either singly or together with a pile to build up the retained wall body 100, and the front partial ground of the retained wall body 100 is then excavated, An earth anchor 5 is installed on the precast reinforced pile 1 in order to expose the front surface of the retaining wall 100 and improve the bearing capacity of the precast reinforced pile with respect to the back earth pressure. For reference, in the present invention, the term "earth anchor" installed to improve the bearing capacity of the precast reinforced pile with respect to the earth soil pressure should be understood to include a soil nail, a rock bolt, and the like.

Specifically, when the ground of the front portion of the retaining wall 100 is excavated and the through hole 30 of the reinforcing steel plate 3 is exposed to the front surface of the retaining wall 100, the through hole 30 The anchor installation hole 50 is drilled in order to install the earth anchor in the rear soil erosion direction. As described above, when the through hole 30 is formed in advance in the reinforcing steel plate 3 provided on the precast reinforced pile 1 of the present invention, the perforator can be easily moved in the rear soil erosion direction through the through hole 30 I will be able to advance. Particularly, in the case where the filler member 32 is provided on the back surface of the reinforcing steel plate 30 at the forming position of the through-hole 30, the presence of the filler member 32 causes the pre- Since the thickness of the concrete portion is somewhat reduced, the perforator can penetrate the precast reinforced pile 1 very easily and advance in the direction of soil backlash so that the installation hole 50 can be drilled.

In particular, when the perforator penetrates through the precast reinforcing pile 1 and advances in the direction of the soil slurry, the excavation of the precast reinforcing pile 1 and the advantageous . As described above, in the precast reinforced pile 1 of the present invention, the cast iron rope 21 is not laid at the position where the through hole 30 of the reinforcing steel plate 3 is formed and the position of the rear face facing the through hole 30, The position where the reinforcement of the main reinforcement 21 is omitted is the position where the through hole 30 of the reinforcement steel plate 3 where the earth anchor installation hole 50 is formed is formed and the position No tension is placed in the position. Therefore, in the course of penetrating the precast reinforced pile 1 while advancing the perforator in the direction of the soil slurry through the through hole 30 of the reinforced steel plate 3, there is no occurrence of cutting or damaging of the cast iron rope or the tension material by the perforator I will not. Therefore, the installation hole for the earth anchor 5 can be perforated in the form of a very easy and minimized damage to the structural function of the precast reinforced pile 1.

When the through-hole drilling operation of the installation hole is completed, the earth anchor is inserted and fixed to the installation hole using a general earth anchor installation method, and the end portion of the earth anchor exposed to the outside is fixed to the front surface of the reinforcement steel plate 3. By the provision of the earth anchor 5, a strong supporting force is generated in the back-to-back direction of the precast reinforcing pile 1, and thus the overall supporting force and stability of the earth retaining wall 100 with respect to the back earth pressure are greatly improved.

In order to further reinforce the supporting force of the earth retaining wall 100, a wale band 6 composed of a beam member which is elongated in the transverse direction may be further provided. In the present invention, 6, it is possible to install the strap holder 60 very easily. 12 is a schematic perspective view showing a state in which a wale stand 60 is installed on the front surface of the earth retaining wall 100 according to the present invention. Fig. 13 shows a state in which a wale 6 is installed after Fig. 12 Is shown in a schematic perspective view. Fig. 14 is a schematic enlarged view showing in detail a portion of the circle G in Fig. 12, that is, a portion of the reinforcing steel plate 3 that extends over the through hole 30 of the wale platform 60. Figs. 15 and 16 15 shows a state in which a part of the filling member 32 is removed through the through hole 30 before installing the wale cradle 60 in the state shown in Fig. FIG. 16 shows a state in which the belt filler member 32 is installed over the bandage holder 60 after a part of the filler member 32 is removed.

As shown in the figure, when a wale band 6 composed of a beam member extending in the transverse direction is installed on the front surface of the earth retaining wall 100, first, the wale band rest 60 ) Must be installed. The strap holder 60 includes a horizontal holder 61 and a vertical holder 62 on which the welt 6 is placed. A hook 63 is formed at the upper end of the vertical holder 62 in the backward direction.

A part of the filling filler member 32 is removed through the through hole 30 of the reinforcing steel plate 3 as shown in Fig. Since the embedding filler member 32 is made of a material that can be easily removed and removed like styrofoam, it is possible to prevent the embedding filler member 32 from being attached to the back surface of the reinforcing steel plate 3 through the through- A part of the embedded filler member 32 is removed and removed. As described above, the embedment filling member 32 has a larger size than the through-hole 30. In this case, when the embedment filling member 32 is attached to the reinforcing steel plate 3, The buried filler member 32 located below the through hole 30 is preferably formed at the lower side of the through hole 30 when the buried filler member 32 is to be disposed for the installation of the wale platform 60. [ So that it can be removed. As a part of the buried filler 32 existing on the backside of the reinforcing steel plate 3 is removed from the lower side of the through hole 30, an empty space is created.

The belt strap holder 60 is provided on the front surface of the reinforcing steel strip 3 so that the latch strap 63 is extended over the through hole 30 so that the vertical strap 62 is brought into close contact with the front surface of the reinforcing steel strip 3 In this process, since the hooking ring 63 can be positioned in the empty space formed by the removal of the filling and filling member 32, the installation of the wale-type holder 60 is very easy. That is, when the retaining ring 32 of the retaining member 32 is pierced and removed, the retaining ring of the retaining band 60 is hooked to the reinforcing steel plate 3 through the through hole 30, It is possible to easily place the engaging ring 63 on the through hole 30 and thus to perform the troublesome and unfavorable work such as welding which damages the reinforcing steel plate It is possible to install the wale stand 60 in a quick and stable manner without performing the operation of the wale stand 60.

The wale band 6 is firmly installed by placing the wale band 6 on the horizontal holder 61 of the wale band holder 60 after the wale band holder 60 is installed. Since the reinforcing steel plate 3 is provided in the earth retaining wall 100 of the present invention, the welt 6 placed on the welt holder 60 is joined to the reinforcing steel plate 3 by welding, Can proceed very easily and quickly.

In the above description, the earth anchor 5 is installed and reinforced on the precast reinforced pile 1, and the wale band 6 is installed by installing the wale band rest 60. However, if necessary, The earth retaining wall 100 of the present invention can be applied to both of the above-mentioned reinforcement by the earth anchor 5 and the reinforcement by the wale 6. 17 shows a schematic perspective view of the earth retaining wall 100 according to another embodiment of the present invention in which both the earth anchor reinforcing and the welt reinforcing are applied, There is shown a schematic plan section view according to line VV in Fig. 17, which is the position where the earth anchor is installed in the embodiment.

17 and 18, the earth anchor installation hole 50 is pierced through the reinforced steel plate 3 in the rear surface soil erosion direction through the front surface of the precast reinforced pile 1 in the above-described manner, The wale band 6 is installed on the front surface of the reinforcing steel plate 3 at the position where the earth anchor installation hole 50 is drilled, that is, at the position where the earth anchor 5 is to be installed, The earth anchor 5 is fixed by penetrating the earth anchor 5 through the earth anchor 6 and fixing the end of the earth anchor 5 to the front surface of the wale 6 to construct the earth anchor 5, The wall 100 can be reinforced by the wale 6 in addition to being reinforced by the earth anchor 5.

Fig. 19 is a schematic perspective view corresponding to Fig. 17 showing a state in which the retaining wall body 100 is additionally supported by the support members 9. Fig. As shown in FIG. 19, a beam-like support 9 may be horizontally disposed at the end of the excavating space in the front surface of the earth retaining wall 100 according to the present invention so that the end of the support 9 is in close contact with the wale 6, The stability of the earth retaining wall body 100 with respect to the back earth pressure can be further improved by supporting the earth retaining wall body 100 by the support wall 9.

As described above, the earth retaining wall 100 of the present invention includes a precast reinforcing pile 1 having a reinforcing steel plate 3, and an earth anchor 5 is attached to the precast reinforcing pile 1 There is an advantage that a large supporting force and a high stability are exhibited with respect to the back earth pressure. Particularly, the present invention has an advantage that the earth anchor 5 can be installed very quickly and easily on the precast reinforced pile 1. [

Further, in the present invention, when the buried filler member 32 is installed on the back surface of the reinforcing steel plate 3 of the precast reinforced pile 1 and the wale platform 60 and the wale band 6 are installed, It is possible to perform the operation of installing the strap holder 60 over the strap holder 60 very easily and quickly.

1: Precast reinforced piles
2: Reinforcement assembly
3: Reinforced steel trial
5: Earth anchor
6: Wale
30: Through hole
31: embedded stud
32:
60: Wrist strap

Claims (9)

1. An earth retaining wall body (100) comprising a plurality of piles arranged in a row at intervals in a lateral direction,
The pile is provided with a reinforcing steel assembly 2 composed of a main steel reinforcing bar 21 and a transverse reinforcing steel 22 embedded in concrete and a precast precast reinforced steel plate 3, A reinforced pile (1) is included;
In the precast reinforced pile (1), the cast iron (21) is not laid on the front face where the reinforcing steel plate (3) is installed and the rear face opposite thereto;
The reinforcing steel plate (3) is previously provided with a through hole (30) through which the earth anchor (5) can pass;
At the position where the through hole 30 is formed, the back surface of the reinforcing steel plate 3, which is in direct contact with the concrete, is provided with an embedding filling member 32 of a thickness that is removable by a piling method;
The embedment filler member 32 is larger than the size of the through hole 30 and the filler member 32 is placed on the upper side of the reinforcing steel plate 3 so that the margin portion of the embedment filler member 32 is located below the through hole 30. [ ) In advance;
The front partial ground of the retaining wall 100 is excavated so that the reinforcing steel plate 3 of the precast reinforcing pile 1 is exposed to the landfill 30 through the through- 32 and the precast reinforced pile 1 and the earth anchor 5 is provided on the back soil gravel so that the support force of the earth anchor 5 is exerted;
The reinforcing steel plate (3) is provided with a welt holder (60);
A wale band 6 made up of a beam member extending in a transverse direction is placed on the wale platform 60 to be laterally coupled to the front surface of the pile constituting the wailing wall 100;
The wale cradle 60 includes a horizontal cradle 61 in which the cords 6 are placed, a vertical cradle 62, and a cradle 63, which is bent in the backward direction from the top of the vertical cradle 62, And a configuration including:
The hooking ring 63 is placed over the through hole 30 formed in the reinforcing steel plate 3 so that the vertical holding plate 62 of the wale seating rest 60 is brought into close contact with the front face of the reinforcing steel plate 3, The wale platform (60) is installed on the front face of the reinforcing steel plate (3);
The buried filler member 32 located below the through hole 30 in the buried filler member 32 existing on the back surface of the reinforced steel plate 3 at the lower position of the through hole 30 is punched out So that a hooking ring 63 is stretched in the hollow space in a state where a hollow space is formed below the rear surface of the through hole 30;
The wale cradle (60) and the wale band (6) are installed at a position where the earth anchor (5) is to be installed;
After the wale cradle 60 and the wale 6 are installed on the front face of the earth retaining wall, the earth anchor 5 penetrates the wale 6 and is installed on the backing gravel;
Wherein an end of the earth anchor (5) is fixed to the front surface of the wale band (6).
delete delete delete A method of constructing an earth retaining wall (100) by providing a plurality of piles on a ground so that the plurality of piles are arranged in a row at intervals in the lateral direction, thereby constructing the earth retaining wall body (100)
The pile is provided with a reinforcing steel assembly 2 composed of a main steel reinforcing bar 21 and a transverse reinforcing steel 22 embedded in concrete and a precast precast reinforced steel plate 3, A reinforced pile (1) is included;
In the precast reinforced pile (1), the cast iron (21) is not laid on the front face where the reinforcing steel plate (3) is installed and the rear face opposite thereto;
The reinforcing steel plate (3) is previously provided with a through hole (30) through which the earth anchor (5) can pass;
At the position where the through hole 30 is formed, the back surface of the reinforcing steel plate 3, which is in direct contact with the concrete, is provided with an embedding filling member 32 of a thickness that is removable by a piling method;
The embedment filler member 32 is larger than the size of the through hole 30 and the filler member 32 is placed on the upper side of the reinforcing steel plate 3 so that the margin portion of the embedment filler member 32 is located below the through hole 30. [ In advance;
A plurality of piles including the precast reinforced piles 1 are installed in the ground to construct the earth retaining wall 100 and then the front partial ground of the retaining wall 100 is excavated to reinforce the precast reinforcing pile 1 Exposing the steel plate 3;
The earth anchor 5 is installed on the rear soil gravel so as to penetrate the buried filling member 32 and the precast reinforcing pile 1 through the through hole 30 from the front surface to the rear soil erosion direction, A supporting force by the anchor (5) is applied;
A wale bandstand 60 is provided on a reinforced steel plate 3 and a wale band 6 composed of a beam member extending in a transverse direction is placed on the wale bandstand 60 so as to be horizontally disposed on the front surface of the pile of the earthquake wall body 100 .
The wale cradle 60 includes a horizontal cradle 61 in which the cords 6 are placed, a vertical cradle 62, and a cradle 63, which is bent in the backward direction from the top of the vertical cradle 62, And a configuration including:
The hooking ring 63 is placed over the through hole 30 formed in the reinforcing steel plate 3 so that the vertical holding plate 62 of the wale seating rest 60 is brought into close contact with the front face of the reinforcing steel plate 3, The wale platform (60) is installed on the front face of the reinforcing steel plate (3);
The buried filler member 32 located below the through hole 30 in the buried filler member 32 existing on the back surface of the reinforced steel plate 3 at the lower position of the through hole 30 is punched out So that a hooking ring 63 is stretched in the hollow space in a state where a hollow space is formed below the rear surface of the through hole 30;
The wale cradle (60) and the wale (6) are installed at a position where the earth anchor (5) is to be installed;
The earth anchor 5 is installed on the back surface soil after passing through the wale 6 and the end of the earth anchor 5 is wound around the wale band 6 6). ≪ RTI ID = 0.0 > 8. < / RTI > delete delete delete delete

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