KR20180097863A - Reinforced earth wall's reinforcement device - Google Patents

Abstract

The present invention relates to a construction field, and specifically, to a reinforced retaining wall reinforcement device coupled to a geo-cell and a metal reinforcing material via a connecting device. The present invention relates to the reinforced retaining wall composed of a front surface portion formed by filling soil available for vegetation, and a back-filling portion formed by filling soil or arm barrack on the rear surface of the front surface portion. The reinforced retaining wall comprises: the geo-cell installed in the front surface portion; the metal reinforcing material installed in the back-filling portion; and the connecting device connecting the geo cell with the metal reinforcing material.

Description

{REINFORCED EARTH WALL'S REINFORCEMENT DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field, and more particularly, to a reinforced earth retaining wall reinforcing device in which a geocell is combined with a metal reinforcement through a connecting device.

As shown in FIG. 2, when a honeycomb geocell is used as a front portion of a reinforced earth retaining wall, vegetation is possible and cracks are not generated due to compliance with subsidence of the ground.

On the other hand, when a metal stiffener is used for the backfill portion, there is no possibility of damaging even in the case of embankment, and the horizontal displacement can be suppressed due to the characteristic of the metal material having a small strain.

However, as shown in FIG. 1, in the past, the geogrid, which disperses and distributes the earth pressure over a large area, was used as a reinforcement in the backfill, and a metal reinforcement for transferring the concentrated load could not be used.

In order to construct a reinforced earth retaining wall with the merit of applying the geocell to the front part and the advantage of applying the metal reinforcement to the backfill part, combining the two types of reinforcing materials having different load characteristics and material characteristics causes the geocell made of civil engineering synthetic fiber to rupture There is a danger.

Korean Patent No. 10-0177024 (issued November 16, 1998)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a reinforcing earth retaining wall reinforcing apparatus capable of constructing a reinforcing earth retaining wall having an advantage of applying a geocell to a front portion and an advantage of applying a metal reinforcement to a backing portion.

The present invention relates to a reinforced earth retaining wall comprising a front portion formed by embedding gypsum so as to enable vegetation, and a backfill formed by embedding soil or rock mass on the back surface of the front portion, A metal reinforcement disposed on the backfill portion; And a connection device for connecting the geosell and the metal reinforcement.

In the present invention, the connecting device includes a connecting block installed in the geocell; And a stiffener fastening part having one side embedded in the connection block to connect the connection block and the metal stiffener.

In the present invention, it is preferable that the connecting block has a trapezoidal shape whose front surface is wider than the rear surface so as to be applicable to the curved section of the reinforcing earth retaining wall.

In the present invention, it is preferable that a plurality of anchors coupled to the geocell protrude from the upper surface of the connection block.

In the present invention, it is preferable that the anchor has a trapezoidal shape in which the width of the upper portion is narrower than the width of the lower portion.

In the present invention, it is preferable that the reinforcing member fastener is formed of a pair of plates spaced from each other by a bolt insertion hole.

In the present invention, one end of the metal reinforcement is preferably formed with a bolt insertion hole corresponding to the bolt insertion hole of the stiffener fastener, and is disposed between the plates and bolted together.

In the present invention, it is preferable that the reinforcing member fasteners are formed as a pair and are disposed at the connection block at a predetermined interval.

In the present invention, it is preferable that the metal reinforcement is a pair of steel rods, and the connecting rods are sequentially and vertically connected between the steel rods along the longitudinal direction of the steel rods.

According to the present invention, at one end of the metal reinforcement, a fastening block having a bolt insertion hole corresponding to the bolt insertion hole of the reinforcing fastening hole is provided, and the fastening block is disposed between the plates and bolted together.

In the present invention, the stiffener fastener is a steel bar, a thread is formed at the other end, the metal reinforcement is the same as the diameter of the steel bar, a thread is formed at one end of the steel reinforcement and the other end of the reinforcement fastener, And the end portion is preferably connected to the inner peripheral surface by a coupler having a threaded portion.

In the present invention, the other end of the metal reinforcement may be an anchor block.

In the present invention, the reinforcing member fastener is preferably a pair of metal rings spaced apart from each other by a predetermined distance.

In the present invention, it is preferable that the metal reinforcement has a hook at one end thereof, the hook is disposed between a pair of the metal rings, and the connection pin is bound to the loop through the pair of metal rings.

In the present invention, it is preferable that the metal reinforcement is a pair of steel rods, and the connecting rods are sequentially and vertically connected between the steel rods along the longitudinal direction of the steel rods.

In the present invention, it is preferable that a ring portion is formed at one end of the metal reinforcement, the ring portion is disposed between a pair of the metal rings, and the connection pin is bound to the ring portion through the pair of metal rings.

The reinforced earth retaining wall reinforcing apparatus according to the present invention has the advantage of applying the geocell to the front portion and the reinforced earth retaining wall having the advantage of applying the metal reinforcement to the backfill portion.

In other words, it has the merit of geocell that it is not only excellent in workability but also adaptable to settlement of foundation ground, that cracks do not occur and that vegetation is possible, and that it has advantages of metal reinforcement that suppresses horizontal displacement, Reinforced earth retaining walls can be constructed.

1 is a conceptual view of a conventional geocell reinforcing earth retaining wall.
2 is a perspective view of the geocell shown in Fig.
3 is a schematic sectional view showing a reinforced earth retaining wall provided with a reinforcing earth retaining wall reinforcing apparatus according to the present invention.
4A is a perspective view of a connecting block in the reinforcing earth retaining wall reinforcing apparatus according to the first embodiment of the present invention.
4B is a view illustrating a state in which an anchor is formed on the connection block shown in FIG. 4A.
5 is a view illustrating a state where a metal stiffener is connected to the connection block shown in FIG. 4A.
6 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a second embodiment of the present invention.
7 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a third embodiment of the present invention.
8 is a perspective view of a reinforcement earth retaining wall reinforcing apparatus according to a fourth embodiment of the present invention.
9 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a fifth embodiment of the present invention.
10 is a chart for determining the earth pressure coefficient K _? Of the anchorage side.
11 is a chart for determining the resistance ratio (R / R _o ) of the anchor.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to facilitate the understanding of the technical idea of the present invention, a most preferred embodiment of the present invention will be described with reference to the accompanying drawings.

In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a reinforcing earth retaining wall reinforcing apparatus according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 11. FIG.

FIG. 1 is a conceptual view of a conventional geocell reinforced earth retaining wall, and FIG. 2 is a perspective view of the geocell shown in FIG. 1. FIG.

1 and 2, a typical geocell reinforced earth retaining wall uses a honeycomb geocell made of a civil engineering synthetic fiber material on its front portion, and a geogrid is used as a reinforcing material There is no case in which the reinforcing earth retaining wall reinforcing apparatus according to the present invention using a metal reinforcing material, which is a heterogeneous material, is applied.

3 is a schematic sectional view showing a reinforced earth retaining wall provided with a reinforcing earth retaining wall reinforcing apparatus according to the present invention.

3, a reinforcing earth retaining wall reinforcing apparatus (hereinafter referred to as a "reinforcing apparatus") is composed of a front portion formed by embedding the gypsum so as to enable vegetation, and a backfill portion formed by covering the back surface of the front portion with a soil- It is installed on the retaining wall.

The reinforcing apparatus includes a geocell 10, a metal stiffener 300, and a connecting device for fastening the geosell 10 and the metal stiffener 300 together.

As described above, the geocell 10 has a honeycomb shape made of a civil engineering synthetic fiber material, and is installed in the front portion.

The metal stiffener 300 is installed on the backfill so that the horizontal displacement can be controlled, and the metal reinforcement 300 is not damaged in the condition of embedding the arm force.

Since the geosell 10 distributes the load to the entire area and transmits the load, the metal reinforcement 300 is a method of concentrating the load on the narrow steel plate or steel bar and transmitting the load. Therefore, There is a need for a coupling device having a coupling mechanism capable of coupling the load conversion mechanism and the geocell 10 and a stiffener coupling for coupling the load conversion mechanism and the metal stiffener 300. [

FIG. 4A is a perspective view of a connecting block in the reinforcing earth retaining wall reinforcing apparatus according to the first embodiment of the present invention, and FIG. 4B is a view illustrating a state in which an anchor is formed in the connecting block shown in FIG. 4A.

Since the load converting mechanism has to perform a function of connecting the concentrated load and the distributed load, a rigid plate or block shape to be embedded in the geocell 10 to which the distributed load acts is appropriate.

Therefore, the load-changing mechanism is implemented by the planar connecting blocks 100 and 200 shown in Figs. 4A and 4B in consideration of function and shape.

The connecting blocks 100 and 200 have a trapezoidal shape whose front surface is wider than the rear surface so as to be applicable to the curved section of the reinforcing earth retaining wall.

Bonding blocks 100 and 200 as load transducers are embedded between the stacked geocells 10 on the front or back surface of the geocell 10 and then the metal reinforcements 300 are fastened to the connecting blocks 100 and 200.

The connection blocks 100 and 200 are preferably made of concrete or engineering plastic, since they must be blocks having high rigidity.

The connection method of the connection block and the geocell 10 may differ depending on the buried position of the connection block.

For example, when the connecting block is embedded in the rear portion of the geocell 10, the overlapping length of the geocell 10 and the connecting block is short, Can not be expected.

Accordingly, as shown in FIG. 4B, the anchor 210 protrudes from the upper surface of the connection block 200 and is coupled to the honeycomb structure of the geocell 10 to transmit the earth pressure, as shown in FIG. 4B.

As another example, when the connection block is sufficiently deeply fixed to the front portion of the geocell 10, the horizontal earth pressure is transmitted to the contact resistance of the upper and lower surfaces of the connection block and the vertical pressure of the connection block vertical surface, The planar connecting block 100 can be combined with the geocell 10 only.

The connection block 200 and the geocell 10 are firmly coupled to each other by laminating and filling the geocell 10 on the connecting block 200 so that the anchor 210 is positioned at the center of the honeycomb of the geocell 10 .

The anchor 210 has a trapezoidal shape with an upper width narrower than a width of a lower portion of the anchor 210 so that the upper surface of the anchor 210 can be easily installed and collapsed. 2/3 or less.

The anchors 10 are preferably discontinuous and arranged in a plurality of rows on the upper surface of the connection block 200 so that the anchors 210 do not interfere with the partition walls of the geocell 10 of the honeycomb structure.

Since the behavior of the anchor 210 is the same as the anchor of the sheet file retaining wall, the following dimensions are determined by applying the design standard of the sheet file anchor block.

Fig. 10 is a chart for determining the earth pressure coefficient K _{? Of} the anchor, and Fig. 11 is a chart for determining the resistance ratio (R / R _o ) of the anchor.

One) Anchor resistance coefficient determination

Figure 11 shows the earth pressure coefficient K _γ of the anchor on the anchor side in consideration of the friction angle δ between the embankment soil and the connecting block and the earth pressure coefficient K _a of the anchor plate determined by the internal friction angle Φ of the soil is obtained by the following equation, The anchor basic resistance factor R _o is determined from the difference of the two soil pressure factors.

[Equation 1]

The main earth pressure coefficient, K _a = tan ² (45-Φ / 2)

&Quot; (2) "

Anchor base resistivity, R _o = K _γ -K _a

The basic resistance coefficient (R _o ) is related to the basic shape, and the anchor resistance coefficient R considering the shape of the actual anchor is determined by using the resistance ratio R / R _o and R _o obtained in FIG.

2) Ultimate bearing capacity of anchor

The horizontal earth pressure P _H acting on anchor of unit length and the ultimate bearing capacity T _ult of anchor with length l are obtained from the following formula.

&Quot; (3) "

P _H =? _H * h

&Quot; (4) "

T _ult = P _H * R * l

Where H is the depth of buried anchor, h is the height of the anchor, L is the center distance of the anchor with respect to the longitudinal direction of the retaining wall, and ℓ is the length of the anchor with respect to the longitudinal direction of the retaining wall.

The anchor 210 must be disposed so that the ultimate supporting force of the plurality of anchors 210 disposed in one section of the metal stiffener 300 can support the load acting on the metal stiffener 300. [

The stiffener fastener is embedded in the vertical surface of the connecting block 200 having the planar connecting block 100 or the anchor 210 to fasten the metal stiffener 300 to the metal stiffener 300 through the connecting blocks 100, The reinforcing device leading to the reinforcing bar 300 is completed.

Hereinafter, for ease of explanation, the reinforcing member fasteners are based on those which are embedded in the planar connecting block 100.

The method of connecting the stiffener fastener and the metal stiffener 300 may be a bolt connection, a coupler connection, or a pin connection method depending on the shape of the stiffener fastener.

5 is a view illustrating a state where a metal stiffener is connected to the connection block shown in FIG. 4A.

3 and 5, the stiffener fastener 312 of the first embodiment of the present invention is formed of a pair of plates spaced apart from each other by a bolt insertion hole, Is embedded in the vertical surface of the connection block 100.

The metal stiffener 300 may be any strip type metal stiffener and some grid type metal stiffeners. The narrow stiffener 310 may be a bolt insert hole formed in one end of the steel strip 310, A bolt insertion hole corresponding to the bolt insertion hole is formed.

That is, after one end of the steel plate 310 is disposed between the plates, bolts are fastened to the bolt insertion holes to connect the bolts.

The metal stiffener 300 has resistive protrusions 311 sequentially formed on the upper surface and the lower surface of the steel plate 310 along the longitudinal direction of the steel plate 310.

A plurality of resistance protrusions 311 are formed on the upper and / or lower surface of the steel plate 310 as a constitution for generating a manual resistance force on the metal reinforcement 300.

6 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a second embodiment of the present invention.

3 and 6, the stiffener fastener 312 of the second embodiment of the present invention includes a pair of stiffener fasteners 312 of a first temporary structure, And is disposed on a vertical plane.

The metal stiffener 300 is a pair of steel rods 350. The connecting rods 351 are vertically connected in series between the steel rods 350 along the longitudinal direction of the steel rods 350. At one end of the steel rods 350, A fastening block 352 having a bolt insertion hole corresponding to the bolt insertion hole formed in the fastening hole 312 is provided.

That is, after the fastening block 352 is disposed between the plates, bolts are fastened to the bolt insertion holes to connect them.

7 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a third embodiment of the present invention.

3 and 7, the reinforcing member fastener 321 of the third embodiment of the present invention is a steel bar, and the thread 323 is formed at the other end thereof.

The metal reinforcement 300 is a steel bar 322 having the same diameter as the steel bar of the reinforcing bar fastener 321 and has threads 323 formed at one end thereof.

The other end of the stiffener fastener 321 and one end of the metal stiffener 300 are connected to each other by a coupler 324 having a threaded inner surface.

The other end of the metal reinforcement 300 penetrates through the anchor block 400 and the anchor block 400 is coupled to the metal reinforcement 300 by a washer and a nut 325.

The anchor block 400 is made of concrete, and the resistance of the metal reinforcement 300 is increased, so that the required resistance can be further secured.

8 is a perspective view of a reinforcement earth retaining wall reinforcing apparatus according to a fourth embodiment of the present invention.

3 and 8, the reinforcing member fastener 342 of the fourth embodiment of the present invention is a pair of metal rings spaced apart from each other by a predetermined distance, and the metal reinforcement 300 has a ring portion 341 formed at one end thereof .

That is, the ring portion 341 is disposed between the pair of metal rings 342, and the connecting pin 343 is coupled to the ring portion 341 and the pair of metal rings 342 so as to be coupled.

9 is a perspective view of a reinforcing earth retaining wall reinforcing apparatus according to a fifth embodiment of the present invention.

Referring to Fig. 9, the stiffener fastener 363 of the fifth embodiment of the present invention is the same as the stiffener fastener 342 (Fig. 8) of the fourth embodiment.

The metal stiffener 300 is a pair of steel rods 360 and the connecting rods 361 are sequentially connected vertically between the steel rods 360 along the longitudinal direction of the steel rods 360.

A ring 362 is formed at one end of the metal reinforcement 300 and the ring 362 is disposed between the pair of metal rings 363. The connection pin 364 is connected to the ring 362 So that they are connected to each other through the pair of metal rings 363.

The construction process of the geocell reinforced earth retaining wall using the reinforcing device is as follows.

a) verifying the foundation foundation to be constructed with the reinforcing earth retaining wall;

b) spreading a geocell on the front part of the ground;

c) In the geocell section of the installed front part, the soil and backfill sections are filled with soil or rock mass;

d) installing the connecting block in the geocell when the buried layer of the stiffener is reached;

e) fastening the metal reinforcement to the stiffener fastener;

f) disposing a geocell at the connection block height on the front surface of the connection block when the connection block is embedded in the rear surface;

g) filling and consolidating the gypsum in the connection block buried layer;

h) laying up a geocell in an upper layer of the layer in which the reinforcing device is embedded;

i) repeating steps c to h to embed the reinforcing device up to the planned height, and constructing a reinforced earth retaining wall;

That is, by repeating the process of embedding the reinforcing device in the multi-layered embankment of the gravel filled with the geocell from the compaction base soil, the reinforcing device in which the geocell 10 and the metal reinforcement 300 are combined is laminated, do.

As described above, it is possible to construct the reinforced earth retaining wall having the advantage of applying the geocell to the front portion through the reinforcing device according to various embodiments of the present invention and the advantage of applying the metal reinforcement to the backfill portion.

In other words, it has the merit of geocell that it is not only excellent in workability but also adaptable to settlement of foundation ground, that cracks do not occur and that vegetation is possible, and that it has advantages of metal reinforcement that suppresses horizontal displacement, Reinforced earth retaining walls can be constructed.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Geocell 100, 200: Connection block
210: anchor 300: metal reinforcement
400: anchor block 312, 321, 342, 363: stiffener fastener
310: steel plate 311: resistance protrusion
322, 350, 360: steel rods 323:
324: coupler 325: washer & nut
341, 362: hook portion 343, 364: connecting pin
351, 361: connecting rod 352: fastening block

Claims (16)

A reinforced earth retaining wall comprising a front part formed by embedding soil to allow vegetation and a backfill formed by embedding soil or rock mass on the back surface of the front part,
A geocell disposed in the front portion;
A metal reinforcement disposed on the backfill portion; And
A connecting device for connecting the geosell to the metal reinforcement;
Wherein the reinforcing soil retaining wall reinforcement device comprises:
The method according to claim 1,
The connecting device
A connecting block installed in the geocell; And
A stiffener fastening part having one side embedded in the connection block to connect the connection block and the metal stiffener;
Wherein the reinforcing soil retaining wall reinforcement device comprises:
3. The method of claim 2,
The connecting block
Wherein the reinforcing earth retaining wall reinforcing member has a trapezoidal shape whose front surface is wider than a rear surface of the reinforcing earth retaining wall so that it can be applied to a curved section of the reinforcing earth retaining wall.
3. The method of claim 2,
On the upper surface of the connection block
And a plurality of anchors coupled to the geocell are formed to protrude from the reinforcing soil retaining wall reinforcement.
5. The method of claim 4,
The anchor
Wherein the width of the upper portion is narrower than the width of the lower portion.
3. The method of claim 2,
The stiffener fastener
And a pair of plates spaced apart from each other by a bolt insertion hole.
The method according to claim 6,
One end of the metal reinforcement
Wherein a bolt insertion hole corresponding to the bolt insertion hole of the reinforcing member fastening hole is formed, and the reinforcing earth retaining wall reinforcing device is disposed between the plates and bolted together.
The method according to claim 6,
The stiffener fastener
Wherein the reinforcing soil retaining wall reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing reinforcing
9. The method of claim 8,
The metal reinforcement
Wherein a pair of steel rods are vertically connected in series between the steel rods along the longitudinal direction of the steel rods.
10. The method of claim 9,
At one end of the metal reinforcement
A bolt inserting hole formed in the bolt inserting hole of the bolt inserting hole,
The fastening block
Wherein the reinforcing earth retaining wall reinforcement is disposed between the plates and bolted together.
3. The method of claim 2,
The stiffener fastener
And a thread is formed at the other end,
The metal reinforcement
A diameter equal to the diameter of the steel bar, a thread is formed at one end,
The other end of the reinforcing member fastener and one end of the metal reinforcement
Wherein the reinforcing earth retaining wall reinforcing member is connected to the inner circumferential surface by a threaded coupler.
12. The method of claim 11,
The other end of the metal reinforcement
Wherein the anchor block is penetrated.
3. The method of claim 2,
The stiffener fastener
Wherein the reinforcing earth retaining wall reinforcing member is a pair of metal rings spaced apart from each other by a predetermined distance.
14. The method of claim 13,
The metal reinforcement
A ring portion is formed at one end,
Wherein the annular portion is disposed between a pair of the metal rings, and the connecting pin is bound to the annular portion through a pair of the metal rings.
14. The method of claim 13,
The metal reinforcement
Wherein a pair of steel rods are vertically connected in series between the steel rods along the longitudinal direction of the steel rods.
16. The method of claim 15,
Wherein the metal reinforcement has an annular portion at one end thereof,
Wherein the annular portion is disposed between a pair of the metal rings, and the connecting pin is bound to the annular portion through a pair of the metal rings.

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