KR101628049B1 - Self-retained wall sructures and construction method thereof - Google Patents

Abstract

The present invention has a main purpose to provide a new type of self supporting type retaining wall structure which improves the arrangement structure of the supporting blocks to increase the self supporting force and to reduce the use of supporting members such as forcible beams as much as possible, and a construction method thereof.
According to another aspect of the present invention, there is provided a self supporting type retaining wall structure comprising a supporting block formed on a slope slope or a slope slope, the supporting block being formed along the slope, A fixing block 20,40 having at least one hole 50 formed therein and a fitting block 30 positioned between the fixing blocks 20,40, The fixing beam 60 is inserted into the hole 50 and inserted and fixed in the ground. The fixing beam 60 is formed with a fitting wing 62 and the fixing block 20, 40 is provided with the fitting wing 62 The fitting block 30 is formed with a wing receiving groove 52 on one side of the adjacent fixed blocks 20 and 40 so as to withstand the pressure applied from the slope 10 on both sides of the fitting block 30, The engaging protrusion 32 is formed.

Description

[0001] SELF-RETAINED WALL SRUCTURES AND CONSTRUCTION METHOD THEREOF [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a self supporting type retaining wall structure and a method of construction thereof, and more particularly, to a self supporting type retaining wall structure in which a support block and a fitting block are alternately installed, and a construction method thereof.

When constructing new roads, bridges, harbors, factory sites, housing complexes, etc., there are cases where existing slopes are cut or new slopes are formed by accumulating soil on the ground. In order to prevent the newly created artificial slope or embankment slope from collapsing due to external factors such as rainfall, The structure of the retaining walls piled up is installed.

1 schematically shows a retaining wall structure and a construction method thereof using a fixed grid 3, which is installed on many embankment slopes. FIG. 1 (a) is a sectional view of a retaining wall structure, and FIG. 1 (b) is a perspective view showing a construction view of a retaining wall structure. In order to construct the retaining wall structure on the embankment slope 1, the supporting blocks 2 of the same shape are first laminated so as to form a plurality of layers, and the embankment surface 1 is formed from the supporting block 2 each time each layer is completed. The fixed grid 3 is laid out and arranged. The stationary grid 3 laid to extend into the interior of the embankment slope 1 makes use of the frictional force with the soil to create a bearing force capable of withstanding the pressure applied to the support block 2 from the slope.

In such a retaining wall structure, the support block 2 is not sufficient to withstand the pressure transmitted from the actual embankment surface 1 because it simply generates a supporting force by its own weight. Therefore, the fixed grid 3 interposed between the layers of the respective supporting blocks 2 acts like a reinforcing bar in a reinforced concrete structure, thereby generating a supporting force of the retaining wall structure. In order to increase the frictional force between the stationary grid 3 and the embossed surface 1, the embossed surface of the embossed surface 1 is piled up tightly using a compaction roller or the like so that the degree of compaction of the embossed surface 1 becomes 95% Should be raised. As a result, not only is the operation time long, but also the height of the retaining wall is increased and the length of the fixed grid 3 is also increased, thus complicating the process.

2 schematically shows a retaining wall structure using a fixed anchor 5 widely applied to a cut slope and a construction method thereof. 2 (a) is a sectional view of a retaining wall structure, and FIG. 2 (b) is a perspective view showing a construction view of a retaining wall structure. A support block 4 of the same shape is piled up on a cut slope 1 made by cutting ground and then a fixed anchor 5 of a metal material having a predetermined length is inserted into each support block 4 into the cut slope 1 It is inserted so as to have a constant inclination.

The cut slope (1) is a natural ground that has been built for many years, so it has a very high degree of compaction. Therefore, the support block 4 can have a holding force of a certain level or more by the fixed anchor 5 inserted obliquely into the cut slope 1. However, in the case of this method, since the support block 4 has only a supporting force by its own weight, the fixing anchor 5 must be provided for each support block 4 in order to obtain a sufficient supporting force, There was a problem.

Fig. 3 shows a method of constructing another retaining wall structure developed to increase the supporting force. This method can be installed on both inclined slopes or cut slopes. The supporting block 6 has a rectangular shape and is formed on both sides of the supporting block 6. When the two adjacent supporting blocks 6 are stacked on each other, A fixing groove 7 is formed.

When the fixed beam 8 penetrates vertically and is inserted into the ground, concrete or mortar is installed in the fixing groove 7 to firmly fix the fixed beam 8. The fixed beam 8 comprises a coupling member for coupling the two adjoining support blocks 6 and a primary support member for providing support forces to the respective support blocks 6 to withstand the pressure exerted from the slope 1 . A part of the support block 6 is further provided with a fixed anchor 9 which is inserted and fixed in an inclined manner in the ground as shown in Fig. The fixed anchor 9 serves as a secondary supporting member which further provides a supporting force to the supporting block 6. [

However, according to this method, the slope is very fluid due to the structural dynamics, so it may be suitable when high bearing capacity is required. However, in general slope, there are disadvantages of over-reinforcement and two supporting members are used at the same time, Has a problem. Moreover, in this method, since the support block 6 generates only the support force due to its own weight, it also has a problem that the support block 6 itself does not have a high specific gravity contributing to the support force.

The present invention has been developed in order to solve the problems of the conventional art, and it is an object of the present invention to provide a new type of self supporting type retaining wall structure which improves the arrangement structure of the supporting blocks to increase the self supporting force, The main purpose is to provide a method.

According to another aspect of the present invention, there is provided a self supporting type retaining wall structure comprising a support block formed on a slope slope or slope slope, and a support block formed along the slope includes an insertion hole Wherein the fixing block includes at least one fixed block and a fitting block located between the fixed blocks, the fixed beam passing through the insertion hole of the fixed block and being inserted and fixed in the ground, The fixing block may be formed with a wing receiving groove so as to fit the fitting wing portion and a locking protrusion may be formed on both sides of the fitting block so as to engage with one side of the adjacent fixing block so as to withstand the pressure applied from the slant face .

In addition, it is preferable that two or more insertion holes are formed in the fixed block, the distance between two adjacent insertion holes formed in the fixed block, and the distance between the insertion hole formed in the fixed block and the other fixed The distance between the insertion holes formed in the block may be set to be constant.

In addition, a locking receiving groove may be formed on both sides of the fixed block so that the engaging jaws of the fitting block engage with each other.

Also, the fixed block and the fitting block may be stacked in a plurality of layers, and the layers may be arranged so that the layers correspond to each other one by one.

In addition, the fixed block and the fitting block may be stacked in several layers, and one layer of the fitting block may correspond to two or more layers of the fixed block.

Also, concrete or mortar may be inserted into the insertion hole formed in the fixed block after the fixed beam is inserted.

According to another aspect of the present invention, there is provided a method for constructing a retaining wall structure by constructing a supporting block on a slope slope or slope slope, comprising the steps of: A step of alternately arranging the fixed block and the fixed block located between the fixed block and the fixed block and constructing the fixed block; Inserting the fitting blade formed in the fixed beam into the wing receiving groove formed in the fixing block when the fixing beam passes through the insertion hole of the fixing block and is inserted and fixed in the ground; And pouring concrete or mortar into the insertion hole formed in the fixed block.

The fixing step may include at least two insertion holes formed in the fixing block, the distance between two adjacent insertion holes formed in the fixing block, and the distance between the insertion hole formed in the fixing block and the fitting block And the distance between the insertion holes formed in the other adjacent fixed blocks is constant.

In addition, the building step may be constructed such that the engagement protrusions formed on both sides of the fitting block are engaged with one side of the adjacent fixed block so as to withstand the pressure applied from the slope.

In addition, the building step may be constructed so that the engagement protrusions formed on both sides of the fitting block are engaged with the engagement receiving grooves formed on both sides of the fixed block.

Also, the building step may include stacking the fixed block and the fitting block into a plurality of layers, and the layers may correspond to each other one by one.

Also, in the building step, the fixed block and the fitting block may be laminated in a plurality of layers, and one layer of the fitting block may correspond to two or more layers of the fixed block.

According to the self-supporting retaining wall structure and the construction method of the present invention constructed as described above, since the fixed block and the fitting block are engaged with each other, the supporting force of the block itself capable of supporting the pressure applied from the slope can be improved.

In addition, by keeping the interval of the fixed beams inserted and fixed to the ground through the fixed block constant using the fitting block, it is possible to have a constant supporting force at any point in the longitudinal direction of the retaining wall, It is also possible to solve the problem of over-reinforcement that may occur due to non-uniformity.

In addition, by forming a wing receiving groove in the fixing beam and accommodating the fitting wing in the insertion groove formed in the fixing block, the fixing beam can be accurately inserted in a state perpendicular to the insertion groove It is. In addition, it minimizes the flow of the fixed beam in a state of being inserted into the insertion groove, thereby allowing the concrete or the mortar to be completely engaged when cured.

1 is a view showing a retaining wall structure using a conventional fixed grid;
2 is a view showing a retaining wall structure using a conventional fixed anchor.
3 is a view showing a retaining wall structure using a conventional fixed beam and a fixed anchor.
4 is a perspective view showing a self supporting type retaining wall structure according to the present invention.
5 is a plan view of a self-supporting retaining wall structure according to the present invention.
6 is a front view showing a self supporting type retaining wall structure according to the present invention.
7 is a side sectional view showing a self supporting type retaining wall structure according to the present invention.
8 is a view of a self-supporting retaining wall structure without a shim block.
9 is a view showing various fixed beams according to the present invention.

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

The embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment.

It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

FIG. 4 is a perspective view showing a self-supporting type retaining wall structure according to the present invention, FIG. 5 is a plan view showing a self-supporting type retaining wall structure according to the present invention, FIG. 6 is a front view showing a self- Sectional side view showing a self-supporting type retaining wall structure according to the present invention.

The self-supporting retaining wall structure according to the present invention is applicable not only to embankment slopes formed by stacking soil, but also to cut slope slopes formed by cutting an existing ground.

In the conventional retaining wall structure described with reference to FIGS. 1 to 3, a fixed grid, a fixed anchor, and a fixed beam are installed on all the supporting blocks to increase the supporting force against the slope, thereby complicating the structure itself, As described above.

In order to solve such a conventional problem, the self-supporting retaining wall structure of the present invention fixes only a part of a supporting block (fixed block) by a fixed beam and the remaining supporting block (fitting block) is engaged with a fixed supporting block So that it is possible to have a supporting force in a self-supporting manner without a separate supporting means. Thus, in the present invention, the term "self-supporting type " is used to mean that the supporting block is constructed so as to have a supporting force without directly depending on a separate supporting means such as a fixed grid, a fixed anchor and a fixed beam.

To this end, the self-supporting retaining wall structure according to the present invention is composed of a supporting block formed along the slope 10 and a fixed beam 60 penetrating through some of the supporting blocks to be inserted and fixed in the ground. The supporting block includes a fixing block 20,40 having at least one insertion hole 50 penetrating vertically and a fitting block 30 positioned between the fixing blocks 20,40.

The fixing blocks 20 and 40 are provided at both ends of the retaining wall structure in terms of the shape thereof and are provided with a latch receiving groove 22 for receiving the latching jaws 32 of the fitting block 30 only on one side thereof. The fixing block 20 is divided into a fixing block 40 provided at the center of the retaining wall structure and formed with a retaining groove 42 for receiving the retaining wall 32 of the fitting block 30 on both sides thereof. Although the two types of fixed blocks are different in shape, they are fixed by the fixed beam 60 and have the same function of transmitting the supporting force to the adjacent fitting block 30.

The fixed beam 60 passes through the insertion hole 50 of the fixed block 20 or 40 and is inserted and fixed into the ground where the fixed blocks 20 and 40 are formed. Unlike the fixed beam 8 shown in FIG. 3, which is installed between two adjacent support blocks 6 and functions mainly as a member for engaging them, the fixed beam 60 according to the present invention is fixed to the fixed blocks 20, ) Is installed in itself and functions as a supporting member.

On both sides of the fitting block 30, a locking protrusion 32 is formed to engage with one side of the adjacent fixed block 20 or 40 so as to withstand the pressure applied from the slope 10. As shown in FIG. 4, the locking protrusion 32 is formed on a surface opposite to the slope surface 10, and is fixed to the fixing block 20, 20 so as to receive a force in a direction opposite to the pressure applied from the slope 10, 40). As a result, the fitting block 30 is engaged with the slope 10 only by being engaged with the adjacent fixed blocks 20 and 40 without directly supporting means such as a fixed beam and a fixed anchor to the fitting block 30 It is possible to have a supporting force capable of resisting pressure.

The engaging grooves 22 and 42 may be formed on both sides of the fixed block 20 and 40 so that the engaging protrusions 32 of the fitting block 30 engage with each other. As a result, the engaging jaws 32 of the fitting block 30 are fitted in the engaging grooves 22, 42 of the fixed blocks 20, 40 in a completely engaged manner, Allows a smooth surface to be maintained.

In the meantime, the fitting block 30 allows the fixed beams 60 fixed to the fixed blocks 20 and 40 to be spaced apart from each other by a certain distance in the entire longitudinal direction of the retaining wall structure by the fitting block 30, Not only does the whole have a uniform bearing capacity, but also solves the problem of reinforcement.

More specifically, as shown in FIG. 5, two or more insertion holes 50 are formed in the fixed blocks 20 and 40, and two adjacent insertion holes 50 formed in the fixed blocks 20 and 40 are formed. (50) and an insertion hole (50) formed in the fixed block (20, 40) and an insertion hole (50) formed in another fixed block (20, 40) adjacent thereto via the fitting block (30) So that the distance L1 between the holes 50 is kept constant.

Here, maintaining the distance of the insertion holes to be "constant " means not maintaining the distance in the mathematical sense to be completely the same, but the distance between the insertion holes 50 by the fitting block 30, This means that it is possible to show uniform bearing capacity over the entire length of the retaining wall structure.

FIG. 8 illustrates the case where the fitting block 30 according to the present invention is not used, so that the distance between the insertion holes becomes uneven. A first fixing block 100 having two insertion holes 120 and a second fixing block 110 having two insertion holes 122 are installed adjacent to each other. At this time, the distance L2 between the two insertion holes formed in each of the fixed blocks 100 and 110 is kept constant, but the distance between the two inserted holes located between the first fixed block 100 and the second fixed block 110 The distance L3 between the holes becomes relatively short.

Therefore, when the fixed beam is inserted through the insertion hole between the two fixed blocks 100 and 110 having short distances, it can be mechanically dynamically shown to exhibit more than necessary supporting force and the like. Also, when the pressure is applied from the slope due to the variation of the supporting force over the entire length of the retaining wall structure, collapse may easily occur in the portion where the supporting force is relatively weak.

The fixed blocks 20 and 40 and the fitting block 30 may be stacked in a plurality of layers, and the layers may be arranged to correspond one to another. In other words, by making the heights of the fixed blocks 20, 40 and the fitting block 30 the same, the fixed blocks 20, 40 and the fitting block 30 are alternately used for constructing one layer . This simplifies the construction process and improves the efficiency of the work.

The fixed blocks 20 and 40 and the fitting block 30 are stacked in a plurality of layers so that one layer of the fitting block 30 corresponds to two or more layers of the fixed blocks 20 and 40. [ Can be installed. 4 and 6 show an embodiment in which a retaining wall is constructed by making the height of one fitting block 30 the same as the height of the three fixing blocks 20 and 40. [ When one layer of the fitting block 30 is installed so as to correspond to two or more layers of the fixing blocks 20 and 40, the weight of the fitting block 30, which has no separate supporting means such as a fixed beam, Is increased by that amount. As a result, the supporting force due to its own weight is increased, so that a more stable retaining wall structure can be constructed.

Reference numeral 34 denotes a fixing pin, which allows the fitting block 30 located above and below to be correctly engaged when the fitting block 30 is constructed in multiple layers.

9 shows various forms of the fixed beam according to the present invention. 9 (a), the fixed beam 60 is formed in the shape of a circular pipe, inserted into the circular insertion hole 50, and then inserted into the concrete or mortar 70 to form the fixed beam 60, To the fixed block. In addition, the fixed beam 60 may be an H-shaped steel which is most widely used as a structural member.

9 (b), the fixed beam 60 has a circular cross section, but has a wing 62 in a vertical or horizontal direction, and the fixed block 20 And a wing receiving groove 52 may be formed to fit the fitting wing portion 62. As a result, the fixed beam 60 can be accurately inserted perpendicular to the insertion groove 50. Furthermore, it is possible to suppress the flow of the fixed beam 60 while being inserted into the insertion groove 50 as much as possible so that the concrete or the mortar 70 can be completely engaged when cured.

Hereinafter, a construction method of the self-supporting retaining wall structure according to the present invention will be briefly described.

A method for constructing a retaining wall structure by constructing a supporting block on a slope slope or a slope slope surface comprises the steps of: forming at least one insertion hole (50) (20, 40) and the fixing block (20, 40) are alternately arranged; Passing the fixing beam (60) through the insertion hole (50) of the fixed block (20, 40) and inserting it into the ground; And placing the concrete or mortar in the insertion hole (50) formed in the fixed block (20, 40).

At this time, in the building step, two or more insertion holes 50 are formed in the fixed blocks 20 and 40, and between the adjacent two insertion holes 50 formed in the fixed blocks 20 and 40 And the distance between the insertion hole 50 formed in the fixed block 20 and 40 and the insertion hole 50 formed in the adjacent fixed block 20 or 40 via the fitting block 30 It is desirable to construct it so as to be constant.

As a result, the fitting block 30 allows the fixed beams 60 fixed to the fixed blocks 20 and 40 to be spaced apart from each other by the fitting block 30 in the entire longitudinal direction of the retaining wall structure, Not only does the whole retaining wall have a uniform bearing capacity, it also solves the problem of reinforcement.

The fixing step may include a step of stopping the fixing block 20 or 40 adjacent to the engaging protrusion 32 formed on both sides of the fitting block 30 so as to withstand the pressure applied from the slope 10, To be assembled. More preferably, the engaging protrusions 32 formed at both sides of the fitting block 30 are engaged with the engaging receiving grooves 22 and 42 formed on both sides of the fixed blocks 20 and 40.

As a result, the fitting block 30 can be prevented from being pressurized by the slope 10 only by being engaged with the adjacent fixed blocks 20 and 40 without directly supporting means such as a fixed beam or a fixed anchor It is possible to have a supporting force.

In the building step, the fixed blocks 20 and 40 and the fitting block 30 may be laminated in a plurality of layers, and the layers may correspond to each other. In another embodiment, the fixed blocks 20 and 40 and the fitting block 30 are laminated in multiple layers, and one layer of the fitting block 30 is laminated on at least two layers of the fixed blocks 20, As shown in FIG. In the former case, the process of constructing the block can be simplified and the efficiency of the work can be improved. In the latter case, the self-weight of the fitting block 30, which is not provided with a separate supporting means such as a fixed beam, .

Lastly, the fixed beam 60 may be a general structural member such as a circular pipe or an H-shaped beam. In another embodiment, the fixed beam 60 is formed with the wing portions 62 in the vertical and horizontal directions and the wing portions 62 are formed in the wing receiving grooves 52 formed in the fixed blocks 20, As shown in Fig. As a result, when the fixed beam 60 is inserted, it is possible to secure a vertical degree and to suppress the flow of the fixed beam 60 in a state where the fixed beam 60 is inserted into the insertion hole 50, It can be combined perfectly.

10: slope 20,40: fixed block
30: insertion block 50: insertion hole
60: Fixed beam 70: Concrete or mortar

Claims (12)

A retaining wall structure formed by constructing a supporting block on a slope slope or slope slope,
The supporting block formed along the slope 10 includes a fixed block 20 or 40 formed with two or more insertion holes 50 penetrating vertically and a fitting block 20 positioned between the fixed blocks 20 and 40, (30)
The fixed beam 60 is inserted and fixed in the ground through the insertion hole 50 of the fixed block 20 or 40. The fixed beam 60 has a fitting wing 62 formed therein, 40 are formed with a wing receiving groove 52 for fitting the fitting wing portion 62,
On both sides of the fitting block 30, a locking protrusion 32 is formed to engage with one side of the adjacent fixed blocks 20 and 40 so as to withstand the pressure applied from the slope 10,
Two or more insertion holes 50 are formed in the fixed blocks 20 and 40 and the distance between two adjacent insertion holes 50 formed in the fixed blocks 20 and 40 and the distance between the fixed blocks 20 and 40 The distance between the insertion hole 50 formed in the fixed block 20 and the insertion hole 50 formed in the adjacent fixed block 20 or 40 via the fitting block 30 is kept constant. A self - supporting retaining wall structure. delete The method according to claim 1,
Wherein retaining grooves (22, 42) are formed on both sides of the fixed blocks (20, 40) so that the retaining jaws (32) of the fitting block (30) engage with each other. The method according to claim 1,
Characterized in that the fixed blocks (20, 40) and the fitting block (30) are laminated in several layers and each layer is arranged to correspond to each other one by one. The method according to claim 1,
The fixed blocks 20 and 40 and the fitting block 30 are stacked in a plurality of layers and one layer of the fitting block 30 is installed to correspond to two or more layers of the fixed blocks 20 and 40 Wherein the self-supporting retaining wall structure is characterized in that: The method according to claim 1,
Wherein a concrete or mortar is inserted into the insertion hole (50) formed in the fixed block (20, 40) after the fixed beam (60) is inserted. A method for constructing a retaining wall structure by constructing a supporting block on a slope slope or slope slope,
(20, 40) having two or more insertion holes (50) penetrating vertically, and a fitting block (30) located between the fixing blocks (20, 40);
When the fixed beam 60 is inserted into the insertion hole 50 of the fixed block 20 or 40 and inserted into the ground after the fixed beam 60 is inserted into the insertion hole 50 of the fixed block 20 or 40, Inserting the wings into the wing receiving grooves (52) formed in the first and second wings (20, 40); And
And placing concrete or mortar in the insertion hole (50) formed in the fixed block (20, 40)
In the step of constructing, two or more insertion holes (50) are formed in the fixed blocks (20, 40), and a distance between two adjacent insertion holes (50) formed in the fixed blocks (20, 40) The distance between the insertion hole 50 formed in the fixed block 20 and the insertion hole 50 formed in the adjacent fixed block 20 or 40 via the fitting block 30 is maintained constant Wherein said method comprises the steps of: delete The method of claim 7,
The fixing step is performed such that the engaging protrusions 32 formed on both sides of the fitting block 30 are engaged with one side of the adjacent fixed block 20 or 40 so as to withstand the pressure applied from the slope 10 Wherein the method comprises the steps of: The method of claim 9,
The fixing step is performed such that the engaging protrusions 32 formed on both sides of the fitting block 30 are engaged with the engaging receiving grooves 22 and 42 formed on both sides of the fixed blocks 20 and 40 A method of constructing a self - supporting retaining wall structure. The method of claim 7,
The method of claim 1, wherein the step of constructing comprises the steps of: stacking the fixed blocks (20, 40) and the fitting block (30) in multiple layers; The method of claim 7,
The method according to any one of claims 1 to 3, wherein the step of constructing comprises: stacking the fixed blocks (20, 40) and the fitting block (30) And a plurality of the retaining wall structures are installed so as to correspond to the plurality of retaining wall structures.

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