KR101499422B1 - safety embankment cutting slope construction method - Google Patents

Abstract

The present invention relates to a connection structure between a foundation stone and a cut soil portion, wherein the structure has one end inserted and fixed in a perforation hole formed in a cut slope at a predetermined inclination angle, and an annular ring is formed at the other end, And an annular ring is formed at the other end, and a thread is formed on the outer surface of the hole. The first fixing protrusion formed on the outer surface of the base is formed with a plurality of first fixing protrusions A dispersion frame having a plurality of second fixing protrusions, connection holes formed at both ends of the fixing protrusions, and a female screw hole formed in the center of the fixing protrusions to be engaged with the fixing protrusions to be coupled to the fixing protrusions; A first connecting rope connecting a loop of the first fixing protrusion and a loop of the second fixing protrusion to each other through a knot; A second connection rope connecting the connection hole formed at the other end of the dispersion frame coupled to the other first fixing protrusion through a knot; And a third connecting rope connecting the connection holes formed at the other end of the dispersion frame coupled to the second fixing protrusions through a knot.
A plurality of first fixing protrusions provided on the cut-away portion are connected to each other through the dispersion frame and the second connection rope, and a plurality of second fixing protrusions provided on the foundation stone are connected to each other via the dispersion frame and the third connection rope, The first and second fixing protrusions are connected to each other through the first connection rope so that even if one of the foundation rocks is wobbled by an external action, the force is not concentrated on any one part but spread widely, So that the durability and safety of the construction can be greatly improved.
In addition, since the foundation stone and the cut-off portion can be easily connected through the knot of the connecting rope of the carbon fiber material, the time required for the work is saved in comparison with the conventional method of connecting the foundation stone and the cut- It is possible to prevent corrosion even when exposed to water and to maintain a strong bond between the foundation stone and the cut soil portion, thereby further improving the durability and safety of the construction.

Description

Technical Field [0001] The present invention relates to a connection structure between a foundation stone and a cut slab,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure between a foundation stone and a cut soil and a construction method thereof, and more particularly, Since the plurality of second fixing projections are connected to each other through the dispersion frame and the third connection rope and the first fixing projections and the second fixing projections connected to each other are connected to each other through the first connecting ropes, The present invention relates to a connection structure between a foundation stone and a cut-off portion, and a construction method thereof, which can greatly improve durability and safety of a foundation because the foundation can be stably dispersed without being concentrated on any one portion.

In general, civil engineering or construction sites should be reinforced on slopes of cut-outs formed by incising rocks or earth, or reinforcement on slopes of clay formed in areas where altitudes are different from each other during embankment.

The cut part is a structure for a cut surface having a slope formed by an arbitrary incision, and the fill part is a structure for an inclined surface formed by an altitude difference during embedding.

Herein, the incision surface and the inclined surface may be provided with a construction method for reinforcement by various methods.

In general, a stone wall structure using a foundation stone (natural stone) may be presented to reinforce the slope of the cut portion.

A conventional method of cutting a foundation using a foundation stone includes a first step of performing cutting work at a predetermined inclination angle by design to form a cut-out portion having a slope inclined at a predetermined angle with respect to the ground; A third step of supporting the foundation stone in a stable manner by interconnecting the foundation stone and the cut soil part; and a second step of installing a foundation stone between the foundation stone and the cut soil part, And the fourth step of repeating the above-described steps, and the construction for reinforcing the slope of the cut-out portion is completed.

Here, as shown in FIG. 1, the third step of interconnecting the foundation stone 1 and the cut soil 2 will be described in detail.

A plurality of anchor bolts 3 are provided in each of the foundation stone 1 and the cut soil portion 2 and rod-like binding bodies 4 formed in a long length are connected to the respective anchor bolts 3, The foundation stone 1 and the cut soil portion 2 are connected to each other through the welding 5,

When the foundation stone 1 is applied as described above and the foundation stone 1 is shaken due to the external action, the cut soil portion 2, which is joined to the binding body 4 connected to the ground stone 1, The anchor bolts 3 installed in the cut-off portion 2 directly connected to the foundation stone 1 due to the swinging of the foundation stone 1 are frequently applied to the anchor bolts 3 installed in the anchor bolts 3. Therefore, There is a problem in that the anchor bolt 3 which is required to firmly support the foundation stone 1 is lost, and a safety accident such as collapse of the foundation stone 1 occurs.

Further, as shown in FIG. 2, the binding body 4 and the portion of the welding 5 are easily corroded by the water flowing through the paper, and when such corrosion is continued for a long time, the binding of the binding body 4 is released The foundation stone 1 is not supported through the anchor bolts 3 and the foundation stone 1 is collapsed to cause a safety accident.

Moreover, the construction method of binding the bundling body 4 through the welding 5 requires a lot of work time, which is not only inconvenient but also causes the construction air to be delayed.

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve all of the above problems, and it is an object of the present invention to provide a multi- The second fixing protrusions of the first connection rope are connected to each other through the dispersion frame and the third connection rope and the first fixing protrusions and the second fixing protrusions connected to each other are connected to each other through the first connecting ropes, The present invention provides a connection structure of a foundation stone and a cut-off portion, and a construction method thereof, which can greatly improve the durability and safety of a construction because the foundation stone can be stably dispersed without being concentrated in any one portion.

In addition, since the foundation stone and the cut-off portion can be easily connected through the knot of the connecting rope of the carbon fiber material, the time required for the work is saved in comparison with the conventional method of connecting the foundation stone and the cut- The present invention provides a connection structure of a foundation stone and a cut-off portion and a method of constructing the same, which can improve the durability and safety of the construction more effectively because corrosion can be prevented even when exposed to water, and the solid foundation of the foundation stone and the cut soil portion can be maintained.

According to an aspect of the present invention, there is provided a connection structure between a foundation stone and a cut-off portion, wherein one end is inserted and fixed in a perforation hole formed in a cut slope at a predetermined inclination angle, and an annular ring is formed at the other end A plurality of first fixing protrusions formed on an outer side surface of one end thereof and a plurality of first fixing protrusions formed on the outer side surface of the first fixing protrusions, A plurality of second fixing protrusions formed on the outer surface of the one end, and a plurality of second fixing protrusions formed at both ends of the fixing protrusions, wherein the fixing holes are formed at the center of the fixing protrusions, A first connecting rope interconnecting the loop of the first fixing protrusion and the loop of the second fixing protrusion through a knot; A second connection rope connecting the connection hole formed at one end of the dispersion frame and the connection hole formed at the other end of the dispersion frame coupled to the other fixing protrusion through a knot; And a third connecting rope connecting the connection hole formed at one end of the dispersion frame and the connection hole formed at the other end of the dispersion frame coupled to the other second fixing protrusion through a knot,

And a fixing agent is filled and hardened in the perforation hole formed in the cut-out portion and the foundation stone so that the fixing protrusion inserted into the perforation hole is firmly engaged and fixed.

In addition, the connecting rope includes a core material of a carbon fiber material for enduring a load applied thereto, and a rubber material shell for protecting the core material and further supporting a load, thereby preventing corrosion due to water, The outer sheath is formed of a rubber material excellent in frictional force, so that the loosening of the knot can be stably prevented.

According to another aspect of the present invention, there is provided a method of constructing a connection structure between a foundation stone and a cut soil, the method including: forming a first fixing protrusion having an outer side surface formed with a thread and an annular ring formed at the other end; A second fixing protrusion having an annular ring formed at the other end thereof, and a female screw hole formed in the fixing protrusion, the dispersion frame having connection holes formed at both ends thereof, And a method of filling a perforation hole formed in the cut-out portion with a fixing agent and inserting one end of the first fixing protrusion coupled with the dispersion frame into the perforation hole to fix A second step (S20) of fixing the first fixing protrusion of the base frame to the cut-off portion; filling a perforation hole formed in the foundation stone with a fixing agent, A third step (S30) of fixing a plurality of the second fixing protrusions to the foundation stone by inserting one end of the fixing protrusion into the perforation hole to fix the plurality of second fixing protrusions to the foundation stone; A fourth step (S40) of interconnecting the rings of the second fixing protrusions provided on the foundation stone through the knot of the first connecting rope (S40); and a fourth step A fifth step of rotating the dispersing frame fastened and coupled to the first fixing protrusions so that the dispersing frames are horizontally positioned with respect to each other so that the dispersing frame is carried along the thread of the first fixing protrusions to select the position of the dispersing frame A connection hole formed at one end of the dispersion frame coupled to the first fixing protrusions so that the dispersion frames of the plurality of first fixing protrusions provided in the cut- A sixth step (S60) of interconnecting the connection holes formed at the other end of the dispersion frame coupled to the first fixing protrusion through a knot of the second connection rope (S60); and a sixth step The dispersing frame coupled to the second fixing protrusions is rotated so that the dispersing frames formed on the protrusions are positioned horizontally with respect to each other so that the dispersing frame is carried along the threads of the second fixing protrusions, A connection hole formed at one end of the dispersion frame coupled to the second fixing protrusions so that the dispersion frames of the plurality of second fixing protrusions provided on the foundation stone are connected to each other, And an eighth step (S80) of interconnecting the connection holes formed at the other end of the dispersion frame coupled to the other second fixing protrusion through the knot of the third connecting rope And that is characterized.

In addition, the connecting rope includes a core material of a carbon fiber material for enduring a load applied thereto, and a rubber material shell for protecting the core material and further supporting a load, thereby preventing corrosion due to water, The outer sheath is formed of a rubber material excellent in frictional force, so that the loosening of the knot can be stably prevented.

As described above, according to the connection structure between the foundation stone and the cut soil part and the construction method thereof according to the present invention, a plurality of first fixing projections provided on the cut-off part are connected to each other through the dispersion frame and the second connection rope, Since the plurality of second fixing projections are connected to each other through the dispersion frame and the third connection rope and the first fixing projections and the second fixing projections connected to each other are connected to each other through the first connecting ropes, It is possible to stably disperse and disperse the foundation stone without concentrating the power on any one part even if it is rocked by the slippery structure, thereby greatly improving the durability and safety of the construction.

In addition, since the foundation stone and the cut-off portion can be easily connected through the knot of the connecting rope of the carbon fiber material, the time required for the work is saved in comparison with the conventional method of connecting the foundation stone and the cut- It is possible to prevent corrosion even when exposed to water and to maintain a strong bond between the foundation stone and the cut soil portion, thereby further improving the durability and safety of the construction.

1 is a view for explaining the connection between a foundation stone and a cut soil portion in a conventional cut soil portion construction method
FIG. 2 is a view for explaining a problem of a conventional cut floor construction method
3 is a block diagram of a construction method of a connection structure of foundation stone and cut soil part according to an embodiment of the present invention
4 is a view for explaining the first step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
5 is a view for explaining the second step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
6 is a view for explaining the third step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
7 is a view for explaining the fourth step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
8 is a view for explaining the fifth step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
Fig. 9 is a view for explaining the sixth step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3 shown in Fig. 3
10 is a view for explaining the seventh step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
11 is a view for explaining the eighth step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3
12 is a view for explaining the operation of the connection structure between the foundation stone and the cut soil portion constructed through the construction method of the connection structure between the foundation stone and the cut soil portion shown in FIG.
13 is a view for explaining the action of the connecting rope of the connection structure of the foundation stone and the cut soil portion shown in Fig. 12

The connection structure between the foundation stone and the cut soil portion and the construction method thereof according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

3 to 13 illustrate a connection structure between a foundation stone and a cut soil portion and a construction method thereof according to an embodiment of the present invention. FIG. 3 is a block diagram of a construction method of a connection structure of an foundation stone and a cut soil portion according to an embodiment of the present invention. Fig. 4 is a view for explaining the first step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3, Fig. 4 is a view for explaining the second step of the construction method of the connection structure of foundation stone and cut soil portion shown in Fig. Fig. 6 is a view for explaining the third step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3, Fig. 7 is a view for explaining the connection structure of the foundation stone and the cut soil portion Fig. 8 is a view for explaining the fifth step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3, and Fig. 9 is a view for explaining the fourth step of the construction method The connection structure of the foundation stone and the cut soil portion shown in Fig. Fig. 10 is a view for explaining the sixth step of the construction method, Fig. 10 is a view for explaining the seventh step of the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3, And Fig. 12 is a view for explaining the operation of the connection structure between the foundation stone and the cut soil portion constructed through the construction method of the connection structure of the foundation stone and the cut soil portion shown in Fig. 3 And Fig. 13 is a view for explaining the action of the connecting rope of the connection structure of the foundation stone and the cut soil portion shown in Fig. 12, respectively.

As shown in the drawing, the construction method 200 of the connection structure of the foundation stone and the cut soil part according to the embodiment of the present invention includes the first step (S10), the second step (S20), the third step (S30) The fourth step S40, the fifth step S50, the sixth step S60, the seventh step S70, and the eighth step S80.

As shown in FIGS. 3 and 4, the first step S10 includes a first fixing protrusion 10 having a thread 12 formed on its outer surface and an annular ring 11 formed on the other end, A second fixing protrusion 20 having a thread 22 on the side and an annular ring 21 on the other end is prepared and the threads 12 and 22 formed on the fixing protrusions 10 and 20 are engaged with each other, And a dispersion frame 30 having connection holes 31 at both ends thereof are fastened to the fixing protrusions 10 and 20, respectively.

That is, the dispersion frame 30 is assembled and assembled to each of the first fixing protrusions 10 and the second fixing protrusions 20 to be installed on the cut slab 2 and the foundation stone 1 for quick construction to be.

3 and 5, the second step S20 includes filling a perforation hole 2a formed in the cut-off portion 2 with a fixing agent (not shown) And fixing one end of the first fixing protrusion 10 to the cut-out portion 1 by inserting one end of the first fixing protrusion 10 into the perforation hole 2a.

A plurality of perforation holes 2a are horizontally perforated in the cut portion 2. The second process S20 is performed in each of the perforation holes 2a formed in the cut- The first fixing protrusion 10 prepared in step S10 is inserted and fixed.

3 and 6, in the third step S30, the perforation hole 1a formed in the foundation stone 1 is filled with a fixing agent, and the second fixing And fixing a plurality of the second fixing protrusions 20 to the foundation stone 1 by inserting one end of the protrusion 20 into the perforation hole 1a and fixing the same.

The foundation stone 1 generally has a plurality of horizontally installed foundation stones 1 and a plurality of perforation holes 1a are formed in the foundation stone 1. The second step S20 is formed in the foundation stone 1 And the second fixing protrusions 20 prepared in the first step S10 are inserted and fixed in the respective perforation holes 1a.

3 and 7, the fourth step (S40) is performed in such a manner that the ring 11 of the first fixing protrusion 10 provided on the cut-away portion 2 and the ring 11 of the first fixing protrusion 10 installed on the foundation stone 1 And the loop 21 of the second fixing protrusion 20 is connected to each other through the knot 41 of the first connecting rope 40. [

Since the first fixing protrusion 10 and the second fixing protrusion 20 are connected to each other through the knot 41 of the first connecting rope 40, It is possible to secure the convenience of excellent construction in comparison with the structure of connecting the through holes.

7, the first connection rope 40 includes a core material A for supporting a load applied thereto, a rubber material for further supporting the load while protecting the core material A, (B) of the outer shell,

It is widely known that carbon fiber is lighter than metal but superior in strength and elasticity compared to metal, and has good heat resistance, impact resistance and no risk of corrosion,

12, the first connecting rope 40 including the core material A of carbon fiber material also has an excellent strength so that the cut-off portion 2 and the foundation stone 1 can be firmly connected to each other The knot 41 of the first connecting rope 40 is prevented from being loosened due to high frictional force because the wick A is wrapped with a rubber material shell B having excellent frictional force. (A) can be stably protected from an external impact due to the characteristics of a rubber material having excellent elasticity, thereby ensuring excellent durability of the first connecting rope (40). It is possible to expect a stable connection between the foundation 2 and the foundation stone 1 through the first connection rope 40 even if it is used for a long time.

13, the first connection rope 40 is prevented from being corroded even when exposed to water due to the characteristics of the core material A and the sheath material B, It is possible to prevent the problem that the connection between the cut part 2 and the foundation stone 1 is released due to corrosion or corrosion occurring in the connection between the cut part 2 and the foundation stone 1 A stable connection can be expected.

Since the second connecting rope 50 and the third connecting rope 60 to be laid down are also made of the same core material A and the same outer material B as the first connecting rope 40 described above, The functional description of the material is omitted.

3 and 8, in the fifth step S50, the dispersion frames 30 formed on the plurality of first fixing protrusions 10 provided on the cut-away portion 2 are horizontally So that the dispersion frame 30 is transferred on the thread 12 of the first fixing protrusion 10 so that the dispersion frame 30 is transferred to the first fixing protrusion 10, And the position of the dispersing frame 30 is selected.

That is, the dispersion frames 30 formed in the plurality of first fixing protrusions 10, which are inserted and fixed in the perforation holes 2a of the cut-out portion 2, , A plurality of the dispersion frames 30 are connected to each other by the second connection rope 50 in the sixth step S60 to be described later as shown in FIG. When any one of the first fixing protrusions 10 receives a force, the force is guided to be dispersed evenly through the dispersion frame 30 and the second connection rope 50 so as to be safely relieved, .

3 and 9, in the sixth step S60, the dispersion frames 30 of the plurality of the first fixing protrusions 10 installed in the cut- A connection hole 31 formed at one end of the dispersion frame 30 coupled to the first fixing protrusion 10 and a connection formed at the other end of the dispersion frame 30 coupled to the other first fixing protrusion 10, And the holes 31 are connected to each other through the knot 51 of the second connecting rope 50.

12, a plurality of the first fixing protrusions 10 provided on the cut-off portion 2 due to the connection of the plurality of the dispersion frames 30 due to the second connection ropes 50, So that even if a force is applied to any one of the first fixing protrusions 10, the force is easily dispersed and dissipated to the other first fixing protrusions 10.

3 and 10, in the seventh step S70, the dispersion frames 30 formed on the plurality of second fixing protrusions 20 installed on the foundation stone 1 are horizontally aligned with each other So that the dispersion frame 30 is transported on the thread 22 of the second fixing protrusion 20 so that the dispersing frame 30 is dispersed in the second fixing protrusion 20, The position of the frame 30 is selected.

The surface of the foundation stone 1 is formed roughly and the dispersing frame 30 formed in each of the plurality of second fixing projections 20 inserted and fixed in the perforation hole 1a of the foundation stone 1 is positioned The position of the dispersion frame 30 may be adjusted so that the positions of the dispersion frames 30 may be positioned horizontally relative to each other and then the number of the dispersion frames 30 may be adjusted in the eighth step S80, 30 are connected to each other by the third connecting rope 60 so that when any one of the second fixing protrusions 10 is subjected to the force, the force is transmitted uniformly through the dispersion frame 30 and the third connecting rope 60, It is dispersed and can be reliably relieved so that the safety of the construction can be ensured.

3 and 11, in the eighth step S80, the plurality of second fixing protrusions 20 installed on the foundation stone 1 are connected to the second frame 20, A connection hole 31 formed at one end of the dispersion frame 30 coupled to the fixing protrusion 20 and a connection hole 31 formed at the other end of the dispersion frame 30 coupled to the other second fixing protrusion 20, (31) are connected to each other through the knot (61) of the third connecting rope (60).

12, the plurality of second fixing protrusions 20 provided on the foundation stone 1 due to the connection of the plurality of the dispersion frames 30 due to the third connection ropes 60 are arranged in the Even if a force is applied to any one of the second fixing protrusions 20, the force is easily dispersed and dissipated to the other second fixing protrusions 10.

12, since the foundation stone 1 and the cut soil portion 2 are connected via the first connection rope 40, the foundation stone 1 or the cut soil portion 2 is exposed to the external action When the force is received by one of the fixing protrusions 10 and 20 coupled to the foundation stone 1 or the cut-off portion 2, the force is dispersed as a whole through the connecting ropes 40, It is possible to safely prevent collapse of the foundation stone 1 due to external action.

When the eighth step (S80) is completed as described above, the drainage layer and the gravel are filled between the foundation stone 1 and the cut soil part 2, and the construction of the cut soil part is completed easily.

The method 200 for constructing the connection structure of the foundation stone and the cut soil part according to the present invention is characterized in that a plurality of the first fixing protrusions 10 provided on the cut- A plurality of the second fixing protrusions 20 connected to each other through the connection rope 50 and installed on the foundation stone 1 are connected to each other via the dispersion frame 30 and the third connection rope 60, The first fixing protrusions 10 and the second fixing protrusions 20 connected to each other are connected to each other through the first connection rope 40 so that any one of the foundation stone 1 can be swung The foundation stone 1 can be stably supported without being concentrated on the part of the foundation, thereby greatly improving the durability and safety of the construction.

Since the foundation stone 1 and the cut soil portion 2 can be easily connected to each other through the knots 41, 51 and 61 of the connecting ropes 40, 50 and 60 of the carbon fiber material, The time required for the operation is reduced in comparison with the method of connecting the part 2 through the welding 5 of the binding body 4 and the connection ropes 40, 50, So that it is possible to maintain a firm bond between the foundation stone 1 and the cut soil portion 2, thereby further improving the durability and safety of the construction.

The connecting structure 100 between the foundation stone and the cut soil according to another embodiment of the present invention includes a first fixing protrusion 10, a second fixing protrusion 20, a dispersion frame 30, A first connecting rope 40, a second connecting rope 50 and a third connecting rope 60. The first connecting rope 40, the second connecting rope 50,

As shown in FIGS. 4 and 5, the first fixing protrusions 10 are fixedly inserted into a perforation hole 2a formed in a cut-off portion 2 inclined at a predetermined inclination angle, And a screw thread 12 is formed on the outer surface of one end.

4 and 6, the second fixing protrusion 20 is inserted and fixed into the perforation hole 1a formed in the foundation stone 1 spaced apart from the cut-off portion 2, An annular ring 21 is formed at the other end, and a screw thread 22 is formed at the outer surface of one end.

4 to 6, the dispersion frame 30 is formed with connection holes 31 at both ends thereof and includes threads 12 and 22 formed at the center of the fixing protrusions 10 and 20, And a female screw hole 32 is formed to be engaged with the fixing protrusions 10 and 20 to be engaged with each other.

7, the first connection rope 40 connects the loop 11 of the first fixing protrusion 10 and the loop 21 of the second fixing protrusion 20 to a knot 41 .

9, the second connection rope 50 includes a connection hole 31 formed at one end of the dispersion frame 30 coupled to the first fixing protrusion 10, The connection holes 31 formed at the other end of the dispersion frame 30 coupled to the projection 10 are connected to each other via the knot 51. [

11, the third connection rope 60 includes a connection hole 31 formed at one end of the dispersion frame 30 coupled to the second fixing projection 20, The connection holes 31 formed at the other end of the dispersion frame 30 coupled to the projection 20 are connected to each other through the knot 61. [

4 and 11, the connecting ropes 40, 50, and 60 are formed of a core material A for supporting a load applied to the core material A, The outer shell B is made of a rubber material having excellent frictional force so that the loosening of the knots 41, 51 and 61 can be prevented So that it is preferable to stably prevent it.

Since the connection structure 100 of the foundation stone and the cut-off portion of the present invention is explained in detail in the construction method 200 of the connection structure of the foundation stone and the cut-off portion of the present invention described above, The description is omitted.

The construction method 200 of the connection structure between the foundation stone and the cut soil portion according to the embodiment of the present invention having the above-described structure is performed as follows.

First, as shown in FIG. 4, a plurality of the fixing protrusions 10 and 20 are prepared by fastening and coupling the dispersion frame 30 to the first fixing protrusions 10 and the second fixing protrusions 20, respectively. (S10)

Then, as shown in FIG. 5, the first fixing protrusions 10 prepared in the perforation holes 2a formed in the cut-out portion 2 are respectively inserted and fixed. (S20)

Then, as shown in FIG. 6, the second fixing protrusions 20 prepared in the perforation holes 1a formed in the foundation stone 1 are inserted and fixed, respectively. (S30)

7, the first fixing protrusions 10 provided on the cut-away portion 2 and the second fixing protrusions 20 provided on the foundation stone 1 are connected to the first connecting ropes 40, Lt; / RTI > (S40)

8, the dispersion frames 30 formed on a plurality of the first fixing protrusions 10 provided on the cut-off portion 2 are positioned horizontally with respect to each other, And the position of the dispersion frame 30 is selected. (S50)

9, through the second connection rope 50 so that the dispersion frames 30 of the plurality of first fixing protrusions 10 provided on the cut-off portion 2 are connected to each other, (30) are connected to each other. (S60)

Then, as shown in FIG. 10, the dispersion frame 30 is rotated so that the dispersion frames 30 formed on the plurality of second fixing protrusions 20 installed on the foundation stone 1 are horizontally positioned with respect to each other The position of the dispersion frame 30 is selected. (S70)

 Thereafter, as shown in FIG. 11, a process of interconnecting the dispersion frames 30 of the plurality of second fixing projections 20 provided on the foundation stone 1 through the third connection ropes 60 to be. (S80)

When the installation of the third connection rope 60 is completed as described above, the drainage layer 6 and the soil layer 7 are formed between the foundation stone 1 and the cut soil portion 2 as shown in Fig. 12, Complete.

 That is, the connection structure 100 of the foundation stone and the cut-off portion of the present invention, which is constructed through the construction method 200 of the connection structure of the foundation stone and the cut soil portion, is constructed by connecting the foundation stone 1 The ground stone 1 or the cut soil portion 2 is exposed to the external action and is connected to the foundation stone 1 or the cut soil portion 2 as shown in Fig. When the foundation stone 1 is subjected to a force exerted by any one of the fixing projections 10 and 20, the force of the foundation rods 40, 50 and 60 is dispersed as a whole, It is possible to safely prevent collapse of the vehicle.

13, the connection structure 100 of the foundation stone and the cut soil portion of the present invention is formed by connecting the foundation stone 1 and the cut soil portion (s) (not shown) through the knots 41, 51, and 61 of the connecting ropes 40, 2 can be easily connected to the connecting ropes 40, 50 and 60. The connection ropes 40, 50 and 60 are protected from corrosion even when they are exposed to water, so that a solid connection between the foundation stone 1 and the cut- The durability and the safety can be greatly improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Foundations 1a, 2a. Perforated hole
2. Cutting section 3. Anchor bolt
4. Bonding body 5. Welding
6. Drainage layer 7. Soil layer
10. First fixing protrusion 11, 21.
12.22. Thread 20. Second fixing projection
30. Dispensing frame 31. Connecting hole
32. Female thread 40. First connecting rope
41, 51, 61. Knot 50. second connecting rope
60. Third connecting rope
A. Core material B. Sheath
100. Connection structure between basis stone and cut soil
S10. First Step S20. Second Step
S30. Third Step S40. Fourth step
S50. Fifth step S60. Step 6
S70. Seventh Step S80. Step 8
200. Construction method of connecting structure between basis stone and cut soil

Claims (4)

One end is inserted and fixed in the perforation hole 2a formed in the cut-off portion 2 inclined at a predetermined inclination angle and the annular ring 11 is formed at the other end, and a thread 12 is formed on the outer surface of one end A plurality of first fixing protrusions 10;
One end is inserted and fixed in the perforation hole 1a formed in the foundation stone 1 spaced apart from the cut soil portion 2 and the annular ring 21 is formed at the other end, A plurality of second fixing protrusions 20 on which a plurality of second fixing protrusions 22 are formed;
A connecting hole 31 is formed at both ends of the fixing protrusion 10 and 20 and a female screw hole 32 is formed at a center of the fixing protrusion 10 and 20 to be engaged with the threads 12 and 22, (30);
A first connecting rope 40 interconnecting the loop 11 of the first fixing protrusion 10 and the loop 21 of the second fixing protrusion 20 through a knot 41;
A connection hole 31 formed at one end of the dispersion frame 30 coupled to the first fixing protrusion 10 and a connection hole 31 formed at the other end of the dispersion frame 30 coupled to the other first fixing protrusion 10, A second connecting rope (50) interconnecting the connecting holes (31) through the knot (51); And
A connection hole 31 formed at one end of the dispersion frame 30 coupled to the second fixing protrusion 20 and a connection hole 31 formed at the other end of the dispersion frame 30 coupled to the other second fixing protrusion 20 And a third connecting rope 60 interconnecting the connecting holes 31 through the knots 61,
The fixing protrusions 10 and 20 inserted and fixed in the perforation holes 2a and 1a are filled with a fixing agent (not shown) in the perforation holes 2a and 1a formed in the cut- So as to be firmly fixed to the foundation stone.
The method according to claim 1,
The connecting ropes (40, 50, 60)
A core material (A) of carbon fiber material for enduring the applied load,
And a rubber material shell (B) for protecting the core material (A) while further supporting the load,
The outer shell B is formed of a rubber material having excellent frictional force so that the loosening of the knots 41, 51 and 61 can be prevented stably. .
A first fixing protrusion 10 having a thread 12 on the outer side and an annular ring 11 on the other end and a thread 22 on the outer side and an annular ring 21 on the other end And a female screw hole 32 to be engaged with the threads 12 and 22 formed on the fixing protrusions 10 and 20 is formed and a connecting hole 31 is formed at both ends of the female screw hole 32 A first step (S10) of fastening and coupling the formed dispersion frame (30) to the fixing protrusions (10, 20), respectively;
A fixing agent (not shown) is filled in the perforation hole 2a formed in the cut portion 2 and one end of the first fixing protrusion 10 to which the dispersion frame 30 is coupled is inserted into the perforation hole 2a A second step (S20) of fixing a plurality of the first fixing protrusions (10) to the cut-out portion (1) by a method of inserting and fixing the plurality of fixing protrusions (10);
A method of filling a perforation hole 1a formed in the foundation stone 1 with a fixing agent and inserting one end of the second fixing projection 20 coupled with the dispersion frame 30 into the perforation hole 1a A third step (S30) of fixing a plurality of the second fixing projections (20) to the foundation stone (1);
The loop 11 of the first fixing protrusion 10 and the loop 21 of the second fixing protrusion 20 provided on the foundation stone 1 provided on the cut portion 2 are connected to the first connection rope 40 via a knot 41;
The dispersion frames 30 formed on a plurality of the first fixing protrusions 10 provided on the cut portion 2 are connected to the first fixing protrusions 10 so that the dispersion frames 30 are horizontally positioned. A fifth step (S50) of rotating the dispersion frame (30) on the thread (12) of the first fixing protrusion (10) to select the position of the dispersion frame (30);
The dispersion frame 30 of the first fixing protrusion 10 is formed at one end of the dispersion frame 30 to be coupled to the first fixing protrusion 10 so that the dispersion frames 30 of the plurality of first fixing protrusions 10 provided in the cut- And the connecting hole 31 formed at the other end of the dispersion frame 30 coupled to the other first fixing protrusion 10 is connected to the second connecting rope 50 via the knot 51 of the second connecting rope 50 A sixth step (S60) of interconnecting;
The dispersion frames 30 formed on a plurality of the second fixing protrusions 20 provided on the foundation stone 1 are fixed to the second fixing protrusions 20 so that the dispersion frames 30 are horizontally positioned with respect to each other, A seventh step (S70) of rotating the dispersing frame (30) so that the dispersing frame (30) is transported on the thread (22) of the second fixing protrusion (20) to select the position of the dispersing frame (30); And
A plurality of second fixing protrusions 20 provided on the foundation stone 1 are formed on one end of the dispersion frame 30 coupled to the second fixing protrusions 20 so that the dispersion frames 30 of the second fixing protrusions 20 are connected to each other The connection hole 31 and the connection hole 31 formed at the other end of the dispersion frame 30 coupled to the other second fixing protrusion 20 are connected to each other through the knot 61 of the third connection rope 60 (S80) of connecting the foundation stone and the cut soil portion to each other.
The method of claim 3,
The connecting ropes (40, 50, 60)
A core material (A) of carbon fiber material for enduring the applied load,
And a rubber material shell (B) for protecting the core material (A) while further supporting the load,
And the outer skin (B) is formed of a rubber material having excellent frictional force, so that the loosening of the knot can be stably prevented.

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