The present invention relates to a retaining wall structure; and more particularly, to a supporting member interposed between adjacent two horizontal retaining wall layers for supporting and coupling units of the retaining wall, a retaining wall structure having the same and a method of building the retaining wall structure.
A retaining wall is a structure erected to support a road slope and an excavated or filled embankment in order to prevent collapse of the road slope and the embankment due to the earth pressure. Generally, the lateral displacement is prevented by filling-up a space between the retaining wall and the road slope or the embankment with the back-filler containing fiber reinforcement having high tension and friction, i.e., geo-grid. That is, the retaining wall assures the stability of diversity structures such as road slopes and the embankments. Therefore, various retaining wall structures and methods of building thereof were introduced. For example, interlocking blocks were used to build a retaining wall that supports the earth pressure of a soil structure. Also, sand sacks or soil sacks were used instead of using the interlocking blocks.
When the sand sacks or the soil sacks are used to build the retaining wall, the retaining wall is built without fixing those sacks each others and their positions in the retaining wall are maintained only by their gravity. Therefore, if the back-filler portion of the retaining wall is sunken after building the retaining wall with those sacks, the vertical shape of the retaining wall is easily deformed by the horizontal shearing force arisen between the retaining walls. As a result, the reinforcement, i.e., geo-grid, in the back-filler is destroyed. Therefore, the retaining wall according to the related art has highly limited conditions of the height and the slop, and the durability thereof is low.
It is, therefore, an object of the present invention to provide a supporting member for supporting and coupling vertically-adjacent retaining wall units to hold a horizontal shearing force arisen between horizontal retaining wall layers so as to improve the durability of the retaining wall.
It is other object of the present invention to provide a retaining wall structure having the supporting member and a method of building a retaining wall structure using the same for improving the durability.
In accordance with one aspect of the present invention, there is provided a supporting member for a retaining wall structure including: a pair of downward protrusions spaced apart and extended to one direction; and a coupling portion for coupling one ends of downward protrusions and being connected to each of the one ends of downward protrusions about vertically to a projecting direction of the downward protrusions.
The supporting member may further include a pair of upward protrusions projected from the coupling portion in a direction opposite to the downward protrusions.
Each of the downward protrusions may include an arrowhead shaped portion at a projected end thereof.
In accordance with another aspect of the present invention, there is provided a retaining wall structure including: a first horizontal retaining wall layer formed of a plurality of first retaining wall units closely arranged in a horizontal direction; a second horizontal retaining wall layer formed of a plurality of second retaining wall units closely and horizontally arranged on the first horizontal retaining wall layer in parallel; and a supporting member disposed on the second horizontal retaining wall layer to support the second retaining wall unit and the first retaining wall unit together, where the supporting member includes a pair of downward protrusions spaced apart and extended in one direction which are inserted into the first retaining wall unit after passing through the second retaining wall unit and a coupling portion coupling the downward protrusions by being connected to each end of the downward protrusions about vertically.
The retaining wall structure may further include a first geo-grid sheet having one end interposed between the first horizontal retaining wall layer and the second horizontal retaining wall layer, other end extended to a back-filler soil supported by the retaining wall units, and a plurality of through holes to receive the downward protrusions.
In accordance with still another aspect of the present invention, there is provided a retaining wall structure including: a first horizontal retaining wall layer formed of a plurality of first retaining wall units closely arranged in a horizontal direction; a second horizontal retaining wall layer formed of a plurality of second retaining wall units closely and horizontally arranged on the first horizontal retaining wall layer in parallel; a third horizontal retaining wall layer formed of a plurality of third retaining wall units closely and horizontally arranged on the second horizontal retaining wall layer in parallel; and a supporting member disposed on the third horizontal retaining wall layer to support the third, the second and the first retaining wall units together, where the supporting member includes a pair of downward protrusions spaced apart and extended in one direction which are inserted into the first retaining wall unit after passing through the third and the second retaining wall units and a coupling portion coupling the downward protrusions by being connected to each end of the downward protrusions about vertically.
The retaining wall structure may further include a first geo-grid sheet and a second geo-grid sheet each of which has one end interposed between the first horizontal retaining wall layer and the second horizontal retaining wall layer or disposed on the third horizontal retaining wall layer, other end extended to a back-filler soil supported by the retaining wall units, and a plurality of through holes to receive the downward protrusions.
In accordance with further still another aspect of the present invention, there is provided a method of building a retaining wall structure including: forming a first horizontal retaining wall layer by arranging a plurality of first retaining units to be closely each others in a horizontal direction; forming a second horizontal retaining wall layer on the first horizontal retaining wall layer in parallel by arranging a plurality of second retaining units on the first horizontal retaining wall layer to be closed each others in a horizontal direction; and nailing a supporting member into the second horizontal retaining wall layer where the supporting member includes a pair of downward protrusions spaced apart and extended in one direction and a coupling portion coupling the downward protrusions by being connected to each one end of the downward protrusions about vertically, and the downward protrusions are inserted into the first retaining wall unit after passing through the second retaining wall unit.
In accordance with further still another aspect of the present invention, there is provided a method of building a retaining wall structure including: forming a first horizontal retaining wall layer by arranging a plurality of first retaining units to be closely each others in a horizontal direction; forming a second horizontal retaining wall layer on the first horizontal retaining wall layer in parallel by closely and horizontally arranging a plurality of second retaining units on the first horizontal retaining wall layer; forming a third horizontal retaining wall layer on the second horizontal retaining wall layer in parallel by closely and horizontally arranging a plurality of third retaining units on the second horizontal retaining wall layer; and nailing a supporting member into the third horizontal retaining wall layer where the supporting member includes a pair of downward protrusions spaced apart and extended in one direction and a coupling portion coupling the downward protrusions by being connected to each one end of the downward protrusions about vertically, and the downward protrusions are inserted into the first retaining wall unit after passing through the third and the second retaining wall units.
The supporting member may further include a pair of upward protrusions projected from the coupling portion in an opposite direction of the downward protrusions.
Each of the downward protrusions may have an arrowhead shaped portion at a projected end thereof.
The retaining wall unit may be a sand sack or a soil sack.
The retaining wall unit may be made of material having gradual-hardening characteristics which is hardened after completely building the retaining wall.
In the supporting member, the retaining wall structure having the same and a building method thereof according to the present invention, the supporting member supports and couples vertically-adjacent retaining wall units to hold a horizontal shearing force arisen between horizontal retaining wall layers. Therefore, durability of the retaining wall having the same is enhanced.
Especially, the protrusion of the supporting member according to the present invention is inserted into the retaining wall units which is arranged two units below the supporting member after penetrating the retaining wall unit which is arranged right bellow the supporting member. Therefore, the durability of the retaining wall having the same is further enhanced.
The above and other objects and features of the present invention will become apparent from the following description of the preferred embodiments given in conjunction with the accompanying drawings, in which:
Other objects and aspects of the invention will become apparent from the following description of the embodiments with reference to the accompanying drawings, which is set forth hereinafter.
As shown in
The first horizontal retaining wall layer 100 is formed of a plurality of first retaining wall units 110 which are closely and horizontally arranged each others. The second horizontal retaining wall layer 200 is also formed of a plurality of second retaining wall units 210 closely and horizontally arranged each others on the first horizontal retaining wall layer 100. The third horizontal retaining wall layer 300 is also formed of a plurality of third retaining wall units 310 closely and horizontally arranged one another on the second horizontal retaining wall layer 200. It is preferable that the first, the second and the third retaining wall units 110, 210 and 310 may be a sand sack or a soil sack. Also, those retaining wall units 110 and 210 may be a sack containing the composition of the sand and the soil. Instead of using the sand sack, the soil sack or the composition thereof, blocks made of material having characteristics of gradual hardening may be used. For example, the first, the second and the third retaining wall units 110, 210 and 310 may be wet clay blocks which are hardened after completely building the retaining wall.
Each of the supporting members 10 and 20 includes: a pair of downward protrusions 11 or 21 that are spaced apart and extended in one direction; and coupling portion 13 or 23 for coupling one ends of the downward protrusions 11 or 21. The coupling portion 13 or 23 is connected to both of the one ends of the downward protrusions 11 or 21 about vertically. In order to support vertically adjacent retaining wall units such as the first retaining wall unit 110 and the second retaining wall unit 210 or the second retaining wall unit 210 and the third retaining wall unit 310, the protrusions 21 of the supporting member 20 are inserted into the first retaining wall unit 110 after passing through the second retaining wall unit 210, and the protrusions 11 of the supporting member 10 are also inserted into the second retaining wall unit 210 after passing through the third retaining wall unit 310. Accordingly, the coupling portions 23 and 13 are positioned on a top surface of the second retaining wall unit 210 or the third retaining wall unit 310, respectively.
As shown in
The retaining wall structure according to the present embodiment further includes a first geo-grid sheet 510 having one end interposed between the first horizontal retaining wall layer 100 and the second horizontal retaining wall layer 200. The other end of the first geo-grid sheet 510 extends into the filling such as a back-filler soil supported by the retaining wall units 110, 210 and 310. A plurality of through holes 511 is formed on the first geo-grid sheet 510. The downward protrusions 11 and 21 of the supporting members 10 and 20 are inserted into the retaining wall units 110, 210 and 310 after passing through the through holes 511 formed on the first geo-grid sheet 510. Therefore, the first geo-grid sheet 510 is firmly interposed and fixed between the first horizontal retaining wall layer 100 and the second horizontal retaining wall layer 200.
Until now, the retaining wall according to present embodiment is described as including only three horizontal retaining wall layers 100, 200 and 300. However, it is obvious to those skilled in the art that the present invention can be embodied identically into a retaining wall having more than four horizontal retaining wall layers.
Hereinafter, a retaining wall structure according to another embodiment of the present invention will be described with reference to
Referring to
The fourth horizontal retaining wall layer 400 is formed of a plurality of fourth retaining wall units 410 closely arranged in a horizontal direction. The fourth horizontal retaining wall layer 400 may be built using sand sacks, soil sacks or material having gradual hardening characteristics which is hardened after completely building the retaining wall similar to the first, the second and the third retaining wall layers 100, 200 and 300.
Similar to the supporting members shown in
The retaining wall according to another embodiment further include a first and a second geo-grid sheets 510 and 520 each of which has one end interposed between the first and the second horizontal retaining wall layers 100, 200, and between the third and the fourth horizontal retaining wall layers 300 and 400. The other end of the geo-grid sheets 510 and 520 is extended into the filling such as the back-filler soil supported by the retaining wall units 110, 210, 310 and 410. A plurality of through holes 511 and 521 is formed on the geo-grid sheets 510 and 520. The downward protrusions 31 pass through the through holes 511 and 521 and then inserted into the first and the second retaining wall units. Therefore, the first and the second geo-grid sheets 510 and 520 are stably interposed and firmly fixed between the horizontal retaining wall layers 100, 200, 300 and 400.
The retaining wall according to another embodiment is described as including only four horizontal retaining wall layers 100, 200, 300 and 400. However, it is obvious to those skilled in the art that the present invention can be embodied identically into a retaining wall having more than five horizontal retaining wall layers.
Hereinafter, a method of building a retaining wall according to an embodiment of the present invention will be described with reference to accompanying drawings.
At first, a plurality of the first retaining wall units 110 is closely arranged each others in a horizontal direction to form the first horizontal retaining wall layer 100 as shown in
Then, the second horizontal retaining wall layer 200 is formed on the first horizontal retaining wall layer 100 by closely arranging the second retaining wall units 210 in a horizontal direction on the first horizontal retaining wall layer 100 as shown in
Then, the supporting member 10 is nailed on the second horizontal retaining wall layer 200 so that the supporting member 10 is inserted into the first retaining wall unit 110 after passing through the second retaining wall unit 210 as shown in
After nailing the supporting member 10, the third retaining wall units 310 are arranged closely to one another in a horizontal layer to form the third horizontal retaining wall layer 300 as shown in
At first, a plurality of first retaining units 100 is closely arranged in the horizontal direction to form the first horizontal retaining wall layer 100 as shown in
As shown in
As shown in
After nailing the supporting member 30, the fourth horizontal retaining wall layer 400 is formed on the third horizontal retaining wall layer 300 by closely arranging the fourth retaining wall units 410 in parallel on the third horizontal retaining wall layer 300 as shown in
While the present invention has been described with respect to certain preferred embodiments, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.
Number | Date | Country | Kind |
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10-2005-0097879 | Oct 2005 | KR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/KR2005/004311 | 12/14/2005 | WO | 00 | 4/14/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2007/046570 | 4/26/2007 | WO | A |
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Number | Date | Country | |
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20080286055 A1 | Nov 2008 | US |