KR102316153B1 - Artificial Stone Stacking System and Method of Artificial Stone Stacking Using it - Google Patents

Abstract

The present invention relates to an artificial stone stacking system for a retaining wall and an artificial stone stacking method using the same, which may provide a simple structure to prevent the loss of soil caused by external factors such as storms, waves, the earth pressure and the like, while easily guaranteeing the stability of a slope. To this end, the present invention comprises: an artificial stone (102) of a lozenge shape with a predetermined length and a predetermined thickness; a full thread bolt (104) which is fixedly connected to one side of the artificial stone (102) to prevent the loss of filled pebbles or riprap while preventing the dislocation of the artificial stone (102) from the right position; a first wing pin (106) which is fixedly installed at one side edge of the full thread bolt (104) to prevent the loss of filled pebbles or riprap; a second wing pin (108) which is fixedly installed at one side of the full thread bolt (104) at a predetermined interval from the first wing pin (106) to prevent the loss of filled pebbles or riprap; a first sawtooth means (110) which has a plurality of sawteeth and is made of concrete to be installed at the ground surface which is excavated at a predetermined depth at a predetermined interval from the second wing pin (108); a support means (112) of a square shape which is made of concrete to be installed along the upper surface of the first sawtooth means (110); and a second sawtooth means (114) which is made of concrete to be installed along the upper surface of the support means (112), while having a plurality of sawteeth which are formed to protrude from the ground surface.

Description

Artificial Stone Stacking System and Method of Artificial Stone Stacking Using it}

The present invention relates to an artificial stone stacking system for a retaining wall, and more particularly, an artificial stone for a retaining wall that has a simple structure and prevents the loss of soil and soil due to external factors such as storms, waves, and earth pressure, and can easily secure the stability of the slope It relates to a stacking system and an artificial stone stacking method using the same.

In general, a reinforced earth retaining wall is a wall that resists earth pressure and prevents the soil from collapsing. It is a structure in which multiple reinforcement earth retaining wall assemblies are combined to prevent collapse.

1 is a view showing an assembly for a general reinforced earth retaining wall.

As shown in FIG. 1, a general assembly for reinforcing earth retaining walls is provided with a plurality of elliptical through-holes 10-1 and first and second circular coupling grooves 10-3 and 10-4 on the upper portion of the roadside slope surface. 'Yo'-shaped retaining wall block (10) and the 'Yo'-shaped retaining wall block (10) that supports the slope or slope of the cut-off site formed by civil works such as embankments, river banks, and landscape wall surfaces and prevents the soil from collapsing. It is inserted and fixed in the first coupling groove 10-3 or the second coupling groove 10-4 of the An oval fastening hole (30-1) by connecting a rod-shaped connecting pin (20) that increases friction with soil, pulling-out resistance, and shear stress, and a plurality of horizontal bars (30-3) and vertical bars (30-5) It is composed of a geogrid (30) that forms and inserts the connection pin (20) into the fastening hole (30-1) to generate friction with the soil, pull-out resistance, and shear stress.

FIG. 2 is a view illustrating a state in which a retaining wall is installed using the assembly for a reinforced soil retaining wall of FIG. 1 .

As shown in FIG. 2 , the first layer is stacked by locating the 'Yo'-shaped retaining wall block 10 on the bottom of the foundation with good drainage.

Then, the rod-shaped connecting pin 20 of a certain length is inserted and fixed into the first circular coupling groove 10-3 or the second circular coupling groove 10-4 formed in the 'yaw'-shaped retaining wall block 10 .

Thereafter, the connection pin 20 is inserted and adhered to the fastening hole 30-1 of the geogrid 30.

Then, the 'yaw'-shaped retaining wall block 10 of the second layer is stacked on the upper surface of the 'yaw'-shaped retaining wall block 10 of the first layer.

At this time, the connecting pin 20 inserted and fixed into the first circular coupling groove 10-3 or the second circular coupling groove 10-4 is penetrated formed on the bottom surface of the 'yaw'-shaped retaining wall block 10 of the second layer. insert the ball

And, in the same manner as above, the third layer, the fourth layer, the fifth layer, ... .

Then, the soil is filled with the rear end of the 'Yo'-shaped retaining wall block 10 formed as a retaining wall.

However, in the general reinforced earth retaining wall assembly configured as described above, when the connecting pin is inserted into the first circular coupling groove of the 'yaw'-shaped retaining wall block of the first layer, or when the connecting pin is inserted into the second circular coupling groove, the first The second, third, fourth, fifth, and ... N-layer 'yaw'-shaped retaining wall blocks that are sequentially positioned on the upper surface of the 'Yo'-shaped retaining wall block have two slope angles. There was a problem that it was not possible to install a retaining wall having a slope.

In order to solve the above problems, an application has been filed with the Korean Intellectual Property Office as Application No. 20-2004-0012511 (Title of the Invention: Assembly for Reinforced Earth Retaining Wall) on May 04, 2004, and the claims are "a rectangle on the upper upper surface of the A plurality of through-holes 200-2 are provided on the side surfaces of the coupling groove 200-1 and the coupling groove 200-1, so that the slope of the cut-off site is formed by civil engineering such as roadside slopes, embankments, river banks, and landscape walls. A 'yaw'-shaped retaining wall block 200 that supports the slope and prevents the soil from collapsing; It has a contact part 210-1 with a convexly rounded outer surface, and is inserted and fixed into the rectangular coupling groove 200-1 of the 'yaw'-shaped retaining wall block 200 and the contact part 210-1) is inserted into the fastening hole 220-1 of the geogrid 220 and is in close contact with one side of the horizontal bar 220-3 and the vertical bar 220-5, and frictional force with soil of the geogrid 220, pull-out resistance, A 'Y'-shaped interlocking plate 210 that significantly increases the shear stress, and an oval fastening hole 220- 1) is formed and the 'Y'-shaped interlocking plate 210 is adhered to the horizontal bar 220-3 and the vertical bar 220-5 to generate friction with soil, pull-out resistance, and shear stress ( Geogrid (220); -5) as well as being inserted and fixed into the through hole 200-2 of the 'yaw'-shaped retaining wall block 200 stacked on the 'yaw'-shaped retaining wall block 200. ) (230), characterized in that the reinforcing earth retaining wall assembly.

As described above, research on the assembly for retaining walls is in a situation that is being continuously performed.

In order to solve the above problems, the present applicant has a simple structure and prevents the loss of soil due to external factors such as storms, waves, and earth pressure, and a system for stacking artificial stones for retaining walls that can easily secure the stability of the slope and using the same We would like to propose a method of stacking artificial stone.

Accordingly, the present invention has been improved and invented to solve the various problems according to the prior art, and an object of the present invention is to prevent the loss of soil and soil due to external factors such as storms, waves and earth pressure while having a simple structure and stability of the slope. An object of the present invention is to provide an artificial stone stacking system for a retaining wall and a method for stacking artificial stone using same.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

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An artificial stone stacking system for a retaining wall according to the present invention for achieving the above object,
An artificial stone 102 of a rhombic shape having a constant length and a constant thickness;
a computerized bolt 104 that is fixed to one side of the artificial stone 102 and prevents the loss of the filled gravel or gravel and also prevents the artificial stone 102 from being deviated from its original position;
a first wing pin 106 for preventing the loss of gravel or gravel that is installed and fixed on one edge of the computerized bolt 104;
a second wing pin 108 which is installed and fixed on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 and prevents the loss of gravel or sandstone;
a first tooth means 110 having a plurality of teeth made of concrete installed on the ground excavated to a predetermined depth at a predetermined distance from the second wing pin 108;
a rectangular support means 112 made of concrete installed along the upper surface of the first tooth means 110;
It is installed along the upper surface of the support means 112 and is made of concrete, and includes a second toothed means 114 having a plurality of teeth protruding from the ground,
The length of the artificial stone 102 of the rhombic shape is,
It includes those that are inclined toward one side.
And, the artificial stone stacking method using the artificial stone stacking system for a retaining wall according to the present invention for achieving the above object,
After excavating the ground to a certain depth, a first step of installing a first toothed means 110 having a plurality of teeth made of concrete along the excavated ground;
After the first step, a second step of installing a rectangular support means 112 made of concrete along the upper surface of the first tooth means 110;
After the second step, a second toothed means 114 having several teeth made of concrete is installed along the upper surface of the rectangular supporting means 112, but the second toothed means 114 is to protrude from the ground. a third step;
After the third step, a fourth step of positioning an artificial stone 102 in a rhombic shape having a constant length and a constant thickness between the teeth of the second tooth means 114;
After the fourth step, after making a groove on one side of the artificial stone 102, a fifth step of forcibly fitting the computerized bolt 104 into the groove of the artificial stone 102;
After the fifth step, after installing and fixing the first wing pin 106 on one edge of the computerized bolt 104, the second wing on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 a sixth step of installing and fixing the pins 108;
After the sixth step, prepare gravel or gravel, and place the prepared gravel or gravel in the back of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are. a seventh step of filling with
After the seventh step, an eighth step of placing an artificial stone 102 in a rhombic shape with a constant length and a constant thickness between the artificial stone 102 and the artificial stone 102;
After the eighth step, after making a groove on one side of the artificial stone 102, a ninth step of forcibly fitting the computerized bolt 104 into the groove of the artificial stone 102;
After the ninth step, after installing and fixing the first wing pin 106 on one edge of the computerized bolt 104, the second wing on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 a tenth step of installing and fixing the pins 108;
After the 10th step, prepare gravel or gravel, and place the prepared gravel or gravel on the back of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are. and the 11th step of filling with

As described above, the artificial stone stacking system for a retaining wall and the artificial stone stacking method using the same according to the present invention have a simple structure, so that when the retaining wall is built with artificial stone, it is possible to reduce the work time for building the retaining wall without a special stacking technique.

In addition, the present invention has the effect of preventing the loss of soil and soil due to external factors such as storms, waves, and earth pressure, and easily securing the stability of the slope.

In particular, the present invention is a method in which the artificial stone and the artificial stone are intertwined, as a method of laying the foundation and stacking up like a gear wheel, so unlike the past, it has a very strong effect as well as various sizes of artificial stone, so unlike the past, there is a wide range of choices to suit the site This has a wide effect.

1 is a view showing an assembly for a general reinforced earth retaining wall;
2 is a view showing a state in which the retaining wall is installed using the assembly for the reinforced soil retaining wall of FIG. 1;
3 is a view showing an artificial stone stacking system for a retaining wall according to the present invention;
4A to 4B are views illustrating a process of building a retaining wall using an artificial stone stacking system for a retaining wall according to the present invention.

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Hereinafter, a preferred embodiment of an artificial stone stacking system for a retaining wall and an artificial stone stacking method using the same according to the present invention will be described.
In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.
3 is a view showing an artificial stone stacking system for a retaining wall according to the present invention.
As shown in Figure 3, the artificial stone stacking system 100 for a retaining wall according to the present invention,
An artificial stone 102 of a rhombic shape having a constant length and a constant thickness;
a computerized bolt 104 that is fixed to one side of the artificial stone 102 and prevents the loss of the filled gravel or gravel and also prevents the artificial stone 102 from being deviated from its original position;
a first wing pin 106 for preventing the loss of gravel or gravel that is installed and fixed on one edge of the computerized bolt 104;
a second wing pin 108 which is installed and fixed on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 and prevents the loss of gravel or sandstone;
a first tooth means 110 having a plurality of teeth made of concrete installed on the ground excavated to a predetermined depth at a predetermined distance from the second wing pin 108;
a rectangular support means 112 made of concrete installed along the upper surface of the first tooth means 110;
It is installed along the upper surface of the support means 112 and is made of concrete, and includes a second tooth means 114 having a plurality of teeth protruding from the ground.
Here, the length of the artificial stone 102 of the rhombic shape is preferably inclined toward one side.
The rubble is rubble for maintaining the stability of the structure by filling in the voids in the interior or foundation of the shore, seawall, quay, etc.
The manufacturing process of the artificial stone stacking system 100 for a retaining wall according to the present invention included as described above is as follows.
Here, the manufacturing process of the artificial stone stacking system 100 for a retaining wall according to the present invention may be changed according to the manufacturer.
First, an artificial stone 102 having a rhombic shape having a predetermined length and a predetermined thickness is placed, and then a groove (not shown) is made on one side of the artificial stone 102 .
Then, the computerized bolt 104 is pressed into the groove of the artificial stone 102 .
And, after installing the first wing pin 106 on one edge of the computational bolt 104, the second wing pin 108 on one side of the computational bolt 104 at a predetermined distance from the first wing pin 106 ) is installed.
On the other hand, the first tooth means 110 having several teeth installed on the ground excavated to a predetermined depth at a predetermined distance from the second wing pin 108 is made of concrete, and the first tooth means 110 A rectangular support means 112 is made of concrete along the upper surface, and the second tooth means 114 having several teeth along the upper surface of the support means 112 is made of concrete.
The artificial stone stacking method using the artificial stone stacking system 100 for a retaining wall according to the present invention manufactured as described above will be described as follows.
How to lay the first artificial stone
First, after excavating the ground to a certain depth, as shown in FIG. 4A , a first cog means 110 having several teeth made of concrete is installed along the excavated ground.
Here, the first tooth means 110 serves as a fixed wedge.
Then, a rectangular support means 112 made of concrete is installed along the upper surface of the first tooth means 110 .
Then, along the upper surface of the rectangular support means 112, a second toothed means 114 having a plurality of teeth made of concrete is installed.
Here, it is preferable that the second tooth means 114 protrude from the ground.
And, as shown in Fig. 4b, a constant transmission bolt 104 and a first wing pin 106 and a second wing pin 108 are installed between the teeth and the teeth of the second tooth means 114. An artificial stone 102 having a rhombic shape having a length and a constant thickness is positioned.
And, after preparing gravel or gravel, the prepared gravel or gravel is filled with the rear of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are.
And, as shown in Fig. 4b, between the artificial stone 102 and the artificial stone 102, the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are installed with a certain length and An artificial stone 102 having a rhombic shape having a constant thickness is positioned.
And, after preparing gravel or gravel, the prepared gravel or gravel is filled with the rear of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are.
How to build the second artificial stone
First, after excavating the ground to a certain depth, as shown in FIG. 4A , a first cog means 110 having several teeth made of concrete is installed along the excavated ground.
Here, the first tooth means 110 serves as a fixed wedge.
Then, a rectangular support means 112 made of concrete is installed along the upper surface of the first tooth means 110 .
Then, along the upper surface of the rectangular support means 112, a second toothed means 114 having a plurality of teeth made of concrete is installed.
Here, it is preferable that the second tooth means 114 protrude from the ground.
And, as shown in Fig. 4b, the artificial stone 102 of a rhombic shape having a constant length and a constant thickness is positioned between the teeth and the teeth of the second tooth means 114.
Then, after making a groove on one side of the artificial stone 102 , the computerized bolt 104 is pressed into the groove of the artificial stone 102 .
And, after installing and fixing the first wing pin 106 to one edge of the computational bolt 104, the second wing pin 108 on one side of the computational bolt 104 at a predetermined distance from the first wing pin 106 ) is installed and fixed.
And, after preparing gravel or gravel, the prepared gravel or gravel is filled with the rear of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are.
Then, as shown in FIG. 4B , an artificial stone 102 in a rhombic shape having a predetermined length and a predetermined thickness is positioned between the artificial stone 102 and the artificial stone 102 .
Then, after making a groove on one side of the artificial stone 102 , the computerized bolt 104 is pressed into the groove of the artificial stone 102 .
And, after installing and fixing the first wing pin 106 to one edge of the computational bolt 104, the second wing pin 108 on one side of the computational bolt 104 at a predetermined distance from the first wing pin 106 ) is installed and fixed.
And, after preparing gravel or gravel, the prepared gravel or gravel is filled with the rear of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are.
Therefore, the present invention makes it possible to prevent the loss of soil due to external factors such as storms, waves and earth pressure while having a simple structure and to easily secure the stability of the slope.

The above detailed description of the present invention is merely illustrative of the present invention, which is only used for the purpose of describing the present invention and is not used to limit the meaning or the scope of the present invention described in the claims.

Therefore, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

100: artificial stone stacking system for retaining walls
102: diamond shaped artificial stone
104: computerized bolt
106: first wing pin
108: second wing pin
110: first tooth means
112: rectangular support means
114: second tooth means

Claims (4)

An artificial stone 102 of a rhombic shape having a constant length and a constant thickness;
a computerized bolt 104 that is fixed to one side of the artificial stone 102 and prevents the loss of the filled gravel or gravel and also prevents the artificial stone 102 from being deviated from its original position;
a first wing pin 106 for preventing the loss of gravel or gravel that is installed and fixed on one edge of the computerized bolt 104;
a second wing pin 108 which is installed and fixed on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 and prevents the loss of gravel or sandstone;
a first tooth means 110 having a plurality of teeth made of concrete installed on the ground excavated to a predetermined depth at a predetermined distance from the second wing pin 108;
a rectangular support means 112 made of concrete installed along the upper surface of the first tooth means 110;
It is installed along the upper surface of the support means 112 and is made of concrete, and includes a second toothed means 114 having a plurality of teeth protruding from the ground,
The length of the artificial stone 102 of the rhombic shape is,
An artificial stone stacking system for retaining walls, characterized in that it is inclined toward one side.
After excavating the ground to a certain depth, a first step of installing a first toothed means 110 having a plurality of teeth made of concrete along the excavated ground;
After the first step, a second step of installing a rectangular support means 112 made of concrete along the upper surface of the first tooth means 110;
After the second step, a second toothed means 114 having several teeth made of concrete is installed along the upper surface of the rectangular supporting means 112, but the second toothed means 114 is to protrude from the ground. a third step;
After the third step, a fourth step of positioning an artificial stone 102 in a rhombic shape having a constant length and a constant thickness between the teeth of the second tooth means 114;
After the fourth step, after making a groove on one side of the artificial stone 102, a fifth step of forcibly fitting the computerized bolt 104 into the groove of the artificial stone 102;
After the fifth step, after installing and fixing the first wing pin 106 on one edge of the computerized bolt 104, the second wing on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 a sixth step of installing and fixing the pins 108;
After the sixth step, prepare gravel or gravel, and place the prepared gravel or gravel in the back of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are. a seventh step of filling with
After the seventh step, an eighth step of placing an artificial stone 102 in a rhombic shape with a constant length and a constant thickness between the artificial stone 102 and the artificial stone 102;
After the eighth step, after making a groove on one side of the artificial stone 102, a ninth step of forcibly fitting the computerized bolt 104 into the groove of the artificial stone 102;
After the ninth step, after installing and fixing the first wing pin 106 on one edge of the computerized bolt 104, the second wing on one side of the computerized bolt 104 at a predetermined interval from the first wing pin 106 a tenth step of installing and fixing the pins 108;
After the 10th step, prepare gravel or gravel, and place the prepared gravel or gravel on the back of the artificial stone 102, that is, where the computerized bolt 104, the first wing pin 106, and the second wing pin 108 are. An artificial stone stacking method using an artificial stone stacking system for a retaining wall, comprising the 11th step of filling with











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