KR101932626B1 - Retaining wall with connection structure of inclined piles and its construction method - Google Patents

Abstract

The present invention relates to an attached wall type retaining wall embedded with a frame. The present invention is characterized in that an anterior pile (11) and a posterior pile (12) are slantingly connected to a deep a longitudinal member (20), and a pressing plate (30) is press-fitted to the outside with a steering plate (40) inserted between the pile and the longitudinal member (20). Therefore, it is possible to firmly bond the pile to the longitudinal member (20) while freely adjusting inclination of the pile. According to the present invention, it is possible to improve supporting force, self-supporting property and structural stability of an inclined pile connection structure built in the attached wall type retaining wall, and it is possible to reduce a construction cost and ensure workability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retention wall having a pile-

The present invention relates to a combined wall retaining wall having a frame, wherein a heat transfer pile (11) and a post heat pile (12) are slantingly connected to a longitudinal pile (20), and between the piles and the longitudinal pile The pile 30 can be tightly coupled with the pile 30 while the pile 30 can be freely tilted.

The retaining wall is constructed on the steep slope so as to resist the earth pressure of the back ground. The double wall retaining wall which can be constructed without pre-excavation is equipped with a plurality of piles arranged along the flat linear shape of the retaining wall, have.

The pile arrangement body embedded in the combined wall retaining wall may be inclined to secure the earth pressure and the resistance to conduction. In the course of the construction process, the upper end of the pile arrangement body temporarily exposed to the ground is arranged along the plane linear shape of the structure So that the supporting force and the stability can be doubled. In the related art, Patent No. 1821342 is exemplified.

In the conventional pile arrangement body including the patent No. 1821342, piles arranged adjacent to the steep slope are arranged on the front side, and piles which are inclined in the back ground of the slope are arranged on the rear side, and the wales, which are horizontal members installed on the ground, And the upper end of the pile is connected to a hinge.

That is, the front and rear piles are inclined, and the upper end of the pile is connected to the ground by a hinge so as to construct an A-shaped structure on the side surface. Thus, the self-supporting property is superior to the simple standing type pile, .

However, since the conventional pile arrangement body is connected to the upper end of the pile through a pre-fabricated hinge, various problems are involved as follows.

First, it is necessary to precisely pre-process the fastening point between the hinge and the ground belt as well as between the hinge and the upper end of the pile, so that complicated preliminary factory work is required and the cost of material production can not be increased. Inevitably, There is a problem that further processing is required.

Particularly, in the course of the inclining type of the pile, not only the inclination of the center line of the pile but also the position on the plane and the side of the ground exposed point can not be tolerated. However, due to the characteristics of the hinge, There is a fundamental limit that can not sufficiently cope with the fluctuation of the position on the plane and the side surface.

Further, since the upper end connecting point of the A-shaped standing up structure is constituted by the hinge, there is a problem inherent in the inherent structure, and there is a problem that a separate fixing means must be installed to solve or supplement it.

That is, as the upper end of the pile arrangement is connected to the hinge, it is basically impossible to resist the moment acting on the upper end of the pile, and due to the earth pressure acting on the lower part of the pile, If a horizontal force or an external force is applied to the bottom of the pile, the inclination angle of the pile fluctuates and the upright property is damaged and the bearing capacity is weakened.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a retaining wall incorporating a pile connecting structure in which a plurality of pile upper ends are coupled to a horizontal member, The upper surface of the heat transfer pile 11 and the upper end of the post heat pile 12 are connected to the longitudinally positioned pivot member 20. The one surface of the pivot shaft 11 is in close contact with the front surface of the longitudinal pivot member 20, The steering column 40 is coupled to the other surface of the longitudinally extending column 20 so that the inclined surface of the steering column 45 is in close contact with the rear surface of the slab surface of the heat transfer pile 11, Wherein the slant pile connection structure is characterized in that the slant pile connection structure is characterized in that the slant pile connection structure is characterized in that the slant pile connection structure is characterized in that the slant pile connection structure is characterized in that the slant- It is a built-in retaining wall.

Further, in the retaining wall in which a plurality of pile upper ends are coupled to a horizontal member, the pile connection structure is embedded in the retaining wall, and the heat transfer piles 11 on the slope front side and the post heat piles 12 on the slope rear side are installed side- A steering column 45 having a slope formed on the rear side of the column balance material 20 is coupled to the other side of the column 10 and the upper ends of the piles 11 and the post- A push plate 30 is provided which is in close contact with a slope front side surface of the longitudinal pivot member 20 in a state in which the inclined surface of the steering piece 45 is in close contact with the slope front side surface of the post- And a compression plate 30 which is in close contact with the slope rear surface of the post-heat pile 12 is pinched by a screw rod 50. As shown in FIG.

Also, in the method of constructing the retaining wall having the inclined pile connection structure, the heat transfer pile 11 and the post heat pile 12 are installed in the planning point, and the upper and lower heat piles 11, The method according to any one of claims 1 to 3, further comprising the steps of: clamping the shim pile (20); drilling the front side ground of the heat transfer pile (11); and pouring and curing concrete on the front side of the heat transfer pile Is a construction method of a retaining wall with built-in structure.

In the method of constructing the retaining wall with the inclined pile connection structure, a separating plate 61 protruding rearward is formed on the back surface of the heat transfer pile 11, and a heat transfer pile 11 and a post heat pile (11) and the upper end of the post heat pile (12) and the longitudinal center pile (20) by drilling the front side ground of the heat transfer pile (11) And a concrete pouring and curing step on the front side of the earth plate 19. The method for constructing the retaining wall having the inclined pile connecting structure according to the present invention is characterized by comprising the steps of:

According to the present invention, it is possible to enhance the supporting force, self-supporting property and structural stability of the inclined pile connection structure built in the combined wall retaining wall, and it is possible to reduce the construction cost and ensure the workability.

Particularly, it is possible to connect the upper end of the heat-transfer pile 11 and the upper end of the post-heat pile 12, which constitute the inclined pile connection structure, with the longitudinal bulkhead 20, The plate 40 is strongly pressed through the pressing plate 30 and the screw rod 50 so that it is possible to perform a complicated assembling work with an extremely simplified part as well as without any processing accompanied by modification of the material such as welding Strong junctions between members are possible.

Figure 1 is a schematic cross-
Fig. 2 is a perspective view
Fig. 3 is a perspective view of a cut-
Fig. 4 is an exploded perspective view of the frame of the present invention
Fig. 5 is a view showing the steering plate operation explanatory diagram
Fig. 6 is an illustration of an example of a tying method between the compression plate and the screw rod of the present invention
FIG. 7 is a view illustrating a construction process of the present invention
FIG. 8 is a perspective view of a cutaway rear perspective view of an embodiment of the present invention,
FIG. 9 is a schematic cross-

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic sectional view of a retaining wall to which the present invention is applied. As shown in FIG. 1, a post-heat pile 12 is embedded in the back wall of the retaining wall of the present invention, Wall retaining wall.

That is, in the present invention, the heat-transfer pile 11 and the post-heat pile 12 are used as a soil wall supporting the back wall of the retaining wall when the retaining wall is constructed, and the heat-transfer pile 11 is embedded as a reinforcing material of the retaining wall. The concrete structure is constructed on the front side of the heat transfer pile 11 and the concrete is laid and cured to form a retaining wall in a state where the back ground of the retaining wall is maintained through the earth wall without additional excavation.

FIG. 2 is a perspective view illustrating a frame of a retaining wall according to the present invention. As shown in FIG. 2, the frame of the present invention is composed of a longitudinal member 20, which is a linear horizontal member, The pile 11 and the post heat pile 12. The pile 11 and the post heat pile 12 are connected to each other by the compression plate 30 and the steering plate 40 And a screw rod 50 are applied.

In the embodiment shown in FIG. 2, the longitudinal members 20, the heat-transfer piles 11 and the post-heat piles 12 are applied to the structural members 20, 20 and 20, The heat transfer pile 11 and the post heat pile 12 are alternately repeated and bound together along the longitudinal member 20.

As described above, in the present invention, the longitudinal centering member 20 is set as a horizontal member that follows the planar linear shape of the planned retaining wall, but the exciting horizontal direction is not limited to the exact horizontal perpendicular to the gravity direction, ) Or the post-heat pile 12 and intersect with the post-heat pile 12. In actual structures, slopes of various directions and shapes may be formed at the front view, that is, at the time of looking at the slope.

That is, as shown in FIG. 2, the frame structure embedded in the retaining wall of the present invention is a pile connecting structure to which a plurality of heat transfer piles 11 and a top end of the post heat pile 12 are connected to a longitudinal member 20, And the upper end of the heat-transfer pile 11 and the upper end of the heat-transfer pile 12 are connected to each other in the longitudinal direction of the longitudinal member 20 And the heat transfer pile 11 and the post heat pile 12 form an A-shape on the side surface.

Here, the inclination of the heat-transfer pile 11 and the post-heat pile 12 is formed such that the upper end of the heat-transfer pile 11 is located on the rear side of the slope and the lower end is located on the front side of the slope , And the posterior pile (12) has an inclination opposite to that of the heat-transfer pile (11) on the side, and the upper end is located on the front side of the slope and the lower end is formed on the rear side of the slope. 20 is not limited to the inclined form in which the heat-transfer pile 11 and the post-heat pile 12 are perfectly symmetrical.

As described above, the frame to be applied to the present invention is a pile connecting structure in which a plurality of pile upper ends are coupled to a horizontal member, and a heat transfer pile 11 on the front side of the slope and a rear pile 12 on the rear side of the slope face each other The upper end of the heat-transfer pile 11 and the upper end of the heat-transfer pile 12 are connected to the longitudinal member 20 so as to form an A-shape on the side, Or an inclination may be formed on the heat-transfer pile 11 or the heat-transfer pile 12. In this case,

3 and 4, the one surface is in close contact with the oblique front side surface of the billet screen 20, the other surface is formed with the fixing wall 41 protruding, and the fixing wall 41 is formed with the steering The steering plate 40 to which the piece 45 is coupled is provided and the slope of the steering piece 45 is in close contact with the slope rear surface of the heat transfer pile 11, A pressing plate 30 which is attached to the side surface in a direction orthogonal to the longitudinal member 20 and a pressing plate 30 which is in close contact with the heat transfer pile 11 in a direction perpendicular to the slope front surface of the heat transfer pile 11, (50).

The fixed wall 41 is provided on the other side with a steering member 45 having an inclined surface formed on its outer surface. The longitudinal member 20 is provided on the slope front side surface of the longitudinal member 20 in a state in which the inclined surface of the steering piece 45 is in close contact with the slope front surface of the posterior pile 12, And a pressing plate 30 which is in close contact with the rear pile 12 in a direction orthogonal to the rear pile 12 is pressed by a screw rod 50 to the rear side of the slope of the rear pile 12, It is bound.

FIG. 4 illustrates a coupling structure between the heat transfer pile 11 and the longitudinal pile 20 of the present invention, and the same method can be applied between the posterior pile 12 and the longitudinal pile 20 as well.

3 and 4, when the heat transfer pile 11 is inclined with respect to the vertical direction, the back surface of the heat transfer pile 11, that is, the rear surface of the slope, and the front surface of the longitudinal member 20, A stiffening plate 40 is inserted between the slope front side surfaces to adjust the angle between the two slides and to insert and stay in the spacing space to form and maintain a close contact state.

When the posterior pile 12 is inclined with respect to the vertical direction, the front surface of the posterior pile 12, that is, the front surface of the slope, and the rear surface of the longitudinally centering member 20, And the steering plate 40 inserted into the spacing space to form and maintain a close contact state is inserted.

The steering plate 40 is composed of a plate member which is in close contact with the longitudinal centering member 20 and a fixing wall 41 that protrudes outward from the other surface of the close contact surface. A rear surface of the heat transfer pile 11 is seated on an inclined surface formed on the outer side of the steering piece 45. The rear heat pile 12 and the longitudinal pivot member 20 When the steering plate 40 is inserted, the front surface of the rear pile 12 is seated on the inclined surface of the steering piece 45.

In the illustrated embodiment, two rows of two fixing walls 41 are formed in the steering plate 40, and a steering member 45 is inserted and coupled between the two fixing walls 41 of each row. Since the fixing holes 41 are formed in the fixing wall 41 and the fixing holes 45 are formed in the fixing hole 45 and the fixing pins can be fixed to the fixing holes 41, It is not necessary.

In addition, since the post-heat pile 12, which forms the A-shaped side surface with the heat transfer pile 11 and is connected to the longitudinal pivot member 20, is firmly inserted into the slope back ground, an additional slope stabilizing stiffener such as an anchor and a pivot plate is omitted or reduced It is possible to impart excellent structural stability to the finished retaining wall.

As described above, in the process of penetration of the heat transfer pile 11 and the post heat pile 12 in the ground, an error occurs only in the plane and the lateral position as well as the inclination of the pile. 5, by applying the steering plate 40 to which the steering piece 45 is coupled, it is possible to flexibly cope with the inclination and the positional variation.

4, the steering piece 45, which is coupled between the fixing walls 41 of the steering plate 40, is provided with a vertical surface on the side of the longitudinal member 20 and an inclined surface on the other side A steering column 45 having a horizontal width and a slant angle different from each other may be alternatively applied in the field or a steep slope may be formed by cutting the steering column 45 in situ, It is possible to freely and easily adjust the inclination and the position of the post heat pile 11 or the post heat pile 12.

In the state where the steering plate 40 is inserted between the longitudinal member 20 and the upper end of the heat transfer pile 11 or between the longitudinal member 20 and the upper end of the post heat pile 12, It is possible to construct a rigid structure by strongly pressing between the bottom plate 11 and the bottom plate 20 and the post-heating pile 12. This pressing can be achieved by pressing the pressing plate 30 and / Can be accomplished through the threaded rod 50.

The compression plate 30 may be a small-sized steel pipe, a steel pipe or a steel bar having a length exceeding the width of the heat transfer pile 11, the post heat pile 12 and the longitudinal piercing member 20, And a nut is fastened in a state where the screw rod 50 is coupled to the through hole.

4, a pair of compression plates 30 are installed in close contact with each other in the vertical direction on the back surface of the longitudinal member 20 and the front surface of the heat transfer pile 11 A pair of compression plates 30 are horizontally tightly installed, and a total of four kneading rods 50 are coupled and fastened to the through holes of the front and rear compression plates 30.

A pair of compression plates 30 are provided in close contact with each other in the vertical direction on the front surface of the longitudinal center pit 20 in the binding between the posterior pile 12 and the longitudinal pit 20, A total of four threaded rods 50 are coupled to and fastened to the through holes of the front and rear pressing plates 30 in this case as well.

3, in a state where the heat transfer pile 11 or the post heat pile 12, the steering plate 40 and the longitudinal pivot member 20 are compressed through the compression plate 30 and the screw rod 50, When the nut is tightened by tightening the nut at the distal end of the screw 50, an axial tensional force is created in the screw rod 50 and both ends of the screw rod 50 are pressed against the heat transfer pile 11 or the post heat pile 12 and the longitudinal member 20 A strong frictional force is generated between the contact surfaces of the heat transfer pile 11, the steering plate 40 and the longitudinal pivot member 20 and the contact surfaces of the post heat pile 12, the steering plate 40 and the longitudinal member 20 So that the overall configuration is strongly strong and structurally integrated.

In particular, unlike the prior art, since the inclination can be formed on the heat-transfer pile 11 or the post-heat pile 12 even when the hinge is excluded, it is possible to effectively resist the moment acting on the pile, Can be improved.

4, the pressing plate 30 which is in close contact with the longitudinal centering member 20 and the pressing plate 30 which is in close contact with the heat transfer pile 11 or the post heat pile 12 are the same The pressing plate 30 of the present invention can be applied. In constructing the frame of the present invention, the auxiliary material except for the longitudinal member 20, the heated pile 11, and the posterior pile 12, which are structural members, The pressing plate 30, the screw rod 50, and the steering plate 40 can be simplified, and the manufacturing cost of the material can be remarkably reduced.

5, the inclination of the heat transfer pile 11 or the post heat pile 12 can be easily adjusted by replacing the steering piece 45 coupled to the steering plate 40. In this case, A gap may be formed between the front surface of the heat transfer pile 11 and the pressing plate 30 or between the back surface of the rear heating pile 12 and the pressing plate 30. [

However, in the present invention, the inclination formed on the heat transfer pile 11 or the post heat pile 12 is slightly inclined less than 30 degrees with respect to the vertical line in a general situation, The diameter of the hole formed in the pressing plate 30 is slightly larger than the diameter of the threaded rod 50 or the nut is fastened to the threaded rod 50 3 and 4, the pressure plate 30 and the heat-transfer pile 11 may be formed as shown in FIGS. 3 and 4 so as to form a solid and stable close contact structure. However, And an auxiliary plate 59 having a wedge-shaped cross section is inserted between the pressing plate 30 and the rear surface of the post-heat pile 12.

A nut is fastened to the screw rod 50 coupled to the pushing plate 30 so that the screw 50 is fastened in the final stage immediately before the fastening. It is possible to easily insert or replace the auxiliary plate 59 of the first embodiment.

6 shows a further example of binding between the compression plate 30 and the screw rod 50 which can be applied in the present invention. As shown in the figure, when the compression plate 30 is disposed between the heat transfer piles 11 Or the auxiliary plate 59 may be coupled between the compression plate 30 and the nut in a state of being directly in contact with the post-heat pile 12. [

7 is a view showing a construction process of a retaining wall of the present invention, that is, a combined wall type retaining wall in which the aforementioned frame is embedded. As shown in FIG. 7, The heat transfer pile 11 and the post heat pile 12 are inserted into the heat transfer pile 11 and the upper end of the heat transfer pile 11 and the longitudinal pile 20 are connected to each other.

Here, the step of excavating the front side ground of the heat-transfer pile 11 is performed. Here, the heat-transfer pile 11 can be utilized as a framework of the soil wall supporting the back ground. As shown in FIG. 7, The soil plate is joined.

When the excavation of the front cut-out portion is completed, a step of constructing the wall body 60 by placing and curing concrete on the front side of the heat-transfer pile 11 is performed to complete the retaining wall to which the present invention is applied. 7 and FIG. 1, additional reinforcing soil may be formed on the upper side of the heat transfer pile 11 and the post heat pile 12, and a drainage passage may be installed .

Particularly, when the retaining wall itself has sufficient supporting force, the retaining wall main body may be completed and then the rear wall 12 may be pulled out and reused.

8 and 9 illustrate an embodiment in which a separation plate 61 is bonded to the back surface of the heat transfer pile 11 and a soil plate 19 is installed on the rear side of the separation plate 61, It is possible to impart a covering thickness to the rear side concrete of the heat transfer pile 11 embedded in the wall body 60. [

7, the earth plate 19 has a role of inhibiting collapse of the back ground during excavation of the front side ground of the heat transfer pile 11, and a function of suppressing the collapse of the concrete constituting the wall 60 Since the soil plate 19 is forced to adhere to the back surface of the heat transfer pile 11, the back surface of the concrete wall body 60 and the heat transfer pile The back surface of the heat transfer pile 11 comes into direct contact with the back ground even after the wall 60 is completed.

That is, the back surface of the heated pile 11, which is a steel reinforcing material embedded in the concrete wall 60 constituting the retaining wall of the present invention, is exposed to the soil and ground water constituting the back ground, Durability and stability as compared with other concrete structures in which the concrete covering thickness surrounding the reinforcing material is ensured.

8, in the back surface of the heat-transfer pile 11, a plate 61 protruding rearward is formed as a plate 61 parallel to the heat-transfer pile 11, So that the thickness of the concrete covering can be ensured even in the rear side portion of the wall body 60 by allowing the earth plate 19 having the role to be separated from the back surface of the heat transfer pile 11 which is a reinforcing material of the wall 60.

In this embodiment of the separating plate 61, the separating plate 61 is joined to the back surface of the heat-transfer pile 11 by welding or screw tightening or the like. As shown in FIG. 9, So that the heat transfer pile 11 can be completely covered with concrete.

8 and 9, a support plate 62 having an L-shaped cross section is joined to the flange of the heat transfer pile 11, and a plurality of insertion holes 63 are formed in the support plate 62, The reinforcing effect on the wall 60 can be enhanced by inserting and mounting the horizontal reinforcing bars 64 in the insertion holes 63. [

In the embodiment of the separating plate 61, the heat-transfer pile 11 and the post-heat pile 12 are installed at the planning point and the upper end of the heat-transfer pile 11 and the upper end of the post- A step of inserting the earth plate 19 in the rear of the separating plate 61 is carried out by excavating the front side ground of the heat transfer pile 11 so that the earth wall is constructed and at the same time, A rear side mold for constructing a rear side mold is constructed.

When the front side ground excavation of the heat-transfer pile 11 is completed, the concrete is placed and cured on the front side of the earth plate 19 to complete the retaining wall of the present invention.

11: Heat Pile
12: post heat pile
19: Toilets
20: Height
30: pressure plate
40: steering plate
41: Fixed wall
45: steering wheel
50: Nasaebong
59: Auxiliary plate
60: Wall
61:
62: Support plate
63; Insert ball
64: horizontal reinforcement

Claims (4)

A retaining wall in which a pile connecting structure in which a plurality of pile upper ends are coupled to a horizontal member,
The heat transfer pile 11 on the slope front side and the post heat pile 12 on the rear side of the slope side are mutually inclined and the upper ends of the heat transfer pile 11 and the post heat pile 12 are connected to the trimming material 20 ;
And a fixing wall 41 is formed on the other surface of the fixing plate 40 and a steering member 45 having an inclined surface formed on the outer side is coupled to the fixing plate 40 ) Is installed;
A pressing plate 30 which is brought into close contact with a slope rear surface of the longitudinal billet 20 in a state in which the inclined surface of the steering piece 45 is in close contact with the slat rear surface of the heat transfer pile 11, ) Is press-coupled with a screw rod (50). The retaining wall has a built-in inclined pile connection structure.
A retaining wall in which a pile connecting structure in which a plurality of pile upper ends are coupled to a horizontal member,
The heat transfer pile 11 on the slope front side and the post heat pile 12 on the rear side of the slope side are mutually inclined and the upper ends of the heat transfer pile 11 and the post heat pile 12 are connected to the trimming material 20 ;
And a fixing wall 41 is formed on the other surface of the fixing plate 40 and a steering member 45 having an inclined surface formed on an outer side thereof is coupled to the fixing plate 40 ) Is installed;
A push plate 30 which is brought into close contact with the slope front surface of the longitudinal billet 20 in a state where the inclined surface of the steering piece 45 is in close contact with the slat front surface of the posterior pile 12, ) Is press-coupled with a screw rod (50). The retaining wall has a built-in inclined pile connection structure.
A method of constructing a retaining wall having an inclined pile connection structure according to claim 1 or 2,
Installing a heat transfer pile (11) and a post heat pile (12) in a planning point and fastening the heat transfer pile (11) and the upper end of the post heat pile (12) to the longitudinal pile member (20);
Excavating the front side ground of the heat transfer pile (11);
And pouring and curing concrete on the front side of the heat-transfer pile (11).
A method of constructing a retaining wall having an inclined pile connection structure according to claim 1 or 2,
A separating plate 61 protruding rearward is formed on the back surface of the heat transfer pile 11,
Installing a heat transfer pile (11) and a post heat pile (12) in a planning point and fastening the heat transfer pile (11) and the upper end of the post heat pile (12) to the longitudinal pile member (20);
Drilling a front side ground of the heat-transfer pile (11), stacking a soil plate (19) behind the spacing plate (61);
And pouring and curing the concrete on the front side of the earth plate (19).

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