KR102473132B1 - Retaining wall and construction method thereof - Google Patents

Abstract

The present invention embeds a pull-out resistor and a compression resistor on a horizontal ground, and a low-rise foundation in which the upper ends of each resistor are buried, and an upper-layer foundation in which the upper end of the pull-out resistor and the lowest retaining wall block are buried. By constructing the retaining wall foundation, The present invention relates to a retaining wall structure and a method of constructing a retaining wall using the same, which enable the construction of the retaining wall structure to be more robust by resisting each resistor so as to complement each other against the pull-out and compression pressure caused by earth pressure.

Description

Retaining wall structure using pull-out resistor, pressure resistor and prefabricated retaining wall block and method of constructing the retaining wall using the same {RETAINING WALL AND CONSTRUCTION METHOD THEREOF}

The present invention embeds a pull-out resistor and a compression resistor on a horizontal ground, and a low-rise foundation in which the upper ends of each resistor are buried, and an upper-layer foundation in which the upper end of the pull-out resistor and the lowest retaining wall block are buried. By constructing the retaining wall foundation, The present invention relates to a retaining wall structure and a method of constructing a retaining wall using the same, which enable the construction of the retaining wall structure to be more robust by resisting each resistor so as to complement each other against the pull-out and compression pressure caused by earth pressure.

In the conventional retaining wall, a plurality of blocks are built at a predetermined distance from the slope, the space behind the block is filled and compacted with aggregate, reinforced soil, etc., and a horizontal grid is tied inside the retaining wall made of blocks, so that the rear of the retaining wall It is constructed to prevent soil collapse.

In the conventional retaining wall, cracks and fractures occur at the block and grid connection during uneven settlement of reinforced soil, resulting in frequent separation of the grid. There was a problem that cracks often occurred.

To solve this problem, there is a registered utility model No. 20-0402401.

The registered utility model makes it possible to improve the resistance of the retaining wall by excavating a ground in which blocks are to be assembled, embedding a base plate, and driving an anchor at the rear end of the base plate to resist the load applied to the retaining wall.

However, since only the rear end of the base plate is anchored in the registered utility model, the force resisting the compressive pressure on the ground where the front end of the base plate is located is weak and the retaining wall may collapse if the base plate itself is out of balance. There is a risk.

In particular, the registered utility model is a gravity retaining wall in which the base plate and the block structure are connected in an inverted 'T' shape, and the compressive pressure applied to the part where the block structure is connected to the base plate is greatly increased. When the compression pressure applied to the base plate exceeds the pulling pressure applied to the rear end of the base plate, there is a problem in that the risk of collapse increases due to ground subsidence supporting the base plate or cracks in the base plate itself.

Accordingly, the present invention has been made to solve the above problems,

The present invention relates to a retaining wall structure for construction and a method of constructing a retaining wall using the same, in which pull-out resistors and compression resistors are buried in a horizontal ground, and the lower-level foundation portion in which the upper ends of each resistor are all buried, and the upper portion of the pull-out resistor and the lowermost retaining wall block are buried A retaining wall structure and a method of constructing a retaining wall using the same, which enable the construction of a retaining wall structure more firmly by constructing a retaining wall foundation unit that is integrated with the upper foundation unit by constructing a retaining wall foundation portion that is integrated with each other by resisting mutually complementary resistance against the pull-out and compression pressure caused by earth pressure intended to provide

In order to achieve the above object, the retaining wall structure according to the present invention,

In the retaining wall structure installed on the slope,

A pull-out resistor buried vertically in a position close to the slope in the horizontal ground connected to the lower end of the slope;

a compression resistor buried vertically at a position spaced apart from the horizontal ground by a predetermined width in front of the pull-out resistor;

A retaining wall foundation made of concrete cast around the pull-out resistor and the compression resistor and the foundation excavation of the horizontal ground;

Including; retaining wall blocks assembled in a stair shape at a predetermined angle toward the inclined surface to the upper side of the retaining wall foundation,

The retaining wall foundation is a low-level foundation made of concrete in which both the upper ends of the pull-out resistor and the compression resistor are buried in the lower part of the foundation excavation part, and the upper end of the pull-out resistor and the lowest retaining wall block are buried in the upper part of the lower-level foundation It is characterized in that it includes an upper foundation made of concrete that is poured so as to be.

And in the retaining wall structure according to the present invention,

The retaining wall foundation includes a horizontal resistance reinforcing bar that is horizontally reinforced in each of the lower level foundation and the upper level foundation, and a vertical resistance reinforcing bar that is reinforced through the lower level foundation and the upper level foundation in a vertical direction.

In addition, in the retaining wall structure according to the present invention,

A hinge shaft rotatably coupled to both sides of the lower end of the pull-out resistor, and a pull-out resistor formed by connecting both ends of the hinge shaft in the circumferential direction of the pull-out resistor and having a width greater than the radius of the buried hole for the pull-out resistor. It is installed in the vertical direction from the lower surface of the pull-out resistance unit and supported on the outer circumferential surface of the pull-out resistance body, but the pull-out resistance unit is hooked to the lower part of the horizontal ground in an upwardly inclined form from the hinge portion and buried. To include a pull-resistance anchor to be characterized

In addition, the retaining wall construction method using the retaining wall structure according to the present invention,

a) drilling a first buried hole for a pull-out resistor and a second buried hole for a compression resistor in a vertical direction in the horizontal ground connected to the lower end of the slope, and drilling the inner diameter of each hole larger than the outer diameter of each resistor;

b) inserting a pullout resistor and a compression resistor into each buried hole;

c) excavating foundation trenches around upper ends of the pull-out resistor and the compression resistor;

d) forming a low-rise foundation in which the upper ends of the pull-out resistor and the compression resistor are buried by pouring concrete into the lower part of the buried hole and the lower part of the foundation excavation;

e) installing a lowermost retaining wall block on the upper surface of the lower level foundation;

f) forming an upper foundation part in which the upper end of the pull-out resistor and the lowermost retaining wall block are buried by pouring concrete on the upper part of the foundation excavation part;

g) assembling and installing the retaining wall blocks in a stair shape at a predetermined angle toward the slope toward the upper side of the lowermost retaining wall block.

A retaining wall structure and a method for constructing a retaining wall using the same according to the present invention,

Compression resistors and pull-out resistors buried in the front and rear of the block, each resistor and the lowest retaining wall block are dualized and integrally constructed, including the retaining wall foundation consisting of a low-level foundation and an upper-level foundation, the pull-out pressure and foundation plate applied to the retaining wall can improve the resistance to both compression pressure applied to

By connecting the pull-out resistance body and the lowermost retaining wall block with reinforcing bars reinforced at the upper foundation, the pull-out resistance of not only the retaining wall foundation but also the retaining wall structure itself is secured,

It is a pull-resistance anchor that is hinged to the lower end of the pull-out resistor and rotates up and down.

It has the effect of reducing the risk of collapse of retaining walls.

1 and 2 are cross-sectional views of a retaining wall according to the present invention.
3 is a perspective view of a retaining wall block according to the present invention;
Figure 4 is a plan view and a front view showing the assembly structure of the retaining wall block according to the present invention.
5 to 10 are cross-sectional views showing the retaining wall construction method step by step according to the present invention.

Since the present invention can have various changes and various forms, the implementation examples (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

In each drawing, the same reference numeral, in particular, the same number of tens and ones digits, or the same reference numerals having the same tens digit, ones digit, and alphabet indicate members having the same or similar functions, and unless otherwise specified, each of the drawings Members indicated by reference numerals may be understood as members conforming to these standards.

In addition, the components in each drawing are expressed in exaggeratedly large (or thick) small (or thin) or simplified expressions in size or thickness in consideration of convenience of understanding, etc., but the scope of protection of the present invention is thereby limited. It shouldn't be.

Terms used in this specification are only used to describe a specific embodiment (aspect, aspect, aspect) (or embodiment), and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as ~comprising~ or ~consisting of are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

~First~, ~Second~, etc. described in this specification will only be referred to to distinguish different components from each other, regardless of the manufacturing order, and the names in the detailed description and claims of the invention may not match.

In explaining the retaining wall structure and the retaining wall construction method using the retaining wall structure according to the present invention, if a non-strict approximate direction criterion is specified with reference to FIG. 1 for convenience, the direction seen from the left to the right is , and the detailed description and claims of the invention related to the other drawings specify and describe the direction according to this criterion unless otherwise specified.

Hereinafter, a retaining wall structure according to the present invention and a method for constructing a retaining wall using the same will be described with reference to the accompanying drawings.

The present invention relates to a retaining wall structure with improved pull-out resistance and compression resistance of the retaining wall and a retaining wall construction method using the same,

First, the retaining wall structure according to the present invention, as shown in FIGS. 1 to 10, largely includes a pullout resistor 10, a compression resistor 20, a retaining wall foundation 30, retaining wall blocks 40, and various connecting materials do.

The pull-out resistor 10 is vertically buried at a position close to the slope surface 1 in the horizontal ground 2 connected to the lower end of the slope surface 1.

And, the compression resistor 20 is vertically buried at a position spaced apart from the front of the pull-out resistor 10 by a predetermined interval in the horizontal ground 2 .

These pull-out resistors 10 and compression resistors 20 may use concrete anchor piles, H-beam anchor piles, steel pipe anchor piles, PC steel wires and anchor assembly piles,

At this time, the pull-out resistor 10 is made longer than the compression resistor 20, so that when each resistor 10, 20 is buried at the same depth, the pull-out resistor 10 protrudes more upward than the compression resistor 20. is constructed

In addition, both ends of the pull-out resistor 10 are hinged to be rotatable up and down on both sides of the lower end of the pull-out resistor 10 and connected in the circumferential direction of the pull-out resistor 10, and the first buried hole for the pull-out resistor 10 ( A pull-out resistor 11a having a width greater than the radius of 4), installed vertically on the lower surface of the pull-out resistor 11a, and supported on the outer circumferential surface of the pull-out resistor 10, and the pull-out resistor 11a It includes a pull-resistant anchor 11 consisting of a support portion 11b that is caught on the lower portion of the horizontal ground 2 and buried in an upwardly inclined form toward the outside.

When the pull-out resistance anchor 11 rotates upward, the pull-out resistor 11a is erected in close contact with the outer circumferential surface of the pull-out resistor 10, and the pull-out resistor 10 is placed in the first buried hole 4 for the pull-out resistor 10. It is insertable, and when the support part 11b is supported by the pull-out resistor 10 during downward rotation, the pull-out resistor 11a reverses in an oblique direction to form the first buried hole 4 Horizontal ground (2) ), and resists the pull-out pressure applied to the retaining wall foundation 30.

Further, the compression resistance body 20 supports the front end of the retaining wall foundation 30, particularly the lower part of the lowermost retaining wall block 40A, to resist compression resistance applied to the retaining wall.

In particular, as the pull-out resistors 10 and the compression resistors 20 are arranged in the front and back of the retaining wall foundation 30, each resistor 10, 20 mutually resists the pull-out pressure and the compression pressure, thereby forming a retaining wall foundation Cracks of the part 30 and the retaining wall block 40, ground subsidence, and collapse of the retaining wall are prevented from occurring.

Subsequently, the retaining wall foundation 30 supports the lower part of the block outer wall 3, and the circumference of the pull-out resistor 10 and the compression resistor 20 and the horizontal foundation 2 Cast in the excavation portion 6 made of concrete

In particular, the retaining wall foundation 30 is a low-rise foundation 31 made of concrete in which both the upper ends of the pull-out resistor 10 and the compression resistor 20 are buried in the lower-tier portion of the foundation excavation 6, In the upper part of the lower level foundation part 31, the upper part of the pull-out resistor 10 and the lowermost retaining wall block 40A are embedded with an upper level foundation part 32 made of concrete.

The retaining wall foundation 30, which is integrated and constructed by the dualized concrete pouring, increases the binding force between the pullout resistor 10 and the compression resistor 20 and the lowermost retaining wall block 40A, which are embedded in concrete, so that the outer wall of the block (3) The pull-out resistance and compression resistance of can be greatly improved.

In addition, the retaining wall foundation 30 includes horizontal resistance reinforcing bars 33 reinforced in the horizontal direction on each of the lower foundation 31 and the upper foundation 32, the lower foundation 31 and the upper foundation ( 32) includes vertical resistance reinforcing bars 34 that are reinforced by penetrating in the vertical direction.

The horizontal and vertical resistance reinforcing bars 33 and 34 resist the pressure acting in the horizontal direction of each foundation part 31 and 32 and in the vertical direction of the foundation parts 31 and 32, thereby forming the retaining wall foundation part 30 It contributes to the increase of its own rigidity.

In addition, the retaining wall blocks 40 are assembled in a stepped shape at a predetermined angle toward the slope surface 1 upward of the retaining wall foundation 30, and as described above, the lowermost retaining wall block 40A is the upper foundation 32 ) is buried in

This retaining wall block 40 has a trapezoidal shape with a wider left and right width of the front side than the rear side, and has an embossed portion 40a protruding convexly on the front side, and the retaining wall blocks 40 of the same layer are arranged on the same line on the left and right side. As such, the upper retaining wall blocks 40H are assembled and installed in the form of retreating toward the slope surface 1 from the upper surface of the lower retaining wall block 40L, so that the block outer wall 30 has a stepped inclined structure.

In addition, the retaining wall blocks 40 are stacked in a form in which a lower retaining wall block 40L and an upper retaining wall block 40H are arranged in a left and right zigzag pattern.

Specifically, first, the retaining wall block 40 is provided with a matching protrusion 41a at one corner of the rear side corners and a matching groove 41b at the other corner,

The retaining wall blocks 40 arranged on the left and right are aligned and connected in a male-female coupling structure, and due to the trapezoidal structure of the retaining wall block 40, a wedge-shaped filling portion 40S is formed between the left and right retaining wall blocks 40, so that the soil or aggregate filled with etc.

In addition, the retaining wall block 40 has assembly grooves 42a formed in the vertical direction having a predetermined depth on both left and right sides and arranged at a predetermined interval in the front and rear on each side, and penetrating in the vertical direction at a predetermined position on the front end side of the center Including the long part 42b formed by

A vertical connection anchor rod 42R is inserted into and coupled to one of the assembly grooves 42a of the retaining wall block 40 arranged on the lower layer and the hole portion 42b of the retaining wall block 40 arranged on the upper layer.

That is, after inserting the lower end of the vertical connection anchor rod 42R into one of the assembly grooves 42a on each side facing each other in the left and right retaining wall blocks 40, the vertical connection anchor rods 42R are installed at the upper end. When assembled by inserting into both ends of the long hole 42b of the retaining wall block 40 assembled on the upper layer, the upper and lower retaining wall blocks 40 are cross-arranged in a left and right zigzag and built,

At this time, the inclination of the retaining wall can be arbitrarily changed and adjusted by changing the position where the vertical connection anchor rod 42R is inserted.

In addition, the retaining wall block 40 has a binding groove 43a formed in a '+' shape with a predetermined depth on the upper surface, and a fitting groove 43b formed at a predetermined depth in the vertical direction at a predetermined position of the binding groove 43a including,

Both ends of the horizontal connecting rod 43R bent in a 'c' shape are inserted into and coupled to each fitting groove 43b of the retaining wall block 40 arranged left and right or front and rear.

In addition, the retaining wall block 40 is provided with coupling grooves 44 formed to a predetermined depth on the upper and lower surfaces, and the assembling pin 44R is inserted into each coupling groove 44 of the upper and lower retaining wall blocks 40 to be coupled. .

Furthermore, the present invention includes transverse connection reinforcing bars 35 that are reinforced by connecting upper surfaces of the pullout resistors 10 that are arranged in the left and right horizontal directions and buried in the left and right horizontal directions.

The transverse connection reinforcing bars 35 are coupled to the upper surface of the pull-out resistors 10 by welding or the like to connect the pull-out resistors 10 and increase the rigidity of the upper base portion 32.

Through this, the pull-out resistors 10 and the lower retaining wall blocks 40A are connected to each other in the front, rear, left and right directions, thereby helping to improve the self-stiffness of the upper foundation part 32.

Next, a method of constructing a retaining wall using the retaining wall structure described above will be described.

The construction method of the retaining wall according to the present invention,

a) The first buried hole 4 for the pullout resistor 10 and the second buried hole 5 for the compression resistor 20 are drilled in the vertical direction in the horizontal ground 2 connected to the lower end of the slope surface 1, , drilling the inner diameter of each buried hole (4) (5) larger than the outer diameter of each resistor (10) (20);

b) inserting a pullout resistor 10 and a compression resistor 20 into each buried hole 4 and 5;

c) excavating a foundation trench 6 around the upper ends of the pull-out resistor 10 and the compression resistor 20;

d) By pouring concrete on the lower part of each of the buried holes (4) and (5) and the foundation excavation part (6), the lower part of the foundation (31) in which the upper ends of the pull-out resistor (10) and the compression resistor (20) are buried is formed. forming;

e) installing a lowermost retaining wall block (40A) on the upper surface of the lower foundation part (31);

f) forming an upper foundation part 32 in which the upper end of the pull-out resistor 10 and the lowermost retaining wall block 40A are buried by pouring concrete on the upper part of the foundation excavation part 6;

g) assembling and installing the retaining wall blocks 40 in a stair shape at a predetermined angle toward the inclined surface 1 upward of the lowermost retaining wall block 40A.

In the step a), the first buried hole 4 for the pull-out resistor 10 and the second buried hole 5 for the compression resistor 20 are both drilled to the same depth. At this time, each resistor 10, 20 The inner diameter of each buried hole 4, 5 is larger than the outer diameter of the hole by a predetermined size.

And, in step b), each resistor 10, 20 is inserted into each buried hole 4, 5. At this time, the pull-out resistance anchor 11 of the pull-out resistor 10 is tilted upward, Allow it to be inserted into the ball (4).

When the insertion of the pullout resistor 10 is completed in step b), the driving casing 12 having an outer diameter larger than the outer diameter of the pullout resistor 10 and smaller than the inner diameter of the first buried hole 4 Extrapolate and insert into the pull-out resistor (10).

The driving casing 12 fitted in this way strikes the pull-resistant portion 11a of the pull-resistance anchor 11 that is tilted upward to the lower side, causing the pull-resistance anchor 11 to rotate downward. At this time, the support portion 11b Due to this, the pull-out resistance unit 11a is spread upwardly inclined with respect to the hinge axis, and the end of the pull-out resistance unit 11a is caught on the lower part of the horizontal ground 2 and buried.

Next, in the step c), the foundation excavation part 6 is excavated, and at this time, the foundation excavation part 6 is excavated larger than the entire area of the retaining wall foundation part 30.

When the foundation excavation work is completed, formwork is installed around the upper ends of the pullout resistor 10 and the compression resistor 20, and then step d) is performed. When concrete is poured to a height lower than the formwork, each buried hole (4) ) (5), the low-rise foundation 31 is completed.

And when concrete is poured in step d), the horizontal resistance reinforcing bars 33 and the vertical resistance reinforcing bars 34 are placed together.

Subsequently, in the step e), the retaining wall blocks 40 are installed on the left and right of the low-rise foundation 31, and at this time, the vertical connection anchor rod 42R is inserted in an appropriate position in consideration of the inclined design of the retaining wall. The left and right retaining wall blocks 40 are fixed by the matching protrusions 41a and the matching grooves 41b of the retaining wall block 40, and the 'c'-shaped horizontal connecting rod 43R.

When the installation of the retaining wall blocks 40A of the lowest layer of the retaining wall is completed, after installing the transverse connecting reinforcing bars 35 and the longitudinal connecting reinforcing bars, additional concrete is poured into the formwork in step f) to form the upper foundation 32 At this time, the reinforcement of the horizontal resistance reinforcing bars 33 is performed together.

And when the retaining wall foundation 30 composed of the lower foundation 31 and the upper foundation 32 is completed, the remaining retaining wall blocks 40 are sequentially stacked and constructed on the lowest retaining wall block 40A in a stepwise fashion. At this time, The binding force between the retaining wall blocks 40 is increased by the vertical connecting anchor rods 42R, the assembly pins 44R, and the horizontal connecting rods 43R.

In addition, if necessary, additional retaining wall blocks 40 can be installed using the vertical connecting anchor rods 42R, assembly pins 44R, and horizontal connecting rods 43R along with the retaining wall block 40 on the front side ( see Figure 2).

Finally, when the construction of the retaining wall blocks 40 is completed, after removing the formwork, soil is piled up on the foundation excavation part 6 for trimming, and at the same time, aggregates or soil in the space between the retaining wall blocks 40 and the slope surface 1 When the back is filled and trimmed, the retaining wall is complete.

In the above description of the present invention, the retaining wall structure and the retaining wall construction method using the same have been mainly described with reference to the accompanying drawings, but the present invention can be variously modified, changed, and replaced by those skilled in the art, and these modifications, changes, and replacements are It should be construed as belonging to the protection scope of the invention.

10: pull-out resistor 20: compression resistor
30: retaining wall foundation 40: retaining wall block

Claims (4)

In the retaining wall structure installed on the slope surface (1),
A pull-out resistor (10) buried vertically in the vicinity of the slope (1) in the horizontal ground (2) connected to the lower end of the slope (1);
a compression resistor 20 vertically buried at a position spaced apart by a predetermined width from the horizontal ground 2 in front of the pull-out resistor 10;
A retaining wall foundation 30 made of concrete cast around the pull-out resistor 10 and the compression resistor 20 and the foundation excavation 6 of the horizontal ground 2;
Including; retaining wall blocks 40 assembled in a stair shape at a predetermined angle toward the slope surface 1 upward of the retaining wall foundation 30,
The retaining wall foundation 30 is a low-rise foundation 31 made of concrete in which both the upper ends of the pull-out resistor 10 and the compression resistor 20 are buried in the lower-tier portion of the foundation excavation portion 6, the It includes an upper foundation 32 made of concrete in which the upper end of the pull-out resistor 10 and the lowermost retaining wall block 40 are buried in the upper layer of the lower foundation 31,
The retaining wall blocks 40 are stacked in a form in which the lower retaining wall block 40L and the upper retaining wall block 40H are arranged in a left and right zigzag,
The retaining wall block 40,
A matching protrusion 41a is provided at one corner of both rear corners and a matching groove 41b is provided at the other corner, so that the retaining wall blocks 40 arranged left and right are aligned and connected in a male-female coupling structure,
Assembling grooves 42a formed in the vertical direction with a predetermined depth on both left and right sides and arranged at a predetermined interval in the front and rear on each side, and a long hole 42b formed vertically penetrating at a predetermined position on the front end side of the center Thus, the vertical connection anchor rod 42R is inserted into one of the assembly grooves 42a of the retaining wall block 40 arranged on the lower layer and the hole 42b of the retaining wall block 40 arranged on the upper layer,
Including a binding groove 43a formed in a '+' shape with a predetermined depth on the upper surface and a fitting groove 43b formed in a predetermined depth in the vertical direction at a predetermined position of the binding groove 43a, Both ends of the bent horizontal connecting rod 43R are inserted into and coupled to each fitting groove 43b of the retaining wall block 40 arranged left and right or front and rear,
A retaining wall structure characterized in that coupling grooves 44 formed to a predetermined depth are provided on the upper and lower surfaces, and assembly pins 44R are inserted into and coupled to each coupling groove 44 of the upper and lower retaining wall blocks 40.
According to claim 1,
The retaining wall foundation 30 includes horizontal resistance reinforcing bars 33 that are reinforced in the horizontal direction on the lower foundation 31 and the upper foundation 32, respectively, the lower foundation 31 and the upper foundation 32 ) Retaining wall structure characterized in that it comprises a vertical resistance reinforcing bar (34) that is reinforced by penetrating in the vertical direction.
According to claim 1 or 2,
Both ends of the pull-out resistor 10 are hinged so as to be rotatable up and down on both sides of the lower end of the pull-out resistor 10 and connected in the circumferential direction of the pull-out resistor 10. A pull-out resistor (11a) having a width greater than the radius, installed vertically on the lower surface of the pull-out resistor (11a) and supported on the outer circumferential surface of the pull-out resistor (10), with the pull-out resistor (11a) facing outward. Retaining wall structure characterized in that it comprises a pull-resistant anchor (11) consisting of a supporting portion (11b) to be buried by hanging on the lower part of the horizontal ground (2) in an upwardly inclined form.
In the retaining wall construction method using the retaining wall structure of claim 1,
a) In the horizontal ground (2) connected to the lower end of the slope (1), the burial hole (4) for the pullout resistor (10) and the burial hole (5) for the compression resistor (20) are drilled in the vertical direction, but each burial hole (4) drilling the inner diameter of (5) larger than the outer diameter of each resistor (10, 20);
b) inserting a pullout resistor 10 and a compression resistor 20 into each buried hole 4 and 5;
c) excavating a foundation trench 6 around the upper ends of the pull-out resistor 10 and the compression resistor 20;
d) By pouring concrete on the lower part of each of the buried holes (4) and (5) and the foundation excavation part (6), the lower part of the foundation (31) in which the upper ends of the pull-out resistor (10) and the compression resistor (20) are buried is formed. forming;
e) installing a lowermost retaining wall block (40A) on the upper surface of the lower foundation part (31);
f) forming an upper foundation part 32 in which the upper end of the pull-out resistor 10 and the lowermost retaining wall block 40A are buried by pouring concrete on the upper part of the foundation excavation part 6;
g) assembling and installing the retaining wall blocks 40 in a stair-like shape at a predetermined angle toward the inclined surface 1 upward of the lowermost retaining wall block 40A;
The retaining wall blocks 40 are stacked in a form in which the lower retaining wall block 40L and the upper retaining wall block 40H are arranged in a left and right zigzag,
The retaining wall block 40,
A matching protrusion 41a is provided at one corner of both rear corners and a matching groove 41b is provided at the other corner, so that the retaining wall blocks 40 arranged left and right are aligned and connected in a male-female coupling structure,
Assembling grooves 42a formed in the vertical direction with a predetermined depth on both left and right sides and arranged at a predetermined interval in the front and rear on each side, and a long hole 42b formed vertically penetrating at a predetermined position on the front end side of the center Thus, the vertical connection anchor rod 42R is inserted into one of the assembly grooves 42a of the retaining wall block 40 arranged on the lower layer and the hole 42b of the retaining wall block 40 arranged on the upper layer,
Including a binding groove 43a formed in a '+' shape with a predetermined depth on the upper surface and a fitting groove 43b formed in a predetermined depth in the vertical direction at a predetermined position of the binding groove 43a, Both ends of the bent horizontal connecting rod 43R are inserted into and coupled to each fitting groove 43b of the retaining wall block 40 arranged left and right or front and rear,
Retaining wall construction method characterized in that coupling grooves 44 formed to a predetermined depth are provided on the upper and lower surfaces, and the assembly pins 44R are inserted into and coupled to each coupling groove 44 of the upper and lower retaining wall blocks 40.

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