KR101419863B1 - Pc panel needless of concrete forms using construction method of cast-in-place step retaining wall for slope reinforcement - Google Patents

Abstract

More particularly, the present invention relates to a method of replacing a stepped-type retaining wall that can replace a stepped retaining wall by using a PC panel that does not require a form, will be.
In the method of replacing the stepped-type retaining wall for slope reinforcement using a PC panel according to the present invention, a PC (Precast Concrete) panel capable of repeated mass production in various forms is manufactured, and the PC panel is used as a mold substitute , And a stepped retention wall is installed on the site for reinforcing the slope by inserting backfill concrete in a state where the PC panel is fixed.
In this alternative construction of the stepped retaining wall of the present invention, a PC panel having a pattern on the front side can be manufactured and transported, and a desired shape can be made by applying the back surface with "backfilled concrete" or "backfilled concrete + It is possible to provide an alternative design of a stepped retaining wall that can be planted by putting soil on the back side.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PC panel that does not require a mold to be used in place of a stepping-type retaining wall replacement method for slope reinforcement.

The present invention relates to a method of replacing a stepped-type retaining wall for slope reinforcement, and more generally, a method for constructing a retaining wall of a stepped-step stairway using a form on a front surface is more detailed in terms of cost, air, stability, (Precast Concrete) panel that does not require dies.

When slope slope, natural slope is localized due to heavy rainfall and heavy rainfall, and it is constructed as a stepped retaining wall for the field installation in the slope, the "formwork + pattern formwork" is installed on the whole surface.

In general, a stepped retaining wall is a stepped shape formed to suppress the active block and to protect the incision surface when planar activity is expected by a discontinuity that develops on the cut slope, or when instability of the cut slope due to fracture development such as a fault layer is expected. Concrete retaining wall.

In the case of such a stepped retaining wall, there is a difficulty in installing "formwork + pattern formwork" because it is an urgent cut slope, and if it is formed by several steps in case of high height, wait for the period of curing of the spotted concrete, So that the air is long and expensive.

It is an object of the present invention to overcome the above-described problems of the prior art by providing a PC panel having a pattern on the front surface in a predetermined size and carrying it thereon, and then constructing the back surface with "backfill concrete" or "backfill concrete + And to provide an alternate construction method of a stepped retaining wall using molds capable of planting by putting soil on the back side.

In addition, when reinforcing the concrete on the back of the PC panel, it is possible to pre-install the reinforcing bars or to install the reinforcing bars after the perforation so that the reinforcing bars can be connected to the pre-installed connection rings or exposed portions of the reinforcing bars. It is intended to provide an alternate construction method of the economical cascade retaining wall as possible.

In order to solve the above-mentioned problems, a method of replacing a stepped-type retaining wall for slope reinforcement using a PC panel that does not require dies according to the present invention comprises: preparing a PC (Precast Concrete) panel capable of repeated mass production in various forms; The panel is used as a mold substitute, and a backrest concrete is installed in a state where the PC panel is fixed, thereby constructing a stepped retaining wall to be laid on the slope for slope reinforcement.

Here, it is preferable that the PC panel is manufactured to withstand the strength of about 27 MPa which is high strength according to the strength of the backfill concrete.

Here, the PC panel is formed in a rectangular parallelepiped shape, and a hole is formed in the center of the PC panel so that a lock bolt or a lock anchor can be installed, and a steel pipe pipe is embedded in the hole.

Preferably, the front panel of the PC panel has a buried nut to which a front panel, a pattern or a picture sheet can be attached.

Preferably, the upper end of the concrete layer is formed with an installation groove of the PC panel so that the lower end of the PC panel can be set when the PC panel is installed.

Here, the cross-sectional shape of the installation groove may be a U-shaped, V-shaped or J-shaped groove.

Here, a ring device is formed on the rear surface of the PC panel so as to form the PC panel in a form, and the ring device is formed as a buried type formed inside the PC panel and an exposed type exposed to the outside of the PC panel .

In this case, one end of a connecting reinforcing bar is connected to the ring device, and the other end of the connecting reinforcing bar is connected to an inclining fixing reinforcing bar, and the inclining fixing reinforcing bar is partially embedded in a back- And the remaining portion is connected to the connecting reinforcing bar in an exposed state, so that the PC panel can be set to have an inclination angle similar to that of the slope.

Here, vertical drain grooves may be formed on the back surface of the PC panel in the vertical direction.

Here, the lower end of the PC panel may be reinforced by a metallic stiffener so that the lower end of the PC panel is not easily broken.

Here, the PC panel may have a male structure on the one end side and a male structure on the other end side so as to be horizontally joined, thereby facilitating the continuous joint construction in the horizontal section.

In this case, when the PC panel is continuously connected in the horizontal section, the left and right edge PC panels may be formed in a triangular shape.

After completion of the construction of the stepped retaining wall after the backfill concrete is installed by connecting the continuous joints in the horizontal section by the PC panel, a stair planting material may be formed on the stepped step side, and a top end planting material may be formed on the upper end side.

According to the construction of the present invention described above, it is possible to make a desired shape by constructing a PC panel in which a patterned pattern is placed on a front surface in a predetermined standard, and then carrying it back with "backfilled concrete" or "backfilled concrete + It is possible to provide an alternative construction method of a stepped retaining wall which can be planted by putting soil on the back side.

In addition, when reinforcing the concrete on the back of the PC panel, it is possible to pre-install the reinforcing bars or to install the reinforcing bars after the perforation so that the reinforcing bars can be connected to the pre-installed connection rings or exposed portions of the reinforcing bars. It becomes possible to provide an alternative construction method of the economical stepped retaining wall.

1 shows a basic structure of a PC panel used in a method of replacing a stepped retaining wall according to the present invention.
2 is a modification of the PC panel of Fig.
3 is another variation of the PC panel of Fig.
4 is a cross-sectional view of a stepped retaining wall according to the present invention.
FIG. 5 is a structural view illustrating the formation of a concrete layer when the PC panel and the concrete layer in FIG. 4 are installed.
FIG. 6 is a perspective view illustrating a hook structure for fixing an inclined state of the PC panel when the PC panel is inclined as shown in FIG.
FIG. 7 is a view illustrating a method of tilting and fixing a PC panel using the loop shown in FIG. 6. FIG.
8 shows a front view of a ring installation structure of a PC panel.
Fig. 9 is a structural view of a rear side drain groove of a PC panel to which the present invention is applied.
10 is a structural example for reinforcing the outer surface of the PC panel used in the method of replacing the stepped retaining wall of the present invention.
FIG. 11 is a structural view showing a joint of a PC panel used in the method of replacing the stepped retaining wall of the present invention.
FIG. 12 is a front view of a conceptual diagram in which a plurality of PC panels as shown in FIG. 11 are vertically drained through a spaced-apart space between neighboring PC panels when the expansion joint is connected.
FIG. 13 is a view schematically showing a construction diagram for treating left and right edges of an inclined surface during construction according to a stepped wall type alternative construction method of the present invention.
FIG. 14 is a schematic view showing a stepped structure in a state in which construction is completed by the alternative stepping wall type construction method of the present invention. FIG.

Hereinafter, referring to the accompanying drawings, a PC panel structure in a place-restoring method for replacing a stepped-type retaining wall for slope reinforcement using a PC (Precast Concrete) panel according to the present invention (hereinafter referred to as a stepped retaining wall replacement method) The construction method and operation effect are examined.

Generally, the strength of the concrete stepped retaining wall body is about 24 MPa, and the strength of the backing concrete of the stepped retaining wall for slope reinforcement is usually equal or about 18 MPa or 21 MPa. Therefore, the PC panel according to the present invention can be manufactured by a panel having a high strength of at least 27 MPa, although it depends on the slope state.

The thickness of the PC panel should be T = 5 or 8cm for easy transportation and H = 1.2m (general use), 1.5m (for planting on the back) and L = 1.0m, 1.5m or 2.0m desirable.

Based on the above criteria, the following PC panels can be manufactured.

Weight W = L x H x T = 1.0 m x 1.2 m x 0.08 m x 2.5 tonf / m 3 = 0.240 ton

Weight W = L x H x T = 1.0 m x 1.5 m x 0.08 m x 2.5 tonf / m 3 = 0.300 ton

Weight W = L x H x T = 1.5m x 1.2m x 0.08m x 2.5 tonf / m3 = 0.360tonf

Weight W = L x H x T = 1.5m x 1.5m x 0.08m x 2.5 tonf / m3 = 0.450tonf

Weight W = L x H x T = 2.0 m x 1.2 m x 0.08 m x 2.5 tonf / m 3 = 0.480 ton

Weight W = L x H x T = 2.0 m x 1.5 m x 0.08 m x 2.5 tonf / m 3 = 0.600 ton

The PC panel has a rectangular parallelepiped shape, and a specific shape may be a panel made somewhat differently depending on the state of the cut slope or the natural slope.

The PC panel is used in place of the existing formwork, and is light, manufactured, transported and assembled so that the construction method is easy, and it has various advantages that can constitute a planting material and an environmentally friendly beauty.

Hereinafter, the structure of the PC panel applied to the method of replacing the stepped retaining wall of the present invention and various construction methods applied or applied to the PC panel are proposed.

1 shows a basic structure of a PC panel used in a method of replacing a stepped retaining wall according to the present invention.

As shown in FIG. 1, the PC panel 10 can have a substantially rectangular parallelepiped shape. The width, length, and thickness of the PC panel 10 can be variously sized as described above, but can be made to withstand the weight and strength of the backfill concrete . (A) is a front view, and (B) is a side view.

The PC panel 10 shown in FIG. 1 has a shape in which a hole 11 is formed at a central front portion thereof so that a lock bolt or a lock anchor can be installed.

The following two reinforcement may be required to reinforce the strength of the PC panel itself when installing rock bolts or lock anchors.

That is, the thickness t ₁ of the center portion 12 is formed to be slightly thicker than the thickness t of the PC panel 10 (it can be designed at a ratio of approximately 3: 5), and the steel pipe pipe 13 is embedded therein To solve this problem. The diameter of the steel pipe 13 may be designed to be about 100 mm in consideration of the diameter of a general lock bolt and a lock anchor.

2 is a modification of the PC panel of Fig.

The PC panel 20 shown in FIG. 2 is the same as the PC panel 10 shown in FIG. 1 except that a front pattern 24 or a pattern with a color design, a picture, a pattern, And a picture sheet 25 is attached so that a portion of the front side can be camouflaged in an environmentally friendly manner when the slope construction is completed.

The front panel 24, the pattern or the picture sheet 25 can be fastened to the front face portion of the PC panel 20 by a bolt and a buried nut 26 embedded in an appropriate portion.

3 is another variation of the PC panel of Fig.

The PC panel 30 shown in FIG. 3 is an example in which the PC panel 30 itself is made thick without forming the central portion 12, and the central portion is formed inward to form the hole 21, unlike FIG.

4 is a cross-sectional view of a stepped retaining wall according to the present invention.

The back wall of the stepped retaining wall is formed as a slope. In the upper part of the slope, the rainfall penetrates into the inside of the slope to generate infiltration water, and the infiltration water is accommodated in the gap of the slope together with the groundwater inside the slope. If the infiltration water and the groundwater are left unchanged, the gap of the slope becomes saturated and acts as a load on the retaining wall composed of the front retaining wall and the front end wall due to the water pressure of the gap, so that the stability of the retaining wall and the stability of the slope are deteriorated. A configuration is needed to drain infiltration water and groundwater.

The base leveling concrete layer 41 is applied and the PC panel 40 is tilted at a predetermined inclination angle from the top of the base leveling concrete layer 41 to the bottom surface of the PC panel 40 and the slope wall 42 ) Concrete is poured.

At this time, when the foundation leveling concrete layer 41 is installed, the PVC pipe 44 and the rubble 45 are filled with the slope wall 42 from the backfill portion 43 of the concrete, and the concrete is poured.

In addition, the drainage pipe 46 is installed at the lower end of the base leveling concrete layer 41 in the longitudinal direction.

FIG. 5 is a structural view illustrating the formation of a concrete layer when the PC panel and the concrete layer in FIG. 4 are installed.

4, various types of installation grooves 52a, 52b, and 52c may be installed on the surface of the PC panel 50 where the concrete layer 51 and the PC panel 50 are in contact with each other to facilitate the construction of the PC panel 50 .

The installation grooves 52a, 52b and 52c are elongated in the longitudinal direction of the PC panel 50 and can be formed when concrete is poured. (A), the installation groove 52a is formed in a U shape, the case (B) is an example in which the installation groove 52b is formed in a V shape, and in the case of (C) J-shaped. It is also possible to form the mounting grooves in various shapes in addition to these forms.

It is preferable that the bottom surfaces of the installation grooves 52a, 52b and 52c are inclined so as to be parallel to the bottom surface of the PC panel 50 according to the inclination angle of the PC panel 50 when the PC panel 50 is installed.

FIG. 6 is a view showing the construction of a loop for fixing the oblique state of the PC panel as shown in FIG. 4. FIG. 7 shows a method of obliquely fixing the PC panel using the loop of FIG. Fig. 2 is a front view of a ring installation structure of a PC panel.

Referring to FIG. 6, a ring device may be installed on the back side of the PC panel 60 first.

The ring devices 61a and 61b may be of the buried type A and may be formed of the exposed type B. The ring devices 61a and 61b may be formed by arranging the iron cores 62 horizontally and vertically It can be made by making it simultaneously at the time of PC panel production.

In the case of the embedding type A, it is possible to form the incision grooves 64 by forming the incision grooves 64 in the reinforcing bars or the iron cores 62 which are overlapped horizontally and vertically to expose the annular device 61a in the incision grooves 64, In the case of the mold B, the annular device 61b may be formed simultaneously with the PC panel 60 in a state where the annular device 61b is fixed to the reinforcing bar or the iron core 62, one end may be fixed by embedding and the other end may be exposed to the outside.

The connection reinforcing bars 63 are connected to the ring device 61a of the buried type A and the ring device 61b of the exposed type B, respectively.

Referring to FIG. 7, a construction process for fixing the PC panel 70 using the ring device shown in FIG. 6 will be described.

(A) is an example of a process using a buried annular ring device as shown in (A) of Fig. 6, and (B) is an example of a process using an exposure ring device as shown in Fig. 6 (B).

First, when the backfill concrete of the slope wall or the slope cut surface 75 is poured, the slope fixing reinforcing bar 74 is half filled and vertically exposed.

Before the concrete is poured, the PC panel 70 is assembled to the slope wall or the installation groove 72 of the slope cut surface 75, the connecting reinforcing bars 73 are vertically connected to the ring devices 71a and 71b, The connecting reinforcing bars 73 are connected to the reinforcing bars 74 for fixing the sloping PC panels 70 so as to be inclined.

At this time, the ring devices 71a and 71b are configured as upper and lower parts of the PC panel 70, and the connecting reinforcing bars 73 connecting the upper ring devices 71a and 71b and the slant fixing reinforcing bars 74 are fixed And the connecting reinforcing bars 73 connecting the lower ring devices 71a and 71b and the slant fixing reinforcing bars 74 are horizontally fixed. This can be proposed as a method for increasing the fixing strength of the inclined PC panel 70.

4 to 7, when the PC panel is constructed in a similar manner to the inclined plane (S = 1: 0.1 to 0.3), the effect of mitigating risk and reducing the volume of the space to be laid when the backfill concrete is installed The amount of concrete can be remarkably reduced.

Referring to FIG. 8, there is shown an example of a front view of the exposed type (B) ring device of FIG. 6, in which six ring devices 81b are arranged vertically in two rows per PC panel 80.

As shown in FIG. 7, the ring device 81b is also used as a construction application for tilting at the time of construction of a PC panel, but it can also be used as a transportation ring of a PC panel before construction.

Fig. 9 is a structural view of a rear side drain groove of a PC panel to which the present invention is applied.

Referring to FIG. 4, a PVC pipe 44 and a drain pipe 46 are installed to drain infiltration water and groundwater. Drainage from the upper end to the lower end is formed by forming a drain groove 91 in the longitudinal direction on the back side of the PC panel 90 so as to form a drain groove 91 ) To allow drainage from the upper concrete layer to the lower concrete layer.

The drain grooves 91 are formed in the vertical direction in a state where the PC panel 90 is erected and the drain grooves 91 are formed in a rectangular shape in cross section like the triangular drain grooves 91a and 91b, The drain grooves 91b and the drain grooves 91c having a U-shaped cross section can be formed in various manners as in the case of the drain grooves 91b and the grooves 91c.

10 is a structural example for reinforcing the outer surface of the PC panel used in the method of replacing the stepped retaining wall of the present invention.

As shown in FIG. 10, the PC panel 100 may be attached to the lower portion of the PC panel 100 with an outer reinforcing member 101 reinforcing an outer surface of an iron plate or an angle, so that the bottom edge is not broken.

FIG. 11 is a structural view showing a joint of a PC panel used in the method of replacing the stepped retaining wall of the present invention.

In the PC panel 110 used in the method of replacing the stepped retaining wall of the present invention, a plurality of panels must be connected according to the entire width of the inclined surface to be installed.

The plurality of PC panels 110 may have a structure in which the male and female are connected to each other on the horizontal connection portion, and the styrofoam is applied to the backfill concrete when the concrete is laid with a slight margin distance as in the expansion joint. .

The horizontal / male connection structure of the PC panel 110 can take various forms, and an example thereof is shown in FIG. However, it is also important to have a male and female structure for horizontal male and female connection, but it is designed to have the same structure for repetitive fabrication of the PC panel 110 and free choice of construction.

That is, one side of the PC panel 110 has an arm structure and the other side has a male structure, so that the structure of all the PC panels 110 is made the same, so that the repeatability and the ease of construction are made.

(A), the left side of the PC panel 110 is formed as a 'A' shape 111a and the right side thereof is formed as a 'B' shape 111b.

(A) in the case of (B), a semicircular groove is formed in the portion 111c which is in contact with each other so that a circular hole is formed. The circular hole is formed in the vertical drain guide hole 112, As shown in FIG.

(C), the PC panel 110 has a groove 113a on the left side and a protrusion 113b on the right side so that the groove 113a and the protrusion 113b are engaged with each other in the horizontal joint section And may be formed to have other types of male and female coupling structures.

As shown in FIG. 11, the PC panels 110 can be connected to each other without separating from each other in the horizontal joining interval, and the joining connection can be achieved by separating the PC panels 110 by a length of about 20 mm. Vertical drainage can be achieved by vertical drainage induction holes when using the type of connection (B) without separation. Vertical drainage system can be achieved through the separated part when connecting spliced joint like expansion joint.

FIG. 12 is a front view of a conceptual diagram in which a plurality of PC panels as shown in FIG. 11 are vertically drained through a spaced-apart space between adjacent PC panels when the expansion joint is connected.

12, for example, a plurality of PC panels 120 are connected to each other in a horizontal section at each floor, and the PC panels 120 are overlapped with each other at upper and lower ends of the floor, .

At this time, the jointed portion of the horizontal section has a shape in which a vertical drain pipe is connected in a staggered manner from upper and lower sides as shown by an arrow direction, and can be configured to be natural drainage in a downward direction through the vertical drain pipe.

FIG. 13 is a view schematically showing a construction diagram for treating left and right edges of an inclined surface during construction according to a stepped wall type alternative construction method of the present invention.

13, a PC panel 130 of the same shape is horizontally connected to the center part, and left and right edges of the PC panel 131 are inclined at an angle of about 45 degrees in consideration of the external appearance and overall appearance. ) Can be separately manufactured and installed to finish.

FIG. 14 is a schematic view showing a stepped structure in a state in which construction has been completed by the step-and-retaining wall replacement method of the present invention.

As shown in FIG. 14, as a substitute construction method of the stepped retaining wall, the PC panel 140 is used to install the slope in a manner similar to the inclined plane, and then the backfill concrete 141 is installed.

Backfill After completion of the concrete pouring, the ground for the planting is constructed at the uppermost stage, the uppermost planting material 143 is installed at the uppermost stage, and the staircase material 142 is constructed at the intermediate level.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 110, 120, 130,
11, 21: holes 12, 22: center
13, 23: Steel pipe 24: Front veneer
25: pattern or picture sheet 26: buried nut
27: bolt 41: basic leveling concrete layer
42: slope wall, or obliquely cut surface 43: concrete backfill portion
44: PVC pipe 45: rubble
46: Water pipe 51: Concrete layer
52a, 52b, 52c, 72: installation grooves 61a, 61b, 71a, 71b, 81b:
62: reinforcing steel or iron core 63, 73: connecting reinforcing steel
64: incision groove 74: incline fixing bar
75: slope wall or slope cut plane 76: upper concrete layer
91, 91a, 91b, 91c: Drain groove 101: Outer stiffener
111a: 'a' shape 111b: 'b' shape
111c: abutting portion 112: guide hole
113a: groove 113b: projection
131: triangular PC panel 141: backfill concrete
142: Stairs material 143: Top material

Claims (13)

It can be repeatedly mass-produced in various forms, used as a substitute for mold,
A hole is formed in the central portion so that a lock bolt or a lock anchor can be installed, a steel pipe is embedded in the hole,
The upper ring device is provided with a connecting reinforcing bar which is inclined at a predetermined angle to be fixed to the inclined fixing reinforcing bars embedded in the back reinforcing concrete, The apparatus further comprises another connecting reinforcing bar connected horizontally to the fixing reinforcing bars,
The lower end portion is fitted in the installation groove formed at the upper end of the concrete layer at the time of construction and the back reinforcement concrete is installed in a state of being fixed by the ring device and the lock bolt or the lock anchor, PC (Precast Concrete) panel that does not require dies to be applied to replacement of stair - step retaining wall. The method according to claim 1,
The PC panel is manufactured with a strength of about 27 MPa according to the strength of the backfill concrete. It is a PC panel that does not require dies to be applied to the method of replacing the cast-in-place retaining wall for slope reinforcement. delete The method according to claim 1,
Wherein the PC panel has a recessed nut to which a front veneer, a pattern or a picture sheet can be attached, is formed on the front surface of the PC panel. delete delete The method according to claim 1,
Wherein the ring device is formed of a buried type formed inside the PC panel and an exposed type exposed to the outside of the PC panel, wherein a cast-in-place retaining wall replacement method for slope reinforcement is applied. delete The method according to claim 1,
A PC panel in which a vertical drain groove is formed in a longitudinal direction on the back surface of the PC panel, and a method of replacing a stepped-type retaining wall for slope reinforcement is applied is a PC panel that does not require a die. The method according to claim 1,
Wherein the lower end of the PC panel is reinforced with an outer reinforcing material of a metal material, and a docking-free PC panel to which a method of replacing a cast-in-place retaining wall for slope reinforcement is applied. The method according to claim 1,
The PC panel is a PC panel that does not require dies to be applied to the replacement of the retaining wall for the slope reinforcement, which has an arm structure on one side and a male structure on the other side so as to be horizontally fitted. delete delete

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