KR101262867B1 - Anchor having elasticity and wall structure for earthquake-proof using the same - Google Patents

Abstract

PURPOSE: An anchor having elasticity and an earthquake-proof wall structure using the same are provided to sufficiently resist longitudinal load due to an earthquake by functioning as a buff of an elasticity application part for a longitudinal driving of a reinforcing material. CONSTITUTION: An anchor(A) is combined with a front structure(10) and a reinforcing material(20), and supports backwards. The anchor gives elasticity to the driving of the reinforcing material by forming an elasticity application part, and limits deformation above a prescribed limitation. The elasticity application part comprises a supporting part, an elastic body separation protection part, an elastic body, an elastic body protection unit, and an external skin.

Description

Resilient anchor and seismic wall structure using same {ANCHOR HAVING ELASTICITY AND WALL STRUCTURE FOR EARTHQUAKE-PROOF USING THE SAME}

The present invention relates to the field of civil engineering, and in particular, to the structure of a wall structure that can resist earthquakes.

1 is a cross-sectional view showing the structure of the reinforced earth retaining wall of the conventional wall structure.

As shown, the conventional reinforcement earth retaining wall is formed of a plurality of blocks (2) with a predetermined distance from the ground (1), the rear end of the reinforcement (3) is fixed to the anchor 5 (also referred to as a manual anchor) The front end portion is fixed to the block 2, and the back ground sand 4 (4: reinforcement soil) is filled and compacted in the space between the ground 1 and the block 2, thereby preventing the collapse of the block 2. It is taking structure.

Since the reinforced earth retaining wall is evaluated as having excellent economic and mechanical stability compared to the concrete gravity retaining wall, it is being constructed by various modifications.

By the way, in the conventional reinforcement soil retaining wall which takes the structure reinforced by the reinforcement 3 in this way, the means which can reliably prevent the deformation of the block 2 structure provided against harmful external force, especially earthquake, is developed. It has been pointed out as a problem.

That is, by the combination structure of the conventional block (2), reinforcement (3), anchor 5 as described above, since the buffering action against the longitudinal load caused by the earthquake can not be expected at all, the rear soil sand (4) When earthquake loads exceed the design load for earth pressure, the retaining wall structure had to surrender.

The present invention was derived to solve the above problems, and to provide an elastic anchor and a seismic wall structure using the same, which can be sufficiently resisted by the buffering action even if the longitudinal load is applied by the earthquake. It is done.

In order to solve the above problems, the present invention is coupled to the front structure 10 and embedded in the rear soil 4 to support the front structure 10 to prevent the collapse of the rear soil 4 to the rear. Coupled to the rear end of the reinforcement 20 of the rod-shaped structure, the anchor supporting the reinforcement 20 rearward, to impart elasticity to the drive of the reinforcement 20, while limiting deformation above a predetermined limit. , Proposes an elastic anchor (A) characterized in that the elastic application portion 100 is formed.

The elastic application portion 100 has a wide cross section compared with the cross section of the reinforcing material 20 so that the position is fixed by the earth pressure of the rear soil 4, and the through hole 111 of the reinforcing material 20 in the core portion (110) is formed; An elastic body separation prevention part 120 coupled to a rear end of the reinforcing material 20 installed to penetrate the through hole 111 of the support part 110; It is preferable to include an elastic body 130 mounted between the support part 110 and the elastic body departure preventing part 120 to impart elasticity to the driving of the reinforcing material 20 relative to the support part 110.

The support 110 is preferably a plate-like structure.

The elastic body departure preventing part 120 is preferably formed in the core portion of the coupling hole 121 of the reinforcing material 20.

The elastic body 130 preferably includes a coil spring.

The coil spring is preferably formed such that the width of the rear side is gradually narrowed compared to the width of the front side.

The elastic applying unit 100 may further include an elastic protection unit 140 installed to surround the outside of the elastic body 130 to secure the elastic driving space of the elastic body 130.

The elastic body protection part 140 is preferably mounted between the support part 110 and the elastic body separation prevention part 120.

The elastic body protection unit 140 is preferably formed of a corrugated pipe structure.

It is preferable that the filler 141 made of a compressible material is filled in the elastic protector 140 to secure the elastic driving space.

The elastic applying unit 100 protects the elastic body protection part 140 from the rear soil 4, and also allows the expansion protection of the elastic body protection part 140, of the elastic body protection part 140 It is preferable to further include; an outer skin portion 150 installed to surround the outside.

The outer skin portion 150 is preferably mounted between the support portion 110 and the elastic departure prevention portion 120.

It is preferable that the filler 151 made of a compressible material is filled in an area between the outer shell part 150 and the elastic protective part 140 to secure the expansion driving space of the elastic protective part 140.

It is preferable that the filling part 152 for inserting or removing the filler 151 is formed in the outer skin part 150.

The filling hole 152 is preferably equipped with a stopper 153 to be opened and closed.

The present invention is a front structure (10) installed on the front of the rear soil (4) to prevent the collapse of the rear soil (4); A reinforcing member 20 having a rod structure coupled to the front structure 10 and embedded in the rear soil sand 4 so as to support the front structure 10 rearwardly; And an elastic anchor (A) embedded in the rear soil sand (4) and coupled to the rear end of the reinforcement (20) to support the reinforcement (20) to the rear. Present the structure together.

The present invention proposes an elastic anchor and a seismic wall structure using the same, which can be sufficiently resisted by a cushioning action even when a longitudinal load is applied by an earthquake.

1 is a cross-sectional view of a conventional reinforced earth retaining wall.
2 shows an embodiment of the present invention,
2 is a cross-sectional view of the seismic wall structure.
3 is a sectional view of a first embodiment of an elastic anchor;
4 is a sectional view of a second embodiment of an elastic anchor;
5 is a sectional view of a third embodiment of an elastic anchor.
6 is a sectional view of a fourth embodiment of an elastic anchor;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown below in Figure 2, the earthquake-resistant wall structure according to the present invention is basically, the front structure (10) by the block construction structure and the like installed on the front of the rear soil 4 to prevent the collapse of the rear soil 4 ); Reinforcing material 20 of the rod-shaped structure by the steel rods, etc., which is coupled to the front structure 10, the shear is embedded in the rear soil 4 to support the front structure 10 to the rear; It is configured to include a resilient anchor (A) embedded in the rear soil (4), coupled to the rear end of the reinforcement (20), to support the reinforcement (20) to the rear.

Here, the elastic anchor (A) is characterized in that the elastic application portion 100 is formed to impart elasticity to the drive of the reinforcing material 20, while limiting the deformation of more than a predetermined limit.

That is, by installing the elastic anchor (A) at the rear end of the reinforcing material 20 as in the prior art, while supporting the rear end of the reinforcing material 20 by the earth pressure acting on the elastic anchor (A), while the reinforcement (20) according to the earthquake By the elastic application portion 100 to the longitudinal drive of the (), while limiting the deformation of more than a predetermined limit, it is to have a basic structural stability.

Therefore, in the case of a wall structure such as a conventional reinforced soil retaining wall, the seismic wall structure according to the present invention has to be surrendered when an earthquake load of more than the design load related to the earth pressure of the rearing soil 4 is applied. There is an effect that the retaining wall structure does not yield even if some seismic load is applied due to the buffering action.

In addition, even if the destruction of the structure can not be avoided by a very large earthquake load, due to the action of the elastic applying portion 100, it is possible to avoid the sudden destruction (brittle failure) of the structure, bar people to evacuate The advantage is that you can have enough time (ductile fracture).

The front structure 10 refers to a structure that forms an exposed surface of the wall structure to prevent the collapse of the rear soil 4, or is embedded in the front of the rear soil 4, the surface of the reinforced soil retaining wall taking a building structure Blocks, walls of ordinary retaining walls, and so on are all used collectively.

Hereinafter, specific embodiments of the elastic applying unit 100 will be described.

The elastic applying portion 100 has a wide cross section compared to the cross section of the reinforcing material 20 so that the position is fixed by the earth pressure of the rear soil sand 4, and the through hole 111 of the reinforcing material 20 is formed in the core portion. Formed support 110; An elastic body separation preventing part 120 coupled to a rear end of the reinforcing material 20 installed to penetrate the through hole 111 of the support part 110; It may be implemented by a configuration that includes; an elastic body 130 mounted between the support 110 and the elastic departure prevention portion 120 to impart elasticity to the driving of the reinforcing material 20 relative to the support 110. (FIG. 3).

In this case, the reinforcing material 20 is driven while passing through the through hole 111 of the support 110 during the earthquake, such a drive is the elastic body 130 is mounted between the support 110 and the elastic departure prevention unit 120 Since it is buffered by the elasticity of, the above-described effect is obtained.

Since the support 110 must support the rear end of the reinforcing material 20 while the position is fixed by the earth pressure of the rear soil 4, it is preferable to take a plate-shaped structure having a large area.

Since the elastic body departure preventing part 120 should take a firm coupling with the rear end of the reinforcing material 20, the coupling hole 121 of the reinforcing material 20 is formed in the core, and the rear end of the reinforcing material 20 is firmly welded or the like. It is preferable to take a fixed structure.

The elastic body 130 may be implemented by a spring having a variety of structures, etc. It is preferable to apply a coil spring having a general and strong elasticity and durability.

When the coil spring takes a structure (spiral structure) formed so that the width of the rear is gradually narrowed compared to the width of the front, the elasticity of the wide and narrow areas of the spring is applied to the reinforcement 20, Since the strength of the elastic force and the elastic restoring force is varied, the effect that the elastic drive of the reinforcement 20 according to the earthquake load can be obtained more stably (Fig. 4).

In order to protect the elastic body 130 from the back soil 4 and to secure the elastic driving space of the elastic body 130 described above, the elastic body protection part 140 is installed to surround the outside of the elastic body 130. Preferred (FIG. 5).

Specifically, it is preferable that the elastic body protection part 140 is mounted between the support part 110 and the elastic body departure preventing part 120 in view of convenience of manufacture and structural stability.

In order to stably allow the elastic driving of the elastic body 130, the elastic body protection unit 140 is formed in a corrugated pipe structure, it is preferable to drive the elastic body protection unit 140 together with the elastic body 130.

It is preferable to fill the filler 141 made of a compressible material (EPS, styrofoam, etc.) in order to resist the earth pressure of the rear soil sand 4 and to secure the elastic driving space inside the elastic protective part 140. .

The driving of the elastic body protection unit 140 may also be disturbed by the earth pressure of the rear soil 4, in order to prevent this, in addition to protecting the elastic body protection unit 140 from the rear soil 4, the elastic body protection unit In order to allow the expansion driving of the 140, it is preferable to install the outer skin part 150 in a structure surrounding the outside of the elastic protective part 140.

The outer skin 150 is also preferably mounted between the support 110 and the elastic separation prevention unit 120 in terms of convenience of production, structural stability.

Since the outer skin part 150 does not need to be driven together with the elastic body 130 unlike the elastic body protection part 140, the outer skin part 150 may be formed of a synthetic resin material having a predetermined shape and strength.

In the region between the outer skin 150 and the elastic body protection part 140, the filler 151 made of a compressible material to secure the expansion driving space of the elastic body protection part 140 against the earth pressure of the rear soil layer 4 It is preferable to charge it.

Here, the filler 151 may be the same as the filler 141.

In order to facilitate the insertion or replacement of the filler 151, it is preferable that a filling hole 152 for inserting or removing the filler 151 is formed in the outer skin portion 150, and the filling hole 152 has The stopper 153 is preferably mounted to be openable and closed to prevent inflow.

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.

A: elastic anchor 10: front structure
20: reinforcement 100: elastic portion
110: support portion 111: through hole
120: elastic body departure prevention portion 121: coupling hole
130: elastic body 140: elastic body protection
141: filler 150: outer skin
151: filling material 152: filling hole
153: stopper

Claims (16)

The rear end of the reinforcing material 20 of the rod-shaped structure coupled to the front structure 10 and embedded in the rear soil 4 to support the front structure 10 to prevent the collapse of the rear soil 4 to the rear. In the anchor coupled to, to support the reinforcement 20 to the rear,
An elastic applying portion 100 is formed to impart elasticity to the driving of the reinforcing material 20 and to limit deformation above a predetermined limit.
The elastic application unit 100
A support 110 having a wider cross section than the cross section of the reinforcing material 20 and a through hole 111 of the reinforcing material 20 formed in the core portion such that the position is fixed by the earth pressure of the rear soil 4;
An elastic body separation prevention part 120 coupled to a rear end of the reinforcing material 20 installed to penetrate the through hole 111 of the support part 110;
And an elastic body 130 mounted between the support part 110 and the elastic body separation preventing part 120 to impart elasticity to the driving of the reinforcing material 20 with respect to the support part 110.
The elastic application unit 100
In order to secure the elastic drive space of the elastic body 130, the elastic body protection unit 140 is installed to surround the outside of the elastic body 130;
Elastic anchor (A) characterized in that it further comprises. delete The method of claim 1,
The support 110 is an elastic anchor (A), characterized in that the plate-like structure. The method of claim 1,
The elastic anchoring prevention part 120 is an elastic anchor (A), characterized in that the coupling hole 121 of the reinforcing material 20 is formed in the core portion. The method of claim 1,
The elastic member (130) is characterized in that it comprises a coil spring. The method of claim 5,
The elastic spring (A) characterized in that the coil spring is formed so that the width of the rear gradually narrower than the width of the front. delete The method of claim 1,
The elastic protector 140 is an elastic anchor (A), characterized in that mounted between the support 110 and the elastic departure prevention portion (120). 9. The method of claim 8,
The elastic body protection portion 140 is an elastic anchor (A), characterized in that formed in a corrugated pipe structure. 9. The method of claim 8,
An elastic anchor (A), characterized in that the filling material (141) made of a compressible material is filled to secure the elastic drive space inside the protective body 140. The method of claim 1,
The elastic application unit 100
In order to protect the elastic body protection part 140 from the back soil 4, and to allow the expansion driving of the elastic body protection part 140, an outer skin part installed to surround the exterior of the elastic body protection part 140 ( 150);
Elastic anchor (A) characterized in that it further comprises. The method of claim 11,
The outer shell portion 150 is an elastic anchor (A), characterized in that mounted between the support portion 110 and the elastic departure prevention portion (120). The method of claim 12,
Elastic anchors, characterized in that the filler 151 made of a compressible material is filled in the area between the outer skin portion 150 and the elastic body protection part 140 to secure the expansion driving space of the elastic body protection part 140. (A). The method of claim 13,
The outer shell portion 150 is an elastic anchor (A), characterized in that the filling hole 152 for insertion or separation of the filler 151 is formed. 15. The method of claim 14,
The filling hole 152 is an elastic anchor (A), characterized in that the stopper 153 is mounted to be openable. A front structure (10) installed on the front of the rear soil (4) to prevent the collapse of the rear soil (4);
A reinforcing member 20 having a rod structure coupled to the front structure 10 and embedded in the rear soil sand 4 so as to support the front structure 10 rearwardly;
Coupled to the rear end of the reinforcing material 20 to support the reinforcing material 20 to the rear, and embedded in the rear soil sand (4), 3 to 6, 8 to 8 Elastic anchor (A) of any one of claims 15;
Earthquake-proof wall structure comprising a.

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