KR101023660B1 - Retaining Wall using Anchor and Concrete Panel and its Construction Method - Google Patents

Abstract

The present invention arranges the ground horizontally along the boundary line to install the retaining wall, and then drills the wall surface of the inclined ground vertically cut by cutting the inclined ground to be inclined downward to install / fix the anchor, and to level the ground. A concrete panel support is installed on the bottom surface, and the concrete panel is placed on the concrete panel support, and then the concrete panel having a sleeve pipe and a permeation mat attached to the back is hypothesized to the rear of the concrete panel. After placing and curing the primary concrete and the secondary concrete at intervals, the anchor is tensioned and fixed to the concrete panel, and the retaining wall using the anchor and the concrete panel is filled with gravel and soft soil over the secondary concrete. Construction of anchors and concrete panels with improved construction and safety using them It relates to the law.

Retaining wall, anchor, concrete panel, irregularities, separation ring, permeable mat, flat mat, concrete panel support, primary concrete, secondary concrete

Description

Retaining Wall using Anchor and Concrete Panel and its Construction Method}

The present invention relates to a wall, that is, a retaining wall and a method of constructing the retaining wall, which can prevent soil from falling down in advance, such as a landslide, and arranges the ground horizontally along the boundary line to construct the retaining wall and cuts the slope vertically. By drilling the wall surface of the inclined slope cut downward to install / fix the anchor, and install the concrete panel support on the bottom of the horizontally flattened ground and position the concrete panel thereon, and then the sleeve pipe and the installed anchor In the state of laying the concrete panel with the permeation mat on the back, the concrete is placed and cured at intervals between the primary concrete and the secondary concrete at the rear of the concrete panel, and the anchor is tensioned and fixed to the concrete panel. Anchors and concrete designed to fill by filling gravel and soft soil over concrete By using a retaining wall board and it will be enhanced workability and safety on the construction method of the anchor and the concrete panels.

In addition, the present invention is formed on the front surface of the square or rectangular concrete panel protruding forward and inclined inwardly and integrally formed a hollow-formed base so that the leading end of the anchor can be loaded, the middle and lower left and On the right side, the upper and lower drainage holes are integrally formed, and the left and right sides of the concrete panel are integrally formed with uneven parts formed with mounting protrusions and grooves, and are formed integrally with the separation prevention ring adjacent to the uneven parts. It relates to an anchor having a concrete panel support coupling groove and a concrete panel support coupling groove and a retaining wall using the concrete panel to mount the concrete panel support on the bottom of the concrete panel.

Rock slope stability is governed by the characteristics of the discontinuity of the rock, and in addition, the strength characteristics of the rock have a very important meaning.The stability analysis of rock slope is generally interpreted using the marginal equilibrium by determining the fracture type for the direction of the discontinuity. For this reason, the stability of rock slope is secured by reinforcing the joints of rock, or by applying artificial external force, and the rock bolt method and the permanent anchor method are mainly used.

Generally, a wall that resists earth pressure so that soil or rock does not collapse is called a 'retaining wall', and the retaining wall is fixed by using anchors or rock bolts and nails.

Reinforced concrete retaining wall for conventional civil engineering is because the bending moment acting on the retaining wall by the backing soil is approximately increased in proportion to the third square of the retaining wall height, inevitably to secure the rigidity against the bending moment The amount of reinforcing bars in the cross-sectional area and the inside of the wall is greatly increased according to the height of the retaining wall.Therefore, the amount of concrete and expensive reinforcing bars was increased, which contributed to the increase in construction cost. And there is a risk of retaining wall collapse due to poor construction.

In addition, in order to prevent the collapse of the slope, the conduction moment should be reduced to the minimum and the resistance moment should be increased to the maximum. Therefore, the slope of the slope should be less than the angle of repose as well as rainfall, earthquake Safe slope should be made in case of sudden genius, and if the height of the cross section is large, the slope should be slowed down as it goes down, and the most important issue for the safety of the slope is drainage, which is caused by groundwater, rainwater or snowfall. If osmotic water is important and water is poorly drained from the mower or the pile, the water penetrates into the soil, increasing the unit weight of the soil, increasing the conduction moment, and weakening the soil near the fracture surface. Decreases, and also ensures that even if water does not seep into the soil, Due to this pressure by a higher salaries the surface or the upper surface there is a problem that it can cause damage because it increases the conduction moment.

As a structure of the retaining wall using the permanent anchor and a construction method using the same, a retaining wall structure and a method of constructing the retaining wall using a permanent anchor and precast concrete panel in Korea Patent No. 10-525156 is well known, the domestic registration Patent No. 10-525156 A retaining wall structure using a permanent anchor and a precast concrete panel and a construction method of the retaining wall will be described briefly as follows.

First of all, the construction method is to arrange the ground horizontally and cut the slope along the boundary line where the retaining wall is to be constructed, to position the panel having hollows formed on the horizontally arranged ground, and to be applied to the panel. Perforating the inclined land so as to be gradually inclined downward toward the inside of the inclined land with respect to the horizontal direction of the earth pressure; inserting the anchor in the perforated insertion hole of the inclined land, and fixing the rear end of the anchor in the insertion hole of the inclined land; And a step of fixing the tip of the tensioned anchor to the panel, and filling the panel between the panel and the cut slope.

In addition, when the retaining wall structure is simply described, both ends of the panel are located in a state in which the horizontally grounded ground and the cut slope are in contact with each other and the insertion holes drilled in the hollow and cut slope formed in the panel, respectively. It is mounted, and comprises an anchor having an inclined slope gradually toward the interior of the slope with respect to the direction of the horizontal earth pressure applied to the panel.

Since the method of constructing the retaining wall and the constructed retaining wall are vertically positioned, the panel is laid vertically between the panel and the cut slope, so that vegetation such as tree planting is possible, and also against the horizontal earth pressure acting on the panel. By setting the angle of the anchor smaller than the conventional anchor to reduce the force required to suppress the ground activity, it is possible to reduce the tensile force that the anchor must receive, thereby reducing the cost of expensive anchor construction, but the above construction method and construction In the case of retaining wall, first, the foundation concrete is laid on the ground where the retaining wall is to be installed, and after it is inserted into the foundation foundation, the fixing pin is inserted and loaded into the hole formed at the bottom of the panel to fix it. There is a problem that the construction period takes a long time because it is cured by pouring.

In addition, if the pin is inserted deeper than the proper value, it is difficult to modify, so it is necessary to remove the foundation and re-install the concrete, which incurs an additional part of the construction cost, as well as parallel to the curved terrain. If there is a need to install a gap between the panel and the panel is a problem that the gravel and soft soil is discharged into the gap between the panel and the panel.

In addition, since the drain hole is horizontally drilled in the middle part of the panel, the water discharged by the earth pressure is not discharged to the outside quickly through the drain hole but stays inside to increase the earth pressure, thereby increasing the pressure on the retaining wall. In addition, the water discharged in front of the installed retaining wall flows into the filling site of the other retaining wall, and there is a danger that the retaining wall may collapse due to the increase of water pressure and earth pressure in the final retaining wall.

The present invention has been made to solve the problems of the prior art as described above, it is an object of the present invention to provide a method of construction of anchors and concrete panels using anchors and concrete panels and improved construction and safety using them.

Another object of the present invention, the most problematic for the safety of the slope is about drainage, the osmotic water due to groundwater, rainwater or snow is important, and if the drainage is not well in the mower or piled up in the soil As the water soaks, the unit weight of the soil increases and the conduction moment is increased, and the soil near the fracture surface is weakened to decrease the resistance moment. Also, even if the water does not seep into the soil, As it increases the conduction moment due to the water pressure, it is a cause of breakage. Since the upper and lower drain holes of the concrete panel are drilled and inclined upwardly from the front to the rear, water or discharged water from the wall Easily discharge water flowing into soft soil and gravel from overland land. The purpose of the present invention is to provide a retaining wall using an anchor and a concrete panel and a construction method using the same.

It is still another object of the present invention that the retaining wall is supported by a concrete panel and a concrete panel support and is a structure against soil pressure due to the backing soil formed on the rear surface of the retaining wall. It is possible to reduce the air, and when using a concrete panel, the weight is reduced, so as to provide a retaining wall using an anchor and a concrete panel and a construction method using the same, which is very easy to transport and install.

The above and other objects of the present invention, by arranging the ground (4) horizontally along the boundary line for the construction of the retaining wall horizontally cut the inclined land vertically by drilling the wall surface of the inclined ground cut inclined downward to insert the anchor 20 The concrete panel support 40 is installed on the bottom surface of the ground which is installed / fixed and leveled flatly, and the concrete panel 30 is placed on the concrete panel support, and then the sleeve pipe 65 is mounted on the installed anchor 20. ) And in the state where the concrete panel 30 with the permeable mat 50 is attached to the back is placed, the primary concrete 60 and the secondary concrete 61 are placed at the rear of the concrete panel 30 at intervals. After curing, the anchor 20 is tensioned and fixed to the concrete panel 30, and the gravel 62 and the soft soil 63 are charged over the poured secondary concrete 61, and the concrete panel is filled. Retaining wall using By using this, it is achieved by the construction method of anchor and concrete panel which improved the workability and safety.

The most important issue for the safety of the slope is the drainage, and osmotic water from groundwater, rainwater or snowfall is important, and if it does not drain well from the mower or from the pile, the soil will seep into the soil. In addition to increasing the unit weight of the increase in the conduction moment as well as weakening the soil near the fracture surface to reduce the moment of resistance, in particular, the upper drain hole 33 and the lower drain hole 34, the more toward the rear from the front Since it is poured by being inclined upwardly, the water or water discharged from the wall 3 and the water flowing into the soft soil 62 and the gravel 63 from the fillet 64 can be easily discharged. By installing the drainage groove 47 together in front of the concrete panel 30 at the time of installation, the water discharged by the earth pressure of the inclined land rides into another retaining wall constructed It has the advantage that drainage grooves 47 is to cut off in advance.

In addition, by forming the uneven part 35 made of the mounting protrusion 35-1 and the groove 35-2 integrally on the left side and the right side of the main body portion of the concrete panel 30 constituting the retaining wall 10. When the concrete panel 30 is installed side by side horizontally and horizontally, the spacing can be densely arranged, and the spacing can be easily maintained even when constructing on a slope of a curved surface, and the retaining wall 10 is formed. The separation prevention ring 38 is integrally formed adjacent to the uneven part 35 formed on the rear surface of the concrete panel 30, and the separation prevention ring is formed in the concrete panel 30 and the concrete panel 30 which are installed side by side. By weaving the rope, it is possible to prevent the gap between the concrete panels 30 that are installed side by side at the source can be dense construction, even after construction, the first and second concrete (60) (61) And the input of gravel (62) and soft soil (63) That the gap is not happened by the soil due to the pressure through the concave and convex part 35 has a utility to allow prevented.

In addition, in the case of the hurdle-shaped support 42, by fixing the concrete panel 30 together with the concrete panel support plate 45, thereby increasing the friction force generated by the vertical stress of the concrete panel 30, and thus the concrete Dispersion of the earth pressure received by the panel 30 increases the safety factor of the retaining wall. In addition, where the rupture occurs in the retaining wall will be a portion having a drain groove 47 in contact with the concrete panel 30 and the concrete panel support 40, the rupture by forming the foundation concrete 41 in the 'b' shape Lowers the number when it happens.

The retaining wall 10 is a structure that is supported by the concrete panel 30 and the concrete panel support 40 to counteract the earth pressure caused by the backing soil formed on the rear surface of the retaining wall 10, and the workability is greatly improved, and the rapid retaining wall It is possible to form the (10) has the effect of reducing the air, when using the concrete panel 30 is reduced in weight is very easy to transport and install.

As described above, the construction of the retaining wall using the anchor and the concrete panel and the anchor and the concrete panel using the same, thereby improving the construction and safety.

The above and other objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

1 to 10h shows a concrete implementation of the retaining wall construction method and the retaining wall using the anchor and the concrete panel according to the present invention, Figure 1 is an anchor and concrete panel according to the present invention Figure 2 is a cross-sectional view of the retaining wall structure using, Figure 2 is a detailed view showing the installation relationship between the anchor and the concrete panel in the retaining wall structure using the anchor and the concrete panel according to the invention, Figures 3 to 6 are anchors and concrete according to the present invention 8 is a perspective view showing a concrete panel in a retaining wall structure using a panel, a bottom perspective view, a rear perspective view and a right side view, and FIG. 7 is a perspective view showing an extract of a concrete panel supporter from a retaining wall structure using an anchor and a concrete panel according to the present invention. Is an excerpt of the hurdler type support from the retaining wall structure using the anchor and concrete panel according to the present invention. 9A to 9H are flowcharts showing a down-top construction process of the retaining wall structure using the anchor and the concrete panel according to the present invention, and FIGS. 10A to 10H illustrate the anchor and the concrete panel according to the present invention. It is a flow chart showing the top-down construction process of retaining wall structure.

Slope stability refers to a stable slope where the soil does not flow down, that is, does not collapse, and the slope, that is, the slope, must be kept stable when cutting the ground when the open cut method is applied or when the road is opened. The angle of the slope to which the slope is stable in the natural state is called the repose angle of the soil. For the purpose of artificial stability, a method such as rock anchor or soil nailling is applied according to the type of slope soil.

9a to 10h, the present invention intends to construct the retaining wall 10 on an inclined slope, and flattens the ground 4 horizontally along a boundary line to which the retaining wall 10 is to be constructed. To form a wall (3) by arranging the slope inclinedly, and having a hurdle-shaped support (42) on the flattened ground (4) to install a foundation concrete (41) cured in a 'B-shaped', The concrete panel 30 is placed on the concrete panel support 40 on which the concrete panel support 43 is placed on the foundation concrete 41 that is cured in a 'n-shape' with the hurdle support 42. After the insertion hole 5 is formed in (3), the anchor 20 is inserted and installed.

Subsequently, after loading the sleeve pipe 65 to the installed anchor 20, the permeable mat 50 is attached to the back surface to install the concrete panel 30, the concrete panel 30 and the wall (3) Injecting concrete therebetween to pour to the lower end of the circumference of the bottom drain hole of the concrete panel 30 to cure the primary concrete (60), and then secondary concrete (61) to the upper side of the primary concrete (60) ) Is re-injected and poured to the upper side of the sleeve pipe 65 to cure, tension the anchor 20, and use the pressure plate 24 and the mounting holes 22 at the distal end of the tensioned anchor 20. Fixed to (30), covering the cap 23 to the fixed mounting holes 22, the concrete panel 30 with the gravel 62 and soft soil 63 on the cured secondary concrete (61) After the step of filling between the wall and the wall (3), the retaining wall was constructed by using anchors and concrete panels. .

Hereinafter, the assembly process (installation process) of the retaining wall structure 10 using the anchor and the concrete panel according to the present invention will be described in more detail.

9A to 9H are flowcharts illustrating a down-top construction process of the retaining wall structure 10 using the anchor and the concrete panel according to the present invention. Referring to the construction process, as shown in FIG. 9A. Flatten the ground 4 horizontally along the boundary line to install the retaining wall 10 and cut the wall 3 slightly inclined.

The base concrete 41, which is cured in a 'B' shape, is provided with a hurdle-shaped support 42 on the flattened ground 4, and a piler (specifically, is provided on the wall 3 cut to be inclined as described above). (Not shown) to form an insertion hole 5 by obliquely drilling downward, and the insertion hole 5 is loaded with a rectangular anchor 20 so that the fixing portion 21 is seated and fixed. This is illustrated as in FIGS. 9B to 9C.

When the mounting of the anchor 20 is completed, the concrete panel 30 is positioned in front of the inclined cut wall 3 using a crane, and the concrete panel 30 is placed on the concrete panel support 40. In this case, the hurdles-type support 42 is coupled to the concrete panel support coupling groove 36 of the bottom surface of the concrete panel 30, and the hurdles-type support hanger groove 45 is positioned at the lower end thereof. It is shown as 9d.

The concrete panel 30 is placed on the concrete panel support 40 as described above, and then the sleeve pipe 65 is loaded on the anchor 20, and the nonwoven fabric is formed on the rear surface of the sleeve pipe 65. After loading the concrete panel 30 and the pressure plate 24 to which the permeable mat 50 is sequentially installed, the anchor 20 is randomly hypothesized, as shown in FIG. 9E.

When the installation process is completed, the primary concrete 60 is poured into the rear surface of the concrete panel 30, in which case the primary concrete (up to the bottom of the lower drain hole 34 formed in the lower portion of the concrete panel 30) 60) is poured, and the drain groove 47 is formed on the front surface of the concrete panel (30).

By pouring concrete to the lower end of the lower drain hole 34 as described above, it is to be able to easily drain the water discharged by the concrete and the earth pressure, the drained water through the drain 47 It is to prevent the transfer to the retaining wall 10, which is shown as shown in Figure 9f.

When the casting of the primary concrete 60 is completed and curing is completed, the secondary concrete 61 is put again to cure, wherein the secondary concrete 61 is located on the upper side of the sleeve pipe 65. Pours to the bottom of the upper drain hole 33, which is shown as shown in Figure 9g.

When the secondary concrete 63 is finished, the gravel 62 and the soft soil 63 are filled onto the cured secondary concrete 61, and the temporary anchor 20 is tensioned arbitrarily. When the mounting holes 22 are coupled to each other and the cap 23 is covered to prevent corrosion from occurring at the coupling portion of the anchor 20 and the concrete panel 30, the installation is completed, as shown in FIG. 9H. do.

'형태의 산마루촉구(67)를 매립하여 형성하고, 상기 산마루촉구(67)의 후방으로 낙석 및 토사가 흘러내리는 것을 차단하는 낙석방지책(68)을 시공하여 설치시켜 준다.The retaining wall 10 completed by the above-described method is repeatedly performed, and the reclaimed land 64 of the retaining wall 10 constructed by each step is repeatedly performed as a new ground 4, but with a steep slope. On the endless slope 69 to form a rear of the retaining wall (10)

It is formed by burying the 'mountain ridge' 67, and installing and installing a rockfall prevention measure 68 that blocks the falling of the rock and earth and sand to the rear of the ridge.

Meanwhile, in addition to the down-top construction process, there is a top-down construction process as shown in FIGS. 10A to 10H.

'형태의 산마루촉구(67)를 매립하여 형성하고, 상기 산마루촉구(67)의 후방으로 낙석 및 토사가 흘러내리는 것을 차단하는 낙석방지책(68)을 시공하여 설치시켜주며, 경사지(3)의 따라 상기의 상향(Down-Top)시공과정를 반복적으로 수행해 나가는 것이 다르며, 시공과정은 상향(Down-Top)시공과정과 동일함으로 이에 대한 시공과정은 생략하도록 한다.The top-down construction process shown in FIGS. 10A to 10H is attached at the infinite slope 69 at the top end.

'Formed by forming the ridge bulge 67 of the shape, and installs a rockfall prevention measures 68 to block the falling down rock and earth and sand to the rear of the ridge bulge 67, and along the slope 3 The above-mentioned down-top construction process is repeatedly performed, and the construction process is the same as the down-top construction process, so the construction process for this is omitted.

The retaining wall 10 using the anchor and the concrete panel is flattened by horizontally flattening the ground 4 on the infinite slope 69 and provided with a hurdle-shaped support 42 on the flattened ground 4 to form a 'B-shaped'. After installing the foundation concrete 41 cured by the above, the concrete panel support 43 after placing the concrete panel support 43 on the foundation concrete 41 cured in the 'b-shaped with the hurdle-type support 42 40 is installed on the concrete panel 30, and the sleeve pipe 65 is loaded in the anchor 20 installed in the insertion hole 5 formed in the wall (3), the rear surface of the concrete panel 30 It is installed by attaching a permeable mat 50 to the first concrete, which is cured by injecting concrete between the hypothesized concrete panel 30 and the wall 3 and placing it to the circumferential bottom of the lower drainage hole of the concrete panel 30. 60 and secondary concrete (61) and the concrete panel (30) and the wall (3) Filling the gravel 62 and the soft soil (63) filled on the secondary concrete 61 cured in between, tensioning the anchor 20, and fixing the anchor 20 to the concrete panel 30 After loading the pressure plate 24 and the mounting holes 22 in order to form a cap 23 to the mounting holes 22.

Hereinafter, in the construction method of the retaining wall using the anchor and the concrete panel according to the present invention, the concrete panel 30 will be described in detail.

The front surface of the square or rectangular concrete panel 30 forms a pedestal 32 protruding forward and inclined inwardly, so that the front end of the anchor 20 can be loaded on the upper side of the pedestal 32. 31) is integrally formed, and the upper and lower drainage holes 33 and 34 are formed at the left and right sides of the middle and lower portions of the concrete panel 30.

The most important issue for the safety of the slope is the drainage, and osmotic water from groundwater, rainwater or snowfall is important, and if it is not well drained from the plow or from the heaping, Not only increases the unit weight and increases the conduction moment, but also weakens the soil near the fracture surface to reduce the resistance moment. In particular, the upper drainage hole 33 and the lower drainage hole 34 are upward from the front to the rear. Since it is poured by obliquely perforated to the water to be discharged from the water or discharged from the wall (3) and the soft soil (62) and gravel (63) from the land (64) to be easily discharged.

In addition, the left and right surfaces of the concrete panel 30 are integrally formed with the uneven portion 35 made of the mounting protrusion 35-1 and the groove 35-2, the bottom surface of the concrete panel 30 In the concrete panel support 40 to form a concrete panel support coupling groove 36 and the concrete panel support coupling groove 37 so that one side can be mounted, and formed integrally at both ends of the upper back of the concrete panel 30 Adjacent to the concave-convex portion 35 to prevent the separation ring 36 is formed integrally.

As described above, by forming the uneven part 35 made of the mounting protrusion 35-1 and the groove 35-2 on the left side and the right side of the concrete panel 30, the concrete panels are arranged horizontally and side by side. When the 30 is installed, the spacing can be densely arranged, so that it can be easily installed in a streamlined shape even when constructing on a slope of a curved surface shape, and on the uneven portion 35 formed on the rear surface of the concrete panel 30. Due to the integral formation of the separation prevention ring 36 adjacent to each other, to the concrete panel 30 and the concrete panel 30 to be installed side by side to each of the separation prevention ring 36 and tied with a rope (not specifically shown) As a zoom, even after the concrete panel 30 is continuously installed side by side, even if the primary and secondary concrete 60, 61, gravel 62, and soft soil 63 are introduced, the added concrete and gravel 62 and soft soil 63 It is possible to prevent the gap from being opened by one pressure.

The concrete panel support 40 is mounted on the concrete panel support coupling groove 36 and the concrete panel support coupling groove 37 formed on the bottom of the concrete panel 30 is formed as follows.

Concrete panel having a concrete panel fixing protrusion 44 for fixing the concrete panel 30 by combining the hurdle-shaped support coupling groove 45 and the concrete panel support hanger 39 to be coupled to the hurdle-shaped support 42 The hurdle-shaped support 42 is formed on the concrete panel support 43 and the flattened ground 4 including the separation prevention ring 46 for preventing the separation between the pedestal 43 and the concrete panel support 43. It is provided with a base concrete 41 is cured in the 'b-shape' is formed.

In more detail, in the case of the hurdles-type support 42, by fixing the concrete panel 30 together with the hurdles-type support hanger groove 45, and the frictional force generated by the vertical stress of the concrete panel 30 and In addition, the concrete panel 30 increases the stress due to the action reaction in response to the earth pressure to break, thereby increasing the safety of the retaining wall by dispersing the earth pressure received by the concrete panel 30. In addition, the place where the rupture occurs in the retaining wall will be a part having a drainage groove 47 in which the concrete panel 30 and the concrete panel support 40 are in contact with each other, so that the rupture occurs by forming the foundation concrete 41 in a 'b' shape. Lower the number of cases.

In the case of the separation prevention ring 46 of the concrete panel support 43, by tying a rope (not specifically shown) to the separation prevention ring 36 when installing the concrete panel 30, the concrete panel support 43 ) Increases safety by preventing them from being spaced apart.

Looking at the attached Figure 6, the lower end of the concrete panel 30 is characterized in that it has an upward inclination horizontally from the front bar, the inclination a ° is adjustable during the manufacture of the concrete panel 30, so When the concrete panel 30 is installed on the concrete panel support 40, it is possible to change the inclination angle of the Y-axis based on the concrete panel 30, and accordingly to the installation environment of the retaining wall 10. By installing the slope, it is possible to design the optimized retaining wall by remarkably reducing the magnitude of the bending moment and shear force that resist the earth pressure of the soil.

The retaining wall 10 is a structure that is supported by the concrete panel 30 and the concrete panel support 40 to counteract the earth pressure caused by the backing soil formed on the rear surface of the retaining wall 10, and the workability is greatly improved, and the rapid retaining wall It is possible to form the effect of reducing the construction period, the weight is reduced when using the concrete panel 30 is very easy to transport and install.

In addition, the Japanese Society of Geotechnical Engineers, in the case of the angle of cutting the arm to the optimal cutting angle of 43 ~ 52 ° in consideration of the strength of the arm, by using the concrete panel support 40, the concrete panel 30 is vertical By providing the inclination angle based on the Y-axis, it is possible to design the retaining wall by remarkably reducing the magnitude of the bending moment and shear force that resists the earth pressure of the backing soil, and thus, the size of the retaining wall 10 can be reduced. In addition, the amount of rebar used in the house is also reduced.

In addition, as the concrete panel 30 has an inclination angle, the anchor 20 is also mounted at an angle of about 20 ° with respect to the horizontal X axis, thereby increasing the safety factor against earth pressure and resisting earth pressure. It significantly reduces the magnitude of bending moment and shear force.

Configurations shown in the embodiments and drawings described herein are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, and various equivalents that may be substituted for them at the time of the present application and It should be understood that there may be variations.

Therefore, although the present invention has been described in detail with reference to the specific embodiments described, it will be apparent to those skilled in the art that various modifications and changes can be made within the scope of the technical idea of the present invention, and such modifications and modifications belong to the appended claims. It is natural.

1 is a cross-sectional view of a retaining wall structure using an anchor and a concrete panel according to the present invention.

Figure 2 is a detailed view showing the installation relationship between the anchor and the concrete panel in the retaining wall structure using the anchor and the concrete panel according to the present invention.

3 to 6 is a perspective view, a bottom perspective view, a rear perspective view and a right side view showing a concrete panel in the retaining wall structure using the anchor and the concrete panel according to the present invention.

Figure 7 is a perspective view showing an extract of the concrete panel support in the retaining wall structure using the anchor and the concrete panel according to the present invention.

Figure 8 is a perspective view of the hurdler-shaped support in the retaining wall structure using the anchor and concrete panel according to the present invention.

9A to 9H are flowcharts showing a down-top construction process of the retaining wall structure using the anchor and the concrete panel according to the present invention.

10a to 10h is a flow chart showing a top-down construction process of the retaining wall structure using an anchor and a concrete panel according to the present invention.

Explanation of symbols on the main parts of the drawings

 3: wall 4: ground 5: insertion hole

10: retaining wall 20: anchor 21: fixing part

22: mounting hole 23: cap 24: pressure plate

30 concrete panel 31 hollow 32 base

33: upper drainage hole 34: lower drainage hole

35: uneven portion 35-1: mounting projection 35-2: groove

36: concrete panel support coupling groove 37: concrete panel support coupling groove

38: separation ring 39: concrete panel hanger

40: concrete panel support 41: foundation concrete

42: hurdles-type support 43: concrete panel support

44: concrete panel fixing protrusion 45: hurdle-type support hook groove 46: separation prevention ring

47: drainage groove 50: pitcher mat 60: primary concrete

61: secondary concrete 62: gravel 63: soft soil

64: land 65: sleeve pipe

67: Ridge peak 68: Falling prevention 69: Infinite slope

Claims (6)

In trying to construct the retaining wall 10 on an infinite slope, Forming a wall (3) by leveling and arranging the ground (4) horizontally along a boundary line for the construction of the retaining wall (10) and cutting the inclined slope inclinedly; Installing a foundation concrete (41) cured in a 'B' shape with a hurdle-shaped support (42) on the flattened ground (4); Positioning the concrete panel (30) on the concrete panel support (40) having the hurdle type support (42) and placing the concrete panel support (43) on the foundation concrete (41) cured in a 'n-shape'; Forming an insertion hole (5) in the wall (3) and inserting and installing the anchor (20); Loading the sleeve pipe (65) on the installed anchor (20) and attaching the permeable mat (50) to the rear to construct the concrete panel (30); Injecting concrete between the hypothesized concrete panel 30 and the wall 3 to pour the concrete to the lower circumference of the lower drain hole of the concrete panel 30 to cure the primary concrete 60; Reinjecting the secondary concrete (61) to the upper side of the primary concrete (60) cured by pouring and pouring the secondary concrete (61) to the upper side of the sleeve pipe (65) to cure; The anchor 20 is tensioned and fixed to the concrete panel 30 by using the pressure plate 24 and the mounting holes 22 at the tip of the tensioned anchor 20, and the cap (180) on the fixed mounting holes 22 23) a covering step; Anchoring between the concrete panel 30 and the wall 3 with gravel 62 and soft soil 63 on the cured secondary concrete 61; Construction method of retaining wall using The method according to claim 1, further comprising repeating the land (64) of the retaining wall (10) constructed by each step as a new ground (4); On the inclined slope 69 which forms a steep slope, the rear wall of the retaining wall 10

A ridge formed by burying the ridge ridge 67 of the form; Construction of the retaining wall using the anchor and the concrete panel, characterized in that installed by installing a rockfall prevention measures 68 to block the falling rock and earth and sand to the rear of the ridge urge (67). A foundation concrete 41 flattened and arranged horizontally on the inclined slope 69 and provided with a hurdle-shaped support 42 on the flattened ground 4 and cured in a 'B' shape; A concrete panel support (40) having the hurdle support (42) and placing the concrete panel support (43) on the foundation concrete (41) cured in a 'n-shape'; A concrete panel 30 positioned on the concrete panel support 40; An anchor 20 installed in the insertion hole 5 formed in the wall 3; A sleeve pipe (65) loaded in the anchor (20); A permeable mat 50 attached to the rear surface of the concrete panel 30; Primary concrete 60 and secondary concrete 61 that are cured by injecting concrete between the hypothesized concrete panel 30 and the wall 3 and pouring the concrete to the circumferential bottom of the lower drainage hole of the concrete panel 30; Gravel 62 and soft soil 63 deposited on the secondary concrete 61 cured between the concrete panel 30 and the wall 3; A tension plate 24 and mounting holes 22 for tensioning the anchor 20 and fixing the anchor 20 to the concrete panel 30; Retaining wall using the anchor and the concrete panel, characterized in that formed; including; cap (23) covered on the mounting hole (22). The method of claim 3, wherein the concrete panel 30 is Located on the front of the square or rectangular concrete panel 30, the base 32 is formed to protrude forward and inclined inwardly; A hollow 31 integrally formed on the upper side of the seat 32 so that the tip portion of the anchor 20 can be loaded; A lower drain hole 34 formed on the left side and the right side of the middle of the concrete panel 30 by horizontally upwardly drilling the front surface; An upper drain hole 33 formed on the upper left and right sides of the concrete panel 30 by horizontally drilling upwards from the front surface;  On the left and right sides of the concrete panel 30 and the concave-convex portion 35 is formed integrally with the mounting projection 35-1 and the groove 35-2; A concrete panel support coupling groove 36 provided to be coupled to the concrete panel support 40 on the bottom of the concrete panel 30; A concrete panel support coupling groove 37 provided to be coupled to the concrete panel support 43 on the bottom of the concrete panel 30; Spacing prevention ring 36 formed integrally with the concave-convex portion 35 at the upper end of the rear surface of the concrete panel 30; Retaining wall using anchors and concrete panels, characterized in that formed; including; concrete pedestal hanger (39) integrally formed to be coupled to the concrete panel support (43) to the interruption of the back of the concrete panel (30). The retaining wall using the anchor and the concrete panel according to claim 3, wherein the lower end of the concrete panel 30 has an upward slope horizontally from the front side. According to any one of claims 3 to 5, wherein the concrete panel support 43 A hurdles-type support hanger groove 45 coupled with the hurdles-type support 42 protruding from the base concrete 41; A concrete panel fixing protrusion 44 fixed to the concrete panel 30 by combining with the concrete panel supporter 39 provided on the rear surface of the concrete panel 30; Retaining wall using the anchor and the concrete panel, characterized in that formed; including; the separation prevention ring 46 to prevent the separation of the concrete panel support 43.

Images