KR101725856B1 - Stone type retaining wall and construction method thereof - Google Patents

Abstract

The present invention provides a pit stone type retaining wall comprising: a plurality of tamped layers (100) formed by tamping background soil many times; a pit stone (200) formed in a front of the plurality of tamped layers (100); a reinforcement member (300) installed in a region between the plurality of tamped layers (100); a fastening member (400) combined with a front side of the reinforcement member (300); a combination member (500) to combine one side on a rear surface of the pit stone (200), and to combine the other side with the fastening member (400); and a support member (600) combined with a rear upper part of the pit stone to support an upper pit stone (200a) formed in an upper part of the pit stone (200). According to the present invention, since the pit stone type retaining wall supports the upper pit stone (200a) with the support member (600), a plurality of pit stone layers installed in a height direction are able to stably be supported. Moreover, since the pit stone type retaining wall is supported on the tamped layer by the reinforcement member (300), the fastening member (400), and the combination member (500); a stable structure is able to be ensured.

Description

STONE TYPE RETAINING WALL AND CONSTRUCTION METHOD THEREOF BACKGROUND OF THE INVENTION [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field, and more particularly, to a mountain glazing retaining wall and a construction method thereof.

A retaining wall is installed to prevent the slope of the natural slope and the embankment slope from collapsing.

In recent years, stone-wall retaining walls using natural stones have been used instead of concrete retaining walls for the construction of nature-friendly scenic structures.

However, because the mountainous retaining wall uses natural stone, it is difficult to install several mountain stones and there is a problem that the mountain stones are conducted after installation.

Further, when a plurality of gravel-like stones are installed along the vertical direction, there has been a problem that it is difficult to support and fix the upper gravel.

Korean Patent No. 10-1224872 'Natural stone retaining wall using fiber reinforcing material' relates to a natural stone retaining wall using a fiber reinforcing material capable of firmly and safely constructing a natural stone retaining wall by using a fiber reinforcing material. The natural stone retaining wall using the fiber reinforcing material of the present invention is a natural stone installed on the front surface of a slope, a slope and a rock; A fiber reinforcing material embedded in the laminated ground to support a natural stone; A first connecting member connecting the natural stones to the fiber reinforcing member; And a second connecting member for connecting natural stones to each other. According to the natural stone retaining wall using the fiber reinforcing material of the present invention, the natural stone can be applied to the entire surface of the retaining wall, and the inherent natural beauty of the natural stone can be saved without harming the surrounding scenery. Further, there is an advantage that the natural stones can be maintained in a laminated form by connecting the natural stones to the fiber reinforcing material buried in the laminated ground through the first connecting member and connecting the neighboring natural stones to each other with the second connecting member. , 2)

Korean Patent No. 10-1138179 entitled "Retaining wall structure using natural stone" is a retaining wall sphere using natural stone, and a structure in which a front natural stone is supported on a rear support structure is formed by using a gabion to smooth water drainage and connect a natural stone to a gabion (T), which is easily installed in the gab as a sieve, can be easily fixed to one end of the connection body and can fix a plurality of one ends of the connection body, as well as a connecting body for connecting and fixing the connection body and the gab It is possible to adjust the length of the middle part, so that it is possible to support the natural stone more firmly and easily, and the drainage hole is formed at the lower end of the gabardy, so that the structure thereof can be firmly built, and even if the interval between the natural stone and the gabardy becomes long, The length of the sieve can be extended to further improve the workability (see Figs. 3 and 4).

Korean Patent No. 10-1530871 " Natural Stone Retaining Wall Structure Using Stiffened Fiber Reinforcement and Method of Construction " relates to a natural stone retaining wall structure and a method of construction thereof. The natural stone is solidly connected and fixed, (Refer to Figs. 5 and 6) of a natural-stone retaining wall structure capable of preventing breakage and conduction of the natural stone.

Korean Patent No. 10-1224872, Korean Patent No. 10-1138179, and Korean Patent No. 10-1530871 all disclose a retaining wall structure for preventing the conduction of the retaining wall due to the filling soil, which is a technology relating to a natural stone (mountainous stone) retaining wall.

However, since there is no structure supporting the natural stones formed in the upper layer, settlement and conduction of the upper natural stones may occur.

The above-mentioned prior art reference numerals are used only in the description of the prior art.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a gravel retaining wall and a method of constructing such a gravel retaining wall,

In order to solve the above problems, the gravel-retaining wall of the present invention comprises a plurality of compaction layers (100) formed by compaction of the rear soil gravel a plurality of times; A mountain gravel (200) formed in front of the plurality of compaction layers (100); A reinforcing member (300) provided in a region between the plurality of compaction layers (100); A fastening member 400 coupled to the front of the reinforcing member 300; A coupling member 500 coupled to the rear surface of the avalanche shaft 200 and coupled to the coupling member 400 at the other side; And a support member 600 coupled to an upper portion of the back surface of the avalanche so as to support an upper avalanche 200a formed on the upper surface of the avalanche 200.

It is preferable that the reinforcing member 300 is a grid structure formed by a plurality of horizontal grids 310 and a plurality of vertical grids 320 and a part of the front part is folded in two stages toward the rear.

The fastening member 400 is installed so as to penetrate the insertion portion A formed by intersecting the lower horizontal grid 311 of the reinforcement member 300 and the upper horizontal grid 312 of the reinforcing member 300 folded in two stages, The upper horizontal grid 312 supports the lower surface of the coupling member 400 and the lower horizontal grid 311 supports the upper surface of the coupling member 400. [

The coupling member 500 includes an anchor 510 coupled to the gravel block 200; A coupling and coupling portion 520 coupled to the coupling member 400; And a coupling part 530 coupling the anchor part 510 and the coupling part 520 to each other.

A screw thread is formed on the other side of the anchor part 510 and one side of the coupling part 520 is threaded in a direction opposite to a thread formed on the other side of the anchor part 510, It is preferable that the engaging and releasing drive of the engaging member 500 is possible.

The fastening portion 530 may be formed of a turnbuckle or a long nut.

The support member 600 includes a support 610 which is brought into contact with the lower surface of the upper avalanche 200a and is coupled to the upper rear surface of the avalanche 200 to support the upper austenite 200a; And a support portion 620 coupled to the pair of supports 610. [

A thread for coupling with the coupling part 530 is formed on the other side of the supporting part 610 and the supporting part 610, the coupling part 530 and the coupling part 520 are coupled to each other, 400).

A method of constructing a glazing retaining wall (10) according to an embodiment of the present invention includes: a glaze setting step of installing the glazing (200); A compaction layer forming step of forming the compaction layer 100a on the rear surface of the gravel block 200; Installing a reinforcing member (300) on an upper surface of the compaction layer (100); A coupling member coupling step of coupling the coupling member 400 to the reinforcing member 300; A joining member attaching step of joining the joining member (500) to the gravel block (200) and the joining member (400); An upper compaction layer forming step of forming the compaction layer 100b on the upper surface of the reinforcing member 300; A supporting member reinstalling step of installing the supporting member (600) in the gravel block (200); A step of mounting a topsheet (200a) on the support member (600); And forming the upper compaction layer 100c on the rear surface of the upper anorthite 200a.

It is preferable that the step of installing the gravel, the step of forming the compaction layer, the step of installing the reinforcing material, the step of joining the fastening member, the step of installing the coupling member, and the step of reinstalling the support are repeatedly performed according to the height of the gravel retaining wall.

The mountain glazing retaining wall and the construction method of the present invention can stably construct a glaze retaining wall provided in a plurality of layers along the vertical direction using a supporting member.

In addition, since the present invention can be combined with the reinforcing member and the fastening member without a separate joining member, the construction can be easily performed, the construction period can be shortened, and the support can be stably supported.

1 is a side view of a natural stone retaining wall of Korean Patent No. 10-1224872.
2 is a side view of a natural stone retaining wall incorporating a first connecting member of Korean Patent No. 10-1224872.
3 is a side view of a retaining wall structure of Korean Patent No. 10-1138179.
4 is a plan view of a retaining wall structure incorporating a gabion of Korean Patent No. 10-1138179.
5 is a side view of a natural stone retaining wall of Korean Patent No. 10-1530871.
6 is a side view of a retaining wall to which a fastener of Korean Patent No. 10-1530871 is coupled.
FIG. 7 is a side view of a mountainous retaining wall according to an embodiment of the present invention. FIG.
8 is a perspective view of a reinforcing member according to an embodiment of the present invention.
9 is a perspective view of a reinforcing member formed with an insert according to an embodiment of the present invention.
10 is a perspective view showing a fastening member coupled to a reinforcing member according to an embodiment of the present invention;
11 is a perspective view of a coupling member according to an embodiment of the present invention.
12 is a perspective view showing a combination of a gravel, a turnbuckle-coupled member, a reinforcement member, and a fastener according to an embodiment of the present invention;
FIG. 13 is a perspective view showing a combination of a gravel, a joining member formed of a nut, a reinforcing member, and a fastening part according to an embodiment of the present invention.
FIG. 14 is a perspective view showing a combination of a gravel, a supporting member, a reinforcing member, and a fastening agent according to an embodiment of the present invention. FIG.
FIG. 15 is a process chart showing a compaction layer forming step after a step of installing a gravel stone according to an embodiment of the present invention; FIG.
16 is a process diagram of a stiffener mounting step, a fastening member fitting step, and a fitting member mounting step according to an embodiment of the present invention.
17 is a view illustrating a process of installing a support member according to an embodiment of the present invention.
FIG. 18 is a process diagram of the upper gemstone joining process according to an embodiment of the present invention. FIG.
FIG. 19 is a side view of a mountain glazing retaining wall completed by a construction method according to an embodiment of the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. Is omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

The gravel retaining wall according to the present invention comprises a plurality of compaction layers (100) formed by a plurality of compaction of rear soil; A gravel block 200 formed in front of the plurality of compaction layers 100; A reinforcing member (300) provided in a region between the plurality of compaction layers (100); A fastening member 400 coupled to the front of the reinforcing member 300; One side of which is coupled to the rear surface of the gravel 200, and the other side of which is coupled to the coupling member 400; And a support member 600 coupled to an upper portion of the back surface of the avalanche stone for supporting the upper austenitic stone 200a formed on the upper surface of the austenitic stone 200. [

In this case, since the mountain glazing retaining wall of the present invention supports the upper mountain ash (200a) using the support member (600), it is possible to stably support a plurality of mountain glazes installed in the height direction.

In addition, since the gravel retaining wall of the present invention is supported by the reinforcing member 300, the fastening member 400, and the engaging member 500, a stable structure can be secured.

The reinforcing member 300 is preferably a lattice structure formed by a plurality of horizontal grids 310 and a plurality of vertical grids 320, and a part of the front part is folded in two stages toward the rear.

In this case, the reinforcing member 300 has a structure in which the front portion is folded into two stages, and the fastening member 400 is coupled to the front portion of the reinforcing member folded in two stages,

The fastening member 400 has a rod structure and is installed to penetrate the insertion portion A formed by intersecting the lower horizontal grid 311 and the upper horizontal grid 312 of the reinforcing member 300 folded in two stages, It is preferable that the upper horizontal grid 312 supports the lower surface of the fastening member 400 and the lower horizontal grid 311 supports the upper surface of the fastening member 400.

In this case, since the fastening member 400 is installed through the insertion portion A of the reinforcing member 300 folded in two stages, a separate fastening device for fastening the fastening member 400 to the reinforcing member 300 I do not need it.

Therefore, the joining process can be facilitated and the construction speed can be improved.

In addition, since the fastening member 400 is coupled to the insertion portion A formed at the intersection of the lower horizontal grid 311 and the upper horizontal grid 312, the coupling force is excellent.

The joining member 500 includes an anchor 510 coupled to the gravel block 200; A coupling and coupling portion 520 coupled to the coupling member 400; And a coupling part 530 coupling the anchor part 510 and the coupling part 520 together.

In this case, the anchor portion 510 is coupled to the rear surface of the gravel block 200, and the coupling and coupling portion 520 is coupled to the coupling member 400. Then, the coupling portion 530 and the anchor portion 510 are coupled with each other, (520).

A screw thread is formed on the other side of the anchor part 510 and one side of the coupling part 520 is formed with a screw thread in a direction opposite to the screw thread formed on the other side of the anchor part 510, It is preferable that the fastening driving and the releasing driving of the coupling member 500 are possible.

In this case, since the tightening driving and the releasing driving of the coupling member 500 are performed by the unidirectional rotational driving of the coupling part 530, the coupling member can be easily installed.

The fastening portion 530 is preferably formed of a turnbuckle or a long nut.

In this case, the turnbuckle and the long nut may be engaged with the fastener-coupled portion 520 and the anchor portion 510 to adjust the length of the fastener.

Therefore, even when the distance between the gravel block 200 and the fastening member 400 is different from each other, coupling is possible.

The support member 600 includes a support 610 that is engaged with the upper rear surface of the gravel 200 to support the upper gravel 200a by contacting the lower surface of the gravel 200a. And a support portion 620 coupled to the pair of supports 610. [

In this case, the receiving portion 620 is formed using a wooden plate, an iron plate, a wire net, a concrete, and a fiber grid, and is supported by a pair of supports.

Since the upper anorthite 200a is supported by the receiving portion 620 and the supporting portion 610, conduction is prevented.

A thread for coupling with the coupling part 530 is formed on the other side of the support part 610 and the coupling part 530 and the coupling part 530 and the coupling part 520 are coupled to the coupling part 400 desirable.

In this case, the support member 600 supports the upper gemstone installed on the upper side of the support member and is fastened to the reinforcement member 300.

The method for constructing the glazing retaining wall 10 according to an embodiment of the present invention includes steps of installing a glaze 200; A compaction layer forming step of forming a compaction layer 100a on the rear surface of the avalanche stone 200; Installing a reinforcing member (300) on the upper surface of the compaction layer (100); A coupling member coupling step of coupling the coupling member 400 to the reinforcing member 300; A joining member attaching step of joining the joining member (500) to the gravel (200) and the joining member (400); An upper compaction layer forming step of forming a compaction layer 100b on the upper surface of the reinforcing member 300; A support reinstalling step of installing the support member 600 in the gravel block 200; A step of placing the upper gemstone (200a) on the support member (600); And forming a compaction layer 100c on the rear surface of the upper aus- tart 200a.

After the gravel block 200 is installed, the compaction layer 100 is formed at a height of about 20 to 60 cm, and the reinforcing member 300 and the fastening member 400 are installed.

Thereafter, the joining member 500 is joined to the gravel block 200 and the coupling member 400, and then a compaction layer is formed.

At this time, a plurality of compaction layers are formed on the rear surface of the avalanche depending on the size and height of the avalanche 200.

A support member 600 for supporting the upper gemstone 200a is formed after the compaction layer is formed up to the top of the gemstone 200 and the support member 600 and the reinforcement member 300 are engaged.

It is preferable that the step of installing the gravel, the step of forming the compaction layer, the step of installing the reinforcing material, the step of joining the fastening member, the step of installing the coupling member, and the step of reinstalling the support are repeatedly performed according to the height of the gravel stone retaining wall.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: mountain stone retaining wall 100: compaction layer
200: mountain stone 200a:
300: reinforcement member 310: horizontal grid
311: Lower horizontal grid 312: Upper horizontal grid
320: vertical grid 400: fastening member
500: coupling member 510: anchor portion
520: fastening and non-fastening part 530: fastening part
600: support member 610:
620:

Claims (10)

A plurality of compaction layers (100) formed by compaction of a plurality of rear gravels;
A mountain gravel (200) formed in front of the plurality of compaction layers (100);
A reinforcing member (300) provided in a region between the plurality of compaction layers (100);
A fastening member 400 coupled to the front of the reinforcing member 300;
A coupling member 500 coupled to the rear surface of the avalanche shaft 200 and coupled to the coupling member 400 at the other side;
And a support member (600) coupled to an upper portion of the rear surface of the avalanche for supporting a topsheet (200a) formed on the top of the avalanche (200)
The coupling member (500)
An anchor 510 coupled to the gravel block 200;
A coupling and coupling portion 520 coupled to the coupling member 400;
And a coupling part 530 for coupling the anchor part 510 and the coupling part 520 to each other,
A thread is formed on the other side of the anchor part 510,
One side of the coupling and coupling portion 520 is formed with a thread in a direction opposite to the thread formed on the other side of the anchor portion 510,
The coupling member 500 is capable of tightening driving and releasing driving by unidirectional rotational driving of the coupling portion 530,
The reinforcing member (300)
A grid structure formed by a plurality of horizontal grids 310 and a plurality of vertical grids 320,
A part of the front surface of the reinforcing member 300 is installed in a structure that is folded in two stages toward the rear surface of the reinforcing member 300
The fastening member 400 is installed so as to penetrate the insertion portion A formed by intersecting the lower horizontal grid 311 of the reinforcement member 300 and the upper horizontal grid 312 of the reinforcing member 300 folded in two stages, The upper horizontal grid 312 supports the lower surface of the coupling member 400 and the lower horizontal grid 311 is coupled with the upper surface of the coupling member 400,
The support member (600)
A support portion 610 which is brought into contact with a lower surface of the upper avalanche stone 200a and is coupled to the upper rear surface of the avalanche stone 200 to support the upper austenitic stone 200a;
And a support portion 620 coupled to the pair of supports 610,
A screw thread for engaging with the coupling part 530 is formed on the other side of the support part 610,
A method of constructing a glazing retaining wall (10), wherein the supporting part (610), the coupling part (530), and the coupling part (520) are coupled to the coupling member (400)
Installing a gravel block (200);
A compaction layer forming step of forming a compaction layer 100a on the rear surface of the gravel block 200;
Installing a reinforcing member (300) on an upper surface of the compaction layer (100a);
A coupling member coupling step of coupling the coupling member 400 to the reinforcing member 300;
A joining member attaching step of joining the joining member (500) to the gravel block (200) and the joining member (400);
An upper compaction layer forming step of forming a compaction layer 100b on the upper surface of the reinforcing member 300;
A supporting member reinstalling step of installing the supporting member (600) in the gravel block (200);
A step of mounting a topsheet (200a) on the support member (600);
And forming a compaction layer (100c) on the rear surface of the upper anorthite (200a).
delete delete delete delete The method according to claim 1,
Wherein the fastening portion (530) is formed of a turnbuckle or a long nut.
delete delete delete The method according to claim 1,
Wherein the step of installing the gravel block, the step of forming the compaction layer, the step of installing the reinforcing material, the step of joining the fastening members, the step of installing the coupling member, and the step of reinstalling the support are repeatedly performed according to the height of the gravel retaining wall.

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