KR20120055315A - Plantable retaining wall block laying structureusing the block - Google Patents

Abstract

PURPOSE: A reinforced earth retaining wall block laying structure is provided to obtain various exterior patterns of a retaining wall by connecting a plurality of combination reinforced earth retaining wall blocks. CONSTITUTION: A reinforced earth retaining wall block laying structure comprises a first combination block(10), a second combination block(20), a third combination block(30), and a fourth combination block. The first combination block comprises a block body with a lateral groove and a pin fixing groove, wherein the lateral groove is formed from the front to both lateral ends of the block body and has a pin insertion hole. The second combination block is identical in the shape but higher than the first combination block. The third combination block is identical in the shape but higher than the second combination block.

Description

Structure of Reinforced Earth Retaining Wall Block {PLANTABLE RETAINING WALL BLOCK LAYING STRUCTUREUSING THE BLOCK}

The present invention relates to an masonry structure of reinforcement earth retaining wall blocks, and more particularly, to improve the safety of a structure composed of a plurality of reinforcement earth retaining wall blocks, and to connect a plurality of combined reinforcement soil retaining wall blocks formed to have a constant height to each other. Regarding the masonry structure of the reinforced soil retaining wall block can be configured in a variety of forms than the conventional form to improve the surrounding landscape of the retaining wall structure.

In general, the retaining wall refers to a permanent block structure that is built on the fill area when flattening the sloped ground, and is widely used in mountainous areas and hilly Korean terrain. Retaining walls must have a high resistance to earth and water pressure. However, the soil filled in the retaining wall is solid, but the binding force between the particles is weak, so it is easily scattered and destroyed by external force and its own weight. Due to these problems, as the retaining wall height increases, problems such as structural weakness and construction costs increase. To remedy this problem, a reinforced earth retaining wall method has been developed. Reinforced soil retaining wall method is a method of embedding a strong strip-like or plate-shaped reinforcement at regular intervals in a soil layer mainly composed of soil, and this method retains structural stability by independence of the soil, including reinforcement. The height can be increased and the retaining wall can be constructed even on soft ground.

1 is a view showing the construction of a block retaining wall for civil engineering mainly used, the block (B) has a geometric cross-sectional shape that can maximize structural safety, grid-type reinforcement (R) as an accessory material The block B, the block B, and the reinforcing material R are bound together in a mutually bonded structure by using a pin P. However, the conventional reinforcement retaining wall method as described above should not only connect the reinforcement (R) to each block (B) individually in the connection structure, but also the density of the reinforcement in the horizontal direction of the retaining wall in the left and right directions, respectively. As the spacing of the reinforcement in the vertical direction is larger than the installation spacing, as a result, a non-uniform reinforcement spacing is achieved, resulting in a lack of binding force between the upper and lower blocks and a low density of the reinforcement connection of the block. Waste of materials and deformation of various external forces were generated due to local displacement and the increase of front and rear length of the block. This method gave the viewer a sense of meaning because the exterior of the retaining wall could only produce a simple and rigid atmosphere. Problems such as making them feel bored and not having good influence on national sentiment. This will was.

The present invention has been made to solve the above problems, the coupling between adjacent blocks are firmly coupled in the horizontal and vertical direction and at the same time made of a structure for stably fixing the reinforcement to absorb the dynamic load in the retaining soil retaining wall block itself It is combined to form a safe structure and consists of a combination of a plurality of combination blocks having the same shape but different in the direction of height, respectively, so that the shape of the retaining wall structure wall can be more diverse by forming a simple pattern of the existing reinforced earth retaining wall. It is to provide the masonry structure of the reinforced earth retaining wall block.

In order to achieve the above object, the masonry structure of the reinforcement earth retaining wall block according to the present invention has a predetermined height in the masonry structure of the reinforcement earth retaining wall block formed by interconnecting adjacent reinforcement earth retaining wall blocks when constructing a plurality of reinforcement earth retaining wall blocks. A block body having a portion is formed in the upper surface of the block body portion is formed in the transverse grooves extending from the front of the body to both end portions in the transverse direction, and continues in the direction crossing the transverse grooves to the rear end portion of the block body portion A groove having a longitudinal groove formed therein is formed, the horizontal groove is provided with a pin insertion hole perforated in the vertical direction, and the pin fixing groove formed at a position corresponding to a direction perpendicular to the pin insertion hole is provided at the lower end of the block body portion. The first combined block provided and formed in the same shape as the first combined block A second combined block formed to have a height greater than a height in a vertical direction of the first combined block, and a second combined block formed in the same shape as the first combined block and having a predetermined length greater than a height in the vertical direction of the second combined block. The third combined block formed to have a height and the same shape as the first combined block, the height in the vertical direction is added to the height in the vertical direction of the second combined block is equal to the height in the vertical direction of the third combined block It is composed of a fourth combination block formed so as to, and at least one or more combination blocks of the first combination block, the second combination block, the third combination block and the fourth combination block to each other in the lateral and vertical directions adjacent to each other to build A grid interposed in the horizontal direction is installed between the block layers to have at least two stacking intervals, and is inserted into the pin insertion hole. Fixing the control grid and further characterized in that the upper end portion to be fixed to each other are integrally combined block neighboring in the vertical direction is installed, the fixing pin grid applied to the pin fixing groove of the laminated combination block to the upper layer.

In addition, the masonry structure of the reinforced earth retaining wall block according to the present invention, using the block of any one of the first combined block, the second combined block, the third combined block and the fourth combined block, the front and rear lengths in the middle of the width of the block body portion. Each half block formed by cutting in a direction is further configured, wherein at least one half block of each of the half blocks and at least one of the first combined block, the second combined block, the third combined block, and the fourth combined block A block fixing bar is constructed to be constructed adjacent to the combination block in the lateral direction and the vertical direction, and inserted between the half block and the combination block neighboring to the side so as to be integrally fixed to each other so as to be integrally disposed in each of the transverse grooves. .

In addition, the masonry structure of the reinforced earth retaining wall block according to the present invention, the layer between the grid is provided with an anchor which is fixed to the cut portion of the rear surface where the reinforced earth retaining wall block is constructed, one side longitudinal groove of the block body portion It is characterized in that it comprises a reinforcing member which is connected to the block fixing bar and the other side is connected to the anchor is provided with a block support reinforcement for supporting each of the combined block body.

By the above configuration, the masonry structure of the reinforced earth retaining wall block according to the present invention is combined to form a safe structure that absorbs the dynamic load in the reinforced earth retaining wall block itself, and has the same shape, but each of a plurality of combination blocks having different standards in the height direction. By combining the shape of the existing reinforced earth retaining wall monotonous by combining the retaining wall structure wall is formed to have a pattern of more various forms has the advantage that the surrounding landscape is improved compared to the conventional.

1 is a perspective view showing a state of construction of the reinforced earth retaining wall block and the laying state of the grid-shaped reinforcement according to a conventional embodiment.
Figure 2 is a perspective view showing a built state of the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention.
FIG. 3 is a perspective view showing a perspective enlarged view of a built state of part “A” of FIG. 2;
Figure 4 is a reference diagram showing the specification of the reinforced earth retaining wall blocks used in the masonry structure of the reinforced earth retaining wall blocks according to an embodiment of the present invention.
5 is a conceptual view showing a process in which a half block formed in the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention.
Figure 6 is a construction state showing a state in which the grid of the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention is installed.
7 is a cross-sectional view showing a state in which the grid fixing pin of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is installed.
8 is a cross-sectional view showing a state in which a block fixing bar of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is installed.
Figure 9 is a cross-sectional view showing the construction of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention.
10a to 10e is a view illustrating a construction state showing various embodiments of the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention.
Figure 11 is a cross-sectional view showing a state in which the reinforcement of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is installed.
12 is a plan view showing a state in which the reinforcement of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is installed.

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the structure of the reinforced soil retaining wall block according to the present invention.

Figure 2 is a perspective view showing a built state of the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention, Figure 3 is a perspective view showing the enlarged perspective view of the built state of the portion "A" of FIG. Figure 4 is a reference diagram showing the specification of the reinforced earth retaining wall block used in the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention, Figure 5 is a masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention. 6 is a conceptual diagram illustrating a process in which a half block is formed, and FIG. 6 is a construction state diagram illustrating a state in which a grid of an masonry structure of reinforcement earth retaining wall blocks according to an embodiment of the present invention is installed, and FIG. 8 is a cross-sectional view illustrating a state in which the grid fixing pins of the masonry structure of the reinforced soil retaining wall block are installed, and FIG. 8 is a block fixing bar of the masonry structure of the reinforced soil retaining wall block according to the embodiment of the present invention. 9 is a cross-sectional state view showing a state, Figure 9 is a cross-sectional state diagram showing a state of construction of the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention, Figure 10a to 10e is a reinforcement soil according to an embodiment of the present invention FIG. 11 is a view illustrating a construction state showing various embodiments of the masonry structure of the retaining wall block, and FIG. 11 is a cross-sectional state diagram illustrating a state in which a stiffener of the masonry structure of the reinforced soil retaining wall block according to the embodiment of the present invention is installed. Figure 1 is a planar state diagram showing a state in which the reinforcement of the masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is installed.

Referring to the drawings, the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention, the first combined block 10, the second combined block 20, the third combined block 30, the fourth combined block ( 40), the grid 50, and the grid fixing pin 51 is configured.

The present invention relates to an masonry structure of reinforcement earth retaining wall blocks formed by interconnecting adjacent reinforcement earth retaining wall blocks when constructing a plurality of reinforcement earth retaining wall blocks. A plurality of combination blocks having the same width and having different width specifications in the height direction are combined. It is characterized in that the appearance of the conventional monotonous retaining wall structure wall to form a pattern of more various forms.

The masonry structure of the reinforced soil retaining wall block according to an embodiment of the present invention is the first combined block 10, the second combined block 20, the third combined block 30 and the fourth combined block as shown in FIG. 40 is provided.

The first combined block 10 is formed with a block body portion 11 having a predetermined height. In addition, the upper surface of the block body portion 11 of the first combination block 10 is formed with a transverse groove 11a extending from the front of the block body to both end portions in the transverse direction, and the transverse groove 12a. Groove portion 12 is formed in the longitudinal direction (12b) extending in the direction intersecting with and extending to the rear end portion of the block body.

The second combined block 20 is formed to have a block body portion 21 and a recess 22 having the same shape as the first combined block 10, and is higher than the height of the first combined block 10 in the vertical direction. It is formed to have a height as large as a predetermined length.

The third combined block 30 is formed to have a block body portion 31 and a recess 32 having the same shape as that of the first combined block 10, so as to have a width greater than the width of the second combined block 20 in the vertical direction. It is formed to have a height as large as a predetermined length. At this time, in one embodiment of the present invention, it is preferable that the height in the vertical direction of the third combined block 30 is formed to have the size of twice the height in the vertical direction of the first combined block 10.

The fourth combined block 40 is formed to have a block body portion 41 and a recess 42 in the same shape as the first combined block 10 so that the height in the vertical direction is increased by the second combined block 20. It is formed to be equal to the height of the third combined block 30 in the vertical direction by adding up with the height in the vertical direction. In addition, the first combined block 10, the second combined block 20, the third combined block 30, and the fourth combined block 40 in one embodiment of the present invention have the same height specifications. It is formed to have the following size to satisfy, referring to Figure 4, the height of each of the combined block 10, the first combined block 10 is 200mm, the second combined block 20 is 250mm, the third combined block 30 ) Is 400mm, the fourth combined block 40 is formed to a height of 150mm, respectively. That is, the sum of the vertical height H1 of the fourth combined block 40 and the vertical height H2 of the second combined block 20 is equal to the vertical height H3 of the third combined block 30. It is formed.

Accordingly, the first combined block 10, the second combined block 20, the third combined block 30, and the fourth combined block 40 having the same height specifications may include at least one combined block, that is, two units. A kind of combined block or three types of combined blocks is constructed adjacent to each other in the lateral direction and the vertical direction. Such an embodiment is shown in FIGS. 10A-10E. Referring to the drawings, the first combined block 10, the second combined block 20, the third combined block 30, and the fourth combined block 40 form a retaining wall by forming a row and a row for each combined block type. By constructing the structure, the exterior of the retaining wall wall, which is constructed only by alternately stacking adjacent combination blocks positioned up and down in the zigzag direction, can form various patterns.

On the other hand, the first combined block 10, the second combined block 20, the third combined block 30 and the fourth combined block 40 is in the lateral grooves (12a, 22a, 32a, 42a) up and down And pin insertion holes 13, 23, 33, and 43 drilled in a direction, and the pin insertion holes 13, 23, 33, and 43 are provided at the lower ends of the block body parts 11, 21, 31, and 41. Pin fixing grooves 14, 24, 34, 44 formed at positions corresponding to the vertical direction are provided. In addition, a grid 50 interposed in the horizontal direction with a stacking interval of at least two or more steps is provided between the combined block layers constructed as described above.

The grid 50 is firmly fixed between the built-in combined block layer to be embedded in the fill portion of the back space where the retaining wall is constructed to maintain the safety of the structure, the grid 50, the grid fixing pin (51) ) Is installed and firmly fixed.

The grid fixing pin 51 is formed in a rod shape having a head portion of a square or polygonal shape as shown in FIG. Thus, the grid fixing pin 51 is inserted into the pin insertion holes (13, 23, 33, 43) to fix the grid 50, the upper portion so that the combination block adjacent to each other in the vertical direction integrally fixed to each other The head portion formed on the pin fixing grooves (14, 24, 34, 44) of the combined block laminated on the upper layer is installed. Accordingly, the grid fixing pin 51 can firmly support the grid 50 and the blocks constructed adjacent to each other in the vertical direction at the same time.

On the other hand, the masonry structure of the reinforced earth retaining wall block according to an embodiment of the present invention of the first combined block 10, the second combined block 20, the third combined block 30 and the fourth combined block (40). Each half block 10 ', 20', 30 ', 40' formed by cutting in the longitudinal direction in the middle of the width of each of the block body portions 11, 21, 31, and 41 by using any one block Is further configured.

The half blocks 10 ', 20', 30 ', and 40' are configured so that the appearance of the constructed retaining wall structure can form various patterns in a different form from the above-described embodiment. Referring to FIG. 5, the half blocks 10 ', 20', 30 ', and 40' are formed of the first combined block 10, the second combined block 20, the third combined block 30, and the fourth. It is formed by cutting half the width of each of the combination block 40, a pair of half blocks (10 ', 20', 30 ', 40') are formed to be symmetrical to both sides in each combination block.

Figure 2 is a construction state embodiment of the wall structure of the retaining wall structure appearance by constructing the half-block (10 ', 20', 30 ', 40') in the masonry structure of the reinforced earth retaining wall block of the present invention form a certain pattern embodiment It is shown. Referring to FIG. 2, first, the first combined block 10, the second combined block 20, the third combined block 30, By using any one of the combination block of the fourth combination block 40, the combination block having the same standard by a certain number of stages according to the height of the foundation is stably stacked in the horizontal direction. Thus, in one embodiment of the present invention, the first combined block 10 is the basis. Next, the half blocks 10 ', 40 having the same height as the first combined block 10 and the fourth combined block 40 among the respective half blocks 10', 20 ', 30', and 40 '. ') Is used in combination with each of the combination block to be laminated to form a predetermined pattern, the top layer is to finish the installation by installing a finishing block 60. On the other hand, Figure 3 is a perspective view showing the state of the assembled block built on the portion "A" which is a part of FIG. Referring to FIG. 3, the third combined block 30 is positioned at the center, and the pair of the first combined block 10 are located adjacent to both sides of the third combined block 30, respectively. A pair of half blocks 10 'having the same height as 10) is stacked on the first combined block 10 so as to be connected at both sides of the third combined block 30, respectively. Therefore, the first combined block 10 and the half block 10 having a height of 200 mm are combined in the vertical direction, and the third combined block 30 having a size of 400 mm and an upper surface thereof are horizontal. The height is adjusted to the state. In addition, as shown in FIG. 2, a third combined block 30 is positioned at the center, and a second combined block 20 having a height of 250 mm and a fourth combined block 40 having a height of 150 mm on both sides thereof. To form another pattern. On the other hand, the front of the half-block (10'40 ') can be applied to a variety of colors to form a point, the appearance of the retaining wall structure constructed in various embodiments through the above method creates a unique aesthetic You can also make it happen.

Meanwhile, as shown in FIG. 3, after the upper surfaces of the half blocks 10 'and 40' and the third combined block 30 are adjacently constructed, the respective transverse grooves may be firmly fixed to each other. The block fixing bar 52 is inserted so as to span the 12a, 32a. The block fixing bar 52 may fix the grid 50 like the grid fixing pin 51, and is formed to be long so as to span each other between the combination blocks adjacent to the side.

The block fixing bar 52 is installed to be inserted into the lateral grooves 12a, 22a, 32a, and 42a of each of the combination blocks constructed to fix the grid 50. The block fixing bar 51 is formed to have a long trapezoidal or polygonal cross-section is installed so as to span the lateral grooves (12a, 22a, 32a, 42a) of each other so that the side-by-side neighboring assembled blocks are integrally fixed to each other. do. In addition, the block fixing bar 52 may be used in place of the grid fixing pin 51, but each of the assembled block and the half block 10 including the first combined block 10 as shown in FIG. ', 20', 30 ', 40') is preferably used when the heights of the upper surfaces of each block are the same in the combination.

As described above, the masonry structure of the reinforced earth retaining wall block of the present invention is the stack of the first combined block 10, the second combined block 20, the third combined block 30 and the fourth combined block 40 or the By combining the combination blocks and the semi-blocks 10 ', 20', 30 ', 40' formed by using the combination block in the vertical direction and the horizontal direction of the conventional monotonous retaining wall structure wall of the more various forms than the appearance of You can make a pattern.

On the other hand, the masonry structure of the reinforced earth retaining wall block of the present invention should be secured a certain width of the back space according to the height of the reinforcement earth retaining wall in the case of the cut portion, but to overcome this when the width is not secured according to the narrow space of the road As characterized in that the reinforcement 70 is provided.

11 and 12, the reinforcing material 70 is firmly fixed to the rear surface of the cut portion C so that part or the whole of the retaining wall is not collapsed. In order to reinforce the tensile force, the reinforcement 70 has a material to prevent corrosion using a special FRP (fiberglass reinforced plastics) material. In addition, the reinforcing material 70 is the grid 50 is installed at least two or more layers at intervals, the cut between the reinforcement soil retaining wall block (C) is installed in the layer between the grid 50 is installed Blocks fixed to the anchor portion 71 and one side is seated in the longitudinal grooves 22 are connected to the block fixing bar 52 and the other side is connected to the anchor 71 to support each combination block body It is composed of a support reinforcing material (72).

The anchor 71 is composed of a wedge portion 71a and a connecting portion 71b. The wedge portion 71a has a plurality of visible wedges protruding from the surface of the block body portion 11, 21, 31, 41. It is inserted into the cut portion (C) of the rear of the anchor 71 is fixed, the connecting portion (71b) is formed in a space in the inner cross-section is exposed to the outside of the cut surface.

The block supporting reinforcement 72 is seated in the longitudinal grooves 12b, 22b, 32b, and 42b of the block body portions 11, 21, 31, and 41, and thus the lateral grooves 12a, 22a, 32a, and 42a. It is fixed to the block fixing bar 52 seated in the block body portion (11, 21, 31 when tensioning the anchor 71 by supporting the front portion of the block body portion (11, 21, 31, 41) 41) reinforce the entire shear force. The block supporting reinforcement 72 is formed to be bent in one end portion is connected to the block fixing bar 52 in the form of a "b" or "a" hook. As described above, the block supporting stiffener 72 is integrally connected to the block fixing bar 52 to correspond to shear forces and bending moments acting on the entire block body portions 11, 21, 31, and 41 to which a load is applied. The tensile force is to act.

The masonry structure of the reinforced earth retaining wall block described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

<Brief Description of Main Drawings>
10 First Combination Block 20 Second Combination Block
30 3rd Combination Block 40 4th Combination Block
10 ', 20', 30 ', 40' half block 11,21,31,41 block
12,22,32,42 Grooves 12a, 22a, 32a, 42a Transverse Grooves
12b, 22b, 32b, 42b Longitudinal groove 13,23,33,43 Insertion pin
14,24,34,44 Pinned groove 50 Grid
51 Grid Lock Pin 52 Block Lock Bar
60 Finish Block 70 Reinforcement
71 Anchor 72 Block Support Reinforcement

Claims (3)

In the structure of reinforcement earth retaining wall block formed by interconnecting adjacent reinforcement retaining wall blocks when constructing a plurality of reinforcement retaining wall blocks,
A block body portion having a predetermined height is formed so that the upper surface of the block body portion is formed with a transverse groove extending from the front of the body to both end portions in the transverse direction, and continues in the direction crossing the transverse groove to the rear of the block body portion. A groove having a longitudinal groove formed up to the distal portion is provided, the horizontal groove is provided with a pin insertion hole drilled in the vertical direction, the lower end of the block body portion is formed in a position corresponding to the direction perpendicular to the pin insertion hole A first combination block having a fixing groove,
A second combined block formed in the same shape as the first combined block and formed to have a height greater than a height in a vertical direction of the first combined block by a predetermined length;
A third combined block formed in the same shape as the first combined block and formed to have a height greater than a height in the vertical direction of the second combined block by a predetermined length;
The fourth combination block is formed in the same shape as the first combination block, and the height in the up-down direction is added to the height in the up-down direction of the second combination block to be the same as the height in the up-down direction of the third combination block.
At least two or more steps of stacking between at least one of the first combined block, the second combined block, the third combined block, and the fourth combined block by constructing adjacent block layers laterally and vertically adjacent to each other The grid interposed in the horizontal direction to be installed is installed,
Reinforcement soil characterized in that the grid fixing pin is inserted into the pin insertion hole to fix the grid, the grid fixing pins are caught in the pin fixing groove of the combination block stacked on the upper layer so that the combination block adjacent to each other in the vertical direction is integrally fixed. The masonry structure of the retaining wall block. The method of claim 1,
Each half block formed by cutting in the front and rear longitudinal directions in the middle of the width of the block body portion is further configured by using any one of the first combined block, the second combined block, the third combined block, and the fourth combined block.
At least one half block of each half block and at least one combination block of the first combined block, the second combined block, the third combined block, and the fourth combined block are constructed adjacently in the lateral direction and the vertical direction; The block structure of the reinforced earth retaining wall block is installed between the semi-block and the side-by-side neighboring combination block is installed so that the block fixing bar is inserted across each transverse groove to be integrally fixed to each other. The method according to claim 1 or 2,
A layer between the grid is installed is provided with an anchor fixed to the cut portion of the rear surface is a reinforced soil retaining wall block construction, one side is seated in the longitudinal groove of the block body portion is connected to the block fixing bar and the other side to the anchor The masonry structure of the reinforced earth retaining wall block is characterized in that it comprises a reinforcement provided with a block support reinforcement for supporting each of the combined block body.

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