KR20090042395A - Retaining Wall and Construction Method - Google Patents

Abstract

A retaining wall and a construction method thereof are provided to reduce the size of a bottom door installed at the retaining wall construction by connecting a tensile member. A retaining wall construction method comprises: a step of poring the lean concrete(1) into an upper part with specific depth; a step of placing a bottom plate(2) manufactured in advance with the precast concrete on the upper part of the concrete; a step of forming a protrusion(31) in which the upper side part of a pile(3) is protruded on the bottom plate; a step of setting a wall(4) manufactured on the opposite side of the pile on the bottom plate; a step of connecting one or more tensile member(5) between a connection part(41) of the wall and the protrusion of the pile; and a step for poling the cap concrete(6) on the protrusion of the pile; and a step of hardening and refilling the wall front side and real side with the rubble.

Description

Retaining wall and its construction method

The present invention relates to a retaining wall as a whole. In particular, the retaining wall and its construction can reduce the size of the retaining plate installed for the building of the retaining wall while increasing the resistance to conduction and activity and at the same time economically reducing the thickness of the retaining wall. It is about a method.

The support base plate used for the construction of the retaining wall is for fixing the retaining wall constructed to prevent the collapse of sloped soil such as cut or fill.

Here, the retaining wall is constructed of brick or concrete, etc., in consideration of scale and convenience of construction, recently, structures using concrete have been widely constructed. Such concrete structures should be installed relatively far from the installation object to secure the support base according to the shape of the slope or rock to be installed, and in case the overall height of the retaining wall becomes high, In addition to the large base plate, the retaining wall must be thick.

Accordingly, the work space is required a lot, the backfill work is increased after the installation of the concrete structure, the construction period is extended, and there was a problem that the construction cost increases.

On the other hand, if any obstacle is located around the installation target of the retaining wall, it is difficult to install the retaining wall due to the failure of securing a support base, and thus, a structure of a more complicated and time-consuming method is used. There is a situation.

The present invention has been made in view of the problems of the prior art as described above, by installing a pile coupled to the support base plate placed on the ground for building the retaining wall can be applied a tensile force between the pile and the wall of the concrete structure It is an object of the present invention to provide a retaining wall that can reduce the size of the bottom plate installed for building the retaining wall while increasing the resistance to conduction and activity while economically reducing the thickness of the retaining wall.

In addition, another object of the present invention is to provide a construction method in which the retaining wall can be cost-effectively constructed within a relatively short construction period, and includes a prefabricated construction method using precast concrete, and on-site construction directly on the installation target. The formula construction method is proposed.

In order to achieve the above object, the retaining wall according to the present invention comprises: a bottom plate installed on the ground; A pile which is installed in one side of the bottom plate of the bottom plate, the part being coupled to the bottom plate while forming a protrusion protruding from the bottom plate; A wall erected opposite the pile on the bottom plate; And at least one tension member connected between the wall and the protrusion of the pile to apply a tension force.

In addition, the construction method of the retaining wall according to an embodiment of the present invention, the step of pouring excavation and discarded concrete on the ground; Placing a bottom plate thereon; Installing a pile into the ground through a hole previously formed in the bottom plate, wherein a portion of the pile is formed to form a protrusion protruding onto the bottom plate; Erecting walls on opposite sides of the pile on the bottom plate; Connecting at least one tension member between the wall and the protrusion of the pile; Placing cap concrete on the protrusion of the pile; Repeating the above steps by the length of the retaining wall; And backfilling the bottom plate toward the rear surface of the wall.

Construction method of the retaining wall according to another embodiment of the present invention, the step of digging in the ground; Installing a pile into the ground; Placing discarded concrete around the ground on which the pile is installed; Making a bottom plate and a wall thereon, such that a portion of the pile forms a protrusion protruding above the bottom plate, while the wall is positioned opposite the pile on the bottom plate; Connecting at least one tension member between the wall and the protrusion of the pile; Placing cap concrete on the protrusion of the pile; And backfilling the bottom plate on the back side of the wall.

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

1 is a view briefly illustrated step by step to explain the construction method of the retaining wall according to an embodiment of the present invention, in this embodiment will be described the prefabricated construction method using precast concrete.

First, as a method of forming a foundation in civil engineering, first, a trench is drilled by a predetermined depth on a support base to be installed, and the discarded concrete 1 is poured thereon.

Subsequently, a bottom plate 2 made of precast concrete is placed on the discarded concrete 1. The bottom plate 2 is made into a substantially rectangular shape, for example, to have a width of 2 to 3 m, and as shown in FIG. 1, as shown in FIG. 1, a stepped support jaw 21 is formed or a support groove is formed, which will be described later. The bottom of the wall 4 is supported, that is, it acts as a resistance to the conduction and activity of the wall 4. Moreover, the hole 22 for attaching the pile 3 demonstrated below is formed in the opposite side to this support jaw 21 or the support groove.

Next, the pile 3 is installed into the ground through a hole 22 formed in the bottom plate 2, which is a cast in place pile (CIP), and is suitable for those skilled in the art. As they are well aware, it is a concrete pile made by drilling the ground using a drill and inserting cement mortar and reinforced H-pile. Such piles 3 are not limited to the above-described cast-in-place piles, if the durability is sufficiently secured, and other materials and different-shaped piles may be used.

On the other hand, during the installation of the pile 3, a portion of the upper side of the pile 3 should be installed so as to protrude above the bottom plate 2, it should be able to form a protrusion (31). In addition, the protruding portion 31 should be formed with a connection hole 32 for pin joint or bolt connection.

Thereafter, opposite the pile 3 on the bottom plate 2, a wall 4 made of precast concrete in a substantially rectangular shape is erected so as to have a desired height and a width of, for example, 2-3 m. The wall 4 and the bottom plate 2 can be joined in series by a desired length of the retaining wall.

More specifically, each wall 4 has an eye bolt 43 mounted on one vertical side surface thereof at intervals of about 30 to 50 cm in the height direction, and a groove portion formed in the height side on the opposite side surface thereof. 44 is formed, but in the groove 44, the connecting ring 45 is provided at the same interval as the eye bolt 43. Thus, when joining the wall 4 together with the bottom plate 2 by the desired retaining wall length, the eye bolt 43 of the wall 4 is inserted into the groove 44 of the adjacent side end surface of the other wall 4. Then, the connecting ring 45 therein is fixed to the eye bolts 45, and the grouting process is performed in the groove 44 to reinforce the rigidity of these joints. 2 shows an example of the joint of the walls 4.

In addition, on the rear surface (pile side) of the wall 4, at least one connecting portion 41 for connecting the tension member 5 described later is a width direction of the wall 4 at a predetermined interval in the height direction. In the middle portion of the connecting portion 41, connecting grooves 42a are formed respectively, and the iron cores 42b extend across the connecting grooves 42a into both side walls of the connecting grooves 42a. ) Is provided away from the back surface of the wall 4.

Here, when the wall 4 is erected, the wall 4 is erected so that its bottom can be supported by the support jaw 21 or the support groove on the bottom plate 2 using a crane (not shown). . In this state, at least one tension member 5 is connected between the at least one connecting portion 41 formed on the rear surface of the wall 4 and the protrusion 31 of the pile 3 to support the wall 40. Done.

The tension member 5 may be, for example, in the form of a tube or rod made of stainless steel or a material having excellent corrosion resistance, and one end thereof is connected to an iron core 42b installed at the connection portion 41 of the wall 4. Ring 53 is provided, and the opposite end is provided with a through hole 52 that is connected to the connection hole 32 formed in the projection 31 of the pile 3, so that it can be connected by pins, bolts, nuts, etc. have. In Fig. 2, the connection between the tension member 5 and the wall 4 is shown.

In addition, each tension member 5 is connected between the wall 4 and the pile 3 aligned in a substantially straight line at different angles from each other.

Subsequently, the cap concrete 6 is poured into the protruding portion 31 of the pile 3 to protect it from corrosion.

On the other hand, in order to construct a retaining wall having a predetermined length, the above process is repeated several times in accordance with the length, and the plurality of bottom plates 2 and the plurality of walls 4 are continuously connected sideways as described above. .

Finally, when the assembly of all the precast concrete structures is completed, the rubble is piled up on the bottom plate 2 on the back side of the wall 4 by using rubble, and the compacting process is performed to refill, thereby completing the construction of the retaining wall. do.

As described above, by installing a pile to be coupled to the support base plate and connecting a tension member capable of applying a tensile force between the pile and the wall, while reducing the size of the bottom plate that is usually installed for the construction of the retaining wall, In addition to increasing resistance, the retaining wall thickness can be reduced economically.

In addition, regardless of the presence or absence of obstacles, the retaining wall can be easily and inexpensively constructed in a relatively short construction period.

3 is a view briefly illustrated step by step in order to explain the construction method of the retaining wall according to another embodiment of the present invention, in this embodiment will be described in the field-pouring construction method to be installed directly on the installation target.

First, the excavation by a predetermined depth to the support base to be installed by the method of forming the foundation in civil engineering in general.

Subsequently, the pile 3 is installed into the ground at one side of the support base, which is preferably cast in place, but is not limited to the cast in place if the durability is sufficiently secured, and is made of other materials and other forms. Piles can be used.

On the other hand, in the installation of the pile (3), it should be provided with an allowable length so that a part of the upper side of the pile (3) can be projected onto the bottom plate (2), which will be described later, to form a projection (31). In addition, the protruding portion 31 should be formed with a connection hole 32 for pin joint or bolt connection.

When the installation of the pile 3 is completed, the discarded concrete 1 is poured around the ground.

Next, a formwork (not shown) is installed on the discarded concrete 1 and the bottom plate 2 and the wall 4 are made of concrete, and the wall 4 is piled on the bottom plate 2. It is formed so as to be upright to have a predetermined height opposite the (), for example, the connecting portion 41 such as an eye bolt is arranged in a plurality of rows on the back surface of the wall (4).

More specifically, the wall 4 having a desired height has a plurality of rows in which at least one connecting portion 41 for connecting the tensioning member 5 described later is arranged at predetermined intervals in the height direction. Is arranged, these connection portion 41, the connection hole 42 for pin joint or bolt connection, etc. should be formed respectively.

After the wall 4 and the bottom plate 2 are formed, at least one tension member 5 is connected between the connecting portion 41 on the rear surface of the wall 4 and the protrusion 31 of the pile 3. A tension force is applied between the wall 4 and the bottom plate 2 or the pile 3.

The tension member 5 may be, for example, in the form of a tube or rod made of stainless steel or a material having excellent corrosion resistance, and at both ends thereof, a connection hole 42 and a pile (at each connection portion 41 of the wall 4). 3 is provided with a through hole 52 (see FIG. 1) formed to fit the connecting hole 32 formed in the protrusion 31 of the present invention so as to be connected with a pin, a bolt, a nut, or the like.

In particular, in this embodiment, as shown in Figure 3, the tension member (5) can be in the form of a coated wire to prevent corrosion, both ends are provided with a connecting ring each connecting hole (32, 42) Or wires may be directly inserted into and connected to the respective connecting holes 32 and 42. In addition, the turnbuckle 51 may be interposed in the middle of the tension member 5 made of a wire so as to adjust the tension force.

In addition, each tension member 5 is connected between the wall 4 and the pile 3 aligned in a substantially straight line at different angles from each other.

Subsequently, the cap concrete 6 is poured into the protruding portion 31 of the pile 3 to protect it from corrosion.

Finally, the back surface of the wall 4 is filled with rubble or the like using a rubble, followed by a compaction process to fill the back wall, thereby completing the construction of the retaining wall.

As described above, by installing a pile to be coupled to the support base plate and connecting a tension member capable of applying a tensile force between the pile and the wall, while reducing the size of the bottom plate that is usually installed for the construction of the retaining wall, In addition to increasing resistance, the retaining wall thickness can be reduced economically.

In addition, regardless of the presence or absence of obstacles, the retaining wall can be easily and inexpensively constructed in a relatively short construction period.

The present invention has been illustrated and described with reference to specific embodiments, but the present invention is not limited to the above embodiments and may be variously modified and modified by those skilled in the art without departing from the spirit of the present invention. have.

1 is a view briefly shown step by step to explain a construction method of a retaining wall according to an embodiment of the present invention.

FIG. 2 is a cross-sectional plan view illustrating a connection relationship between the partition and the tension member of the wall illustrated in FIG. 1.

Figure 3 is a simplified view showing step by step to explain the construction of the retaining wall according to another embodiment of the present invention.

Claims (8)

A bottom plate 2 installed on the ground; A pile 3 which is installed in the lower ground of one side of the bottom plate 2, and part of which is coupled to the bottom plate 2 while forming a protrusion 31 protruding above the bottom plate 2; A wall (4) erected opposite the pile (3) on the bottom plate (2); And at least one tension member (5) connected to exert a tensile force between the wall (4) and the protrusion (31) of the pile (3). Pouring digging and discarding concrete (1) into the ground; Placing a prefabricated bottom plate 2 thereon; Installing a pile (3) into the ground through a hole (22) preformed in the bottom plate (2), wherein a portion of the pile (3) is formed to form a protrusion (31) protruding onto the bottom plate; Erecting a prefabricated wall (4) on the bottom plate (2) opposite the pile (3); Connecting at least one tension member (5) between the wall (4) and the protrusion (31) of the pile (3); Placing cap concrete (6) on the protrusion (31) of the pile (3); Repeating the above steps by the length of the retaining wall; And backfilling the bottom plate (2) on the back side of the wall (4). The method of claim 2, wherein in the step of repeating, the bottom plate 2 and the wall 4 are successively connected sideways by the length of the retaining wall, and in one vertical side surface of each wall 4 in the height direction. A plurality of eye bolts 43 are mounted at intervals, and groove portions 44 that are formed long in the height direction are formed on opposite side cross-sections, and inside the groove portions 44 at the same interval as the eye bolts 43. The connecting ring 45 is provided so that the eye bolt 43 of one wall 4 is inserted into the groove 44 of the adjacent side surface of the other wall 4 and the connecting ring 45 therein is inserted into the eye. The retaining wall construction method of the retaining wall, characterized in that the grouting process in the groove portion 44 after being fixed to the bolt (45). The method of claim 2, wherein in the step of connecting the at least one tension member 5, the connecting ring 53 provided at one end of the tension member 5 is formed in the middle of the connection portion 41 of the wall (4) While engaging with the iron core 42b installed in the connecting groove 42a, the through hole 52 formed at the opposite end of the tension member 5 is aligned with the connecting hole 32 formed in the protrusion 31 of the pile 3, A method of constructing a retaining wall, which is connected by pins, bolts, and nuts. Digging in the ground; Installing the pile 3 into the ground; Placing the discarded concrete 1 around the ground on which the pile 3 is installed; On top of which the bottom plate 2 and the wall 4 are made, a part of the pile 3 forms a projection 31 protruding above the bottom plate 2, while the wall 4 is placed on the bottom plate 2. Making an upright position opposite the pile 3; Connecting at least one tension member (5) between the wall (4) and the protrusion (31) of the pile (3); Placing cap concrete (6) on the protrusion (31) of the pile (3); And backfilling the bottom plate (2) on the back side of the wall (4). The method of claim 5, wherein in the step of connecting the at least one tension member 5, the connection hole 42 formed in the connection portion 41 of the wall 4 and the connection formed in the protrusion 31 of the pile 3 A method of constructing a retaining wall, characterized in that to directly connect a tension member (5) made of wire to a ball (32). 7. A method according to claim 6, characterized in that a turnbuckle (51) is further installed in the middle of the tension member (5) so as to adjust the tensile force of the tension member (5). Retaining wall according to claim 2 or 5, characterized in that the tension members (5) are connected at different angles between the wall (4) and the pile (3).

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