KR102434362B1 - Precast prefabricated retaining wall structure and construction method Thereof - Google Patents

Abstract

The precast prefabricated L-type retaining wall structure of the present invention includes a bottom plate portion 120 mounted on the ground 10; The wall portion 110 is coupled to the upper surface of the bottom plate portion 120 formed in a standing structure; Concrete block 200 coupled to the rear surface of the bottom plate portion 120; including, the bottom plate portion 120 and the wall portion 110 are manufactured in a precast method, and the concrete block 200 is of the ground (10) It is mounted on the upper surface of the inclined portion 11 inclined upward upward along the rear from the rear end. In the present invention, a prefabricated retaining wall structure is installed in the structure as shown in FIG. 4 , and the shear key 121 is installed on the lower surface of the bottom plate part 120 to protrude in the downward direction, and the shear key 121 is the front of the bottom plate part 120 and It may be installed as a pair on the rear edge portion as shown in FIG. 6 .
At this time, the shear key may be prefabricated in the field by bolts, or may be formed in a precast method at the factory.

Description

Precast prefabricated retaining wall structure and construction method Thereof

The present invention relates to the field of construction, and more particularly, to a precast prefabricated L-type retaining wall structure and a construction method thereof.

Retaining walls are largely divided into the embankment retaining wall, which secures the structure's bearing capacity by the vertical load of the background sand, and the cut retaining wall, which secures the structure's bearing capacity by anchors installed on the cut slope. is the same The design of the retaining wall examines the safety of the retaining wall structure for overturning, activity, and bearing capacity.

Recently, for rapid construction of retaining walls, a technology for manufacturing retaining walls in a precast method and assembling them on site has been developed. In the case of L-shaped retaining walls, although the advantages of transport are excellent, it is difficult to secure structural safety due to the length limitation of the heel plate (limit of the bottom plate length). It is used in parallel with the method of fixing to the ground.

In order to secure the structural safety of the retaining wall, an inverted T-type retaining wall is used, but there is a problem in that it is difficult to transport it to the site by making it as a precast.

Therefore, even if the installation and manufacture of the retaining wall is shortened by the precast method, there has been a problem that an additional anchor installation process is added at the site, which reduces the speed of construction.

A retaining wall structure of an inverted T-type structure with improved structural safety by securing the length of the bottom plate is being applied, but there is a problem in that it is difficult to transport the retaining wall segment manufactured by the precast method.

The above-described prior art configuration, names, and reference numbers are limited to the prior art and used.

Korean Patent Laid-Open Patent Publication No. 10-2018-0036106 'Large precast retaining wall having steel rods for high tension anchors' relates to a precast retaining wall, comprising: a foundation formed in a length of 1 m to 3 m to support in contact with the floor of the site; a wall coupled perpendicularly to one end of the foundation and formed in a length of 5m to 12m; One end is coupled to the surface facing the soil surface from the wall, and the other end is coupled to the ground on the back surface of the retaining wall and may include a steel pipe for supporting the wall. According to the present invention, the foundation of the retaining wall is formed between 1 m and 3 m, so it can be transported through a freight car after being manufactured in the factory, and the decrease in resistance caused by the shortening of the foundation is solved by connecting a steel pipe to install the retaining wall. It has the effect of making the process smoother and more concise.

Korean Patent Laid-Open Patent No. 10-2014-0061032, 'Precast retaining wall with pre-stress for wall decoration and a method for constructing retaining wall using the same,' is a method in which retaining walls are separately manufactured in a factory with a base plate, an inclined support member, a wall plate, etc. and assembled on site. It can be installed on site in a prefabricated type, so it has excellent constructability. Precast with pre-stress introduced for wall decoration that can increase the rigidity of the retaining wall as a whole and has excellent cohesion because prestress is introduced every time each member is combined to be integrated with each other. We propose a retaining wall and a retaining wall construction method using the same. According to a preferred embodiment of the precast retaining wall in which the prestress is introduced for wall decoration according to the present invention, it is formed in a rectangular plate shape, and a first coupling groove is formed by forming a groove in the upper part biased toward the front, and the rear biased a base plate comprising a second coupling groove configured by forming a groove in the upper portion, and a steel wire fastening hole formed by penetrating from one end to the other end; It has a rectangular plate shape and is formed in the vertical direction to the base plate, is formed to protrude from the front of the central part, and has a protruding support part through which a steel wire fastening hole is passed from one end to the other end. a wall plate to which the brace is seated and coupled to the second coupling groove of the; It is formed of an arm formed in an oblique line, a lower support part configured to protrude from the lower end of the arm, and an upper support part configured to protrude from the upper end of the arm, and the lower support part is fixedly coupled to the first coupling groove of the base plate and is fixedly coupled to the upper support. It consists of; an inclined support member fixedly coupled to the protruding support portion of the additional wall plate.

Republic of Korea Patent Publication No. 10-2018-0103219 'Precast prefabricated retaining wall with buttresses' is a buttress-type retaining wall of a precast assembly method, in which a plurality of structures having a buttress function are mounted on a precast panel-type base plate without additional support. A structure that connects and installs the wall part so that it can be assembled first, and further, the wall part can be easily assembled on the front side of the sub-wall, and can support a large moment in fixing the precast wall part to the upper surface of the base plate It provides a precast prefabricated retaining wall having a buttress having a

Republic of Korea Patent Publication No. 10-2018-0036106 Republic of Korea Patent Publication No. 10-2014-0061032 Republic of Korea Patent Publication No. 10-2018-0103219

The present invention provides a precast prefabricated L-type retaining wall structure that shortens the installation time of the retaining wall structure and secures structural safety, and a construction method thereof.

In order to solve the above problems, the precast prefabricated L-shaped retaining wall structure of the present invention includes a bottom plate portion 120 mounted on the ground 10; a wall portion 110 coupled to the upper surface of the bottom plate portion 120 to form a standing structure; Concrete block 200 coupled to the rear surface of the base plate 120; includes, wherein the base plate part 120 and the wall part 110 are manufactured in a precast method, and the concrete block 200 is the It is mounted on the upper surface of the inclined portion 11 inclined upward upward along the rear from the rear end of the ground 10 .

The bottom plate part 120 and the concrete block 200 are preferably coupled to each other in a hinge structure so that the concrete block 200 rotates in the vertical direction.

A shear key 121 is installed on the lower surface of the bottom plate part 120 to protrude downward, and the shear key 121 is preferably installed in a pair on the front and rear edges of the bottom plate part 120 .

A plurality of grooves 122 spaced apart from each other along the lateral direction, formed in the front from the rear surface of the bottom plate portion (120); a protrusion 210 protruding forward from the front of the concrete block 200 to correspond to the groove 122; It is preferable to include; a coupling pin 300 having a bar structure coupled to pass through the groove portion 122 and the protrusion portion 210 in a lateral direction.

The bottom plate part 120 and the concrete block 200 are mutually coupled by a hinge coupling member 400 , and the hinge coupling member 400 is a bottom plate part coupling part 410 coupled to the rear surface of the bottom plate part 120 . ) and a block coupling portion 420 coupled to the front surface of the concrete block 200, wherein the block coupling portion 420 includes a body portion 421 coupled to the front surface of the concrete block 200; a main body anchor 423 coupled to the rear surface of the main body 421 so as to be embedded in the concrete block 200; The body part through-hole 422 formed on the side of the main body part 421; includes, and the bottom plate part coupling part 410 is in close contact with the rear surface of the bottom plate part 120; a bottom plate part coupling plate 411; a front protrusion plate 413 and a rear protrusion plate 412 coupled to the front and rear edges of the bottom plate coupling plate 411 and protruding backward; a coupling plate anchor 416 protruding forward from the front surface of the bottom plate part coupling plate 411 so as to be embedded in the bottom plate part 120; Protrusion plate through-holes 415 respectively formed in the lateral direction in the front protrusion plate 413 and the rear protrusion plate 412; It is located in the space portion 414 formed by the front protrusion plate 413 and the rear protrusion plate 412, and has a rod structure in common in the body part through-hole 422 and the protruding plate through-hole 415. It is preferable that the coupling rods 430 are fitted and coupled to each other.

The bottom plate part coupling part 410 and the block coupling part 420 are pre-coupled when the bottom plate part 120 and the concrete block 200 are manufactured, and the bottom plate part 120 when the bottom plate part 120 is manufactured. It is preferable that the coupling plate anchor 416 is bound to the reinforcing bar reinforced inside the , and the main body anchor 423 is bound to the reinforcing bar reinforced inside the concrete block 200 .

It is preferable that the shear key 121 is formed by pouring concrete directly in the field, or formed in advance by a precast method when the bottom plate part 120 is manufactured.

It is preferable that a plurality of protrusions 220 protruding downward are formed on the lower surface of the concrete block 200 .

The lower surface of the protrusion 220 is preferably installed in a downwardly inclined structure along the rear.

A precast prefabricated L-type retaining wall structure construction method according to an embodiment of the present invention comprises: a structure manufacturing step of manufacturing the base plate part 120, the wall part 110, and the concrete block 200 in a factory; a carrying-in step of transporting the bottom plate part 120, the wall part 110, and the concrete block 200 to the site; a retaining wall installation step of installing the bottom plate part 120 and the wall part 110; a block installation step of installing the concrete block 200 to be hinged to the bottom plate part 120; and a soil filling step of filling the backfill soil in the rear region of the wall part 110 .

The present invention uses a precast concrete block instead of using the most commonly used anchor (such as an earth anchor) in order to secure the safety of the precast prefabricated L-type retaining wall structure. Due to this, it is possible to minimize the construction time of the retaining wall structure while improving the safety of the retaining wall structure.

1 is a representative view of Korean Patent Publication No. 10-2018-0036106.
2 is a representative view of Korean Patent Publication No. 10-2014-0061032.
3 is a representative view of Korean Patent Publication No. 10-2018-0103219.
4 is a side view of a retaining wall structure according to an embodiment of the present invention.
5 is a view in which a wall part and a bottom plate part are integrally manufactured according to an embodiment of the present invention;
6 is a view showing that the shear key is coupled to the bottom plate according to an embodiment of the present invention.
7 is a view showing a coupling structure of a base plate and a concrete block according to an embodiment of the present invention.
8 is a view showing the protrusions and grooves formed in the base plate and the concrete block according to an embodiment of the present invention.
9 is a side view in which the bottom plate part and the concrete block are combined according to an embodiment of the present invention.
10 is an enlarged view of the combination of the base plate and the concrete block according to an embodiment of the present invention.
11 is a view showing a hinge coupling member according to an embodiment of the present invention.
12 is a view showing a block coupling part and a bottom plate part coupling part according to an embodiment of the present invention.
13 is a perspective view of a block coupling part and a bottom plate coupling part according to an embodiment of the present invention.
14 is a perspective view illustrating a block coupling unit and a bottom plate coupling unit coupled to each other according to an embodiment of the present invention;
15 is a perspective view showing the separation of the block coupling part and the bottom plate coupling part according to an embodiment of the present invention.
Figure 16 is a side view showing that the block coupling portion and the bottom plate portion coupled portion according to an embodiment of the present invention.
17 is a perspective view of a hinge coupling member according to another embodiment of the present invention.
18 is a plan view of a block coupling part and a bottom plate coupling part according to another embodiment of the present invention.
19 is a view showing that the block coupling part and the bottom plate coupling part are coupled to the bottom plate part and the concrete block, respectively, and are coupled to each other according to another embodiment of the present invention.
20 is a view showing a protrusion according to an embodiment of the present invention.
21 is a view showing that the concrete block according to an embodiment of the present invention is installed on a slope.
22 is a view showing that the block coupling part and the bottom plate coupling part are coupled to each other by a coupling rod according to another embodiment of the present invention.
23 is a view showing that the soil is laminated on the back surface of a general retaining wall.
24 is a view showing that the soil is laminated on the back surface of the precast prefabricated retaining wall structure according to an embodiment of the present invention.
25 is a view showing the conduction resistance load of the precast prefabricated retaining wall structure according to an embodiment of the present invention.
26 is a view showing that the concrete block according to another embodiment of the present invention is fixedly coupled to the bottom plate
27 is a view showing that the concrete block according to another embodiment of the present invention is fixedly coupled to the bottom plate
28 is a view showing that the precast prefabricated retaining wall structure according to an embodiment of the present invention is installed on the slope
29 is a view showing that a precast prefabricated retaining wall structure is transported according to an embodiment of the present invention;
30 is a view showing that a concrete block according to another embodiment of the present invention is fixedly coupled to the bottom plate by a steel bar;
31 is a plan view showing that a concrete block according to another embodiment of the present invention is fixedly coupled to a bottom plate by a steel bar;
32 is a diagram according to another embodiment of the present invention;
33 is a diagram according to another embodiment of the present invention;
34 is a diagram according to another embodiment of the present invention;

An embodiment of the precast prefabricated retaining wall structure according to the present invention and its construction method will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, identical or corresponding components are given the same reference numbers and a redundant description thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first and second not.

In addition, in the contact relationship between each component, the term "coupling" does not mean only when there is direct physical contact between each component, but another component is interposed between each component, so that the component is in the other component. It should be used as a concept that encompasses even the cases in which each is in contact.

Hereinafter, the precast prefabricated retaining wall structure and its construction method will be described in detail with reference to the accompanying drawings.

The precast prefabricated retaining wall structure of the present invention includes a bottom plate portion 120 mounted on the ground 10; a wall unit 110 coupled to the upper surface of the bottom plate unit 120 to form a standing structure; Concrete block 200 coupled to the rear surface of the bottom plate portion 120; including, but the bottom plate portion 120 and the wall portion 110 is manufactured by a precast method, the concrete block 200 is the ground (10) It is mounted on the upper surface of the inclined portion 11 inclined upward upward along the rear from the rear end.

The bottom plate part 120 and the concrete block 200 are preferably coupled to each other in a hinge structure so that the concrete block 200 rotates in the vertical direction.

In the present invention, a prefabricated retaining wall structure is installed with the structure as shown in FIG. 4 , and the shear key 121 is installed on the lower surface of the bottom plate part 120 to protrude in the downward direction, and the shear key 121 is the front of the bottom plate part 120 and It may be installed as a pair on the rear edge portion as shown in FIG. 6 . At this time, the shear key may be prefabricated in the field by bolts, or may be formed in a precast method at the factory. More specifically, the shear key 121 is preferably manufactured to have a slope (inside slope) as shown in FIG.

As shown in FIG. 6, the pair of shear keys 121 are installed to have an inner inclination of 15 to 45° to improve the soil restraint effect and thereby improve the bearing capacity.

The shear key 121 of the present invention is installed to increase the bearing capacity while reducing the length of the bottom plate.

33 and 34 show the coupling structure of the bottom plate part 120 and the concrete block 200 according to an embodiment of the present invention.

The bottom plate part 120 and the concrete block 200 may be coupled to each other by a steel bar. At this time, the steel bar is fixed at the rear edge of the bottom plate 120 and the blockout formed at the front edge of the concrete block 200 .

The retaining wall composed of the wall part 110 and the bottom plate part 120 is coupled to the concrete block 200 in a hinge structure. When the concrete block 200 is installed, as shown in FIGS. 25 and 26 , it is possible to obtain an effect of applying a load corresponding to the weight of the soil backfilled on the upper side of the concrete block 200 to the rear edge of the bottom plate.

That is, the load P2 capable of preventing the retaining wall from falling can be introduced into the retaining wall.

The combination of the hinge structure connecting the bottom plate part and the concrete block is spaced apart from each other along the lateral direction, and a plurality of groove parts 122 formed in the front from the rear surface of the bottom plate part 120; a protrusion 210 formed to protrude forward from the front of the concrete block 200 to correspond to the groove 122; It may be coupled to a structure including; a coupling pin 300 of a bar structure coupled to pass through the groove 122 and the protrusion 210 in common along the lateral direction.

As another embodiment in which the bottom plate part and the concrete block are coupled, the bottom plate part 120 and the concrete block 200 are mutually coupled by a hinge coupling member 400, and the hinge coupling member 400 is the bottom plate part 120. It includes a bottom plate coupling part 410 coupled to the rear surface of the block coupling part 420 coupled to the front surface of the concrete block 200, and the block coupling part 420 is a body coupled to the front surface of the concrete block 200. part 421; The body part anchor 423 coupled to the rear surface of the body part 421 so as to be embedded in the concrete block 200; The body part through-hole 422 formed in the side of the body part 421; includes, and the bottom plate part coupling part 410 is in close contact with the rear surface of the bottom plate part 120, the bottom plate part coupling plate 411; The front protrusion plate 413 and the rear protrusion plate 412 are coupled to the front and rear edges of the bottom plate portion coupling plate 411 and protrude rearward; a coupling plate anchor 416 protruding forward from the front of the bottom plate part coupling plate 411 so as to be embedded in the bottom plate part 120; Protrusion plate through-holes 415 respectively formed along the lateral direction in the front protrusion plate 413 and the rear protrusion plate 412; (413), located in the space portion 414 formed by the rear protrusion plate 412, the body portion through-hole 422 and the protruding plate through-hole 415 in common with the rod structure coupling rod 430 is fitted It is preferable to be coupled to each other.

In this case, the body portion 421 may have a structure similar in shape to the bottom plate coupling portion 410 as shown in FIG. 16 , or may have a structure similar to that of FIG. 18 .

The bottom plate coupling part 410 and the block coupling part 420 are pre-coupled when the bottom plate part 120 and the concrete block 200 are manufactured, and the reinforcing bars are reinforced inside the bottom plate part 120 when the bottom plate part 120 is manufactured. The coupling plate anchor 416 is bound to, and it is preferable that the main body anchor 423 is bound to the reinforcing bar reinforced inside the concrete block 200 .

In this case, the bottom plate coupling part 410 and the block coupling part 420 coupled to the reinforcing bar have an end shape of a ring structure or a ring structure as shown in FIG. A through hole is formed so that the reinforcing bar reinforced inside the plate part 120 passes through, and a through hole through which the reinforcing bar reinforced inside the concrete block 200 penetrates may be formed in the rear of the main body anchor 423 .

A plurality of protrusions 220 protruding downward may be formed on the lower surface of the concrete block 200 as shown in FIG. 21 , and the lower surface of the protrusions 220 is preferably installed in a downwardly inclined structure along the rear.

The shape of the protrusion 220 prevents the concrete block 200 from being pushed on the inclined surface, and improves the fixing force.

The method for constructing a precast prefabricated retaining wall structure according to an embodiment of the present invention includes: a structure manufacturing step of manufacturing the base plate part 120 , the wall part 110 , and the concrete block 200 in a factory; A carrying-in step of transporting the bottom plate part 120, the wall part 110, and the concrete block 200 to the site; Retaining wall installation step of installing the bottom plate portion 120 and the wall portion 110; A block installation step of installing the concrete block 200 so as to be hinged to the bottom plate portion 120; It includes; a soil filling step of filling the backfill soil in the rear region of the wall portion (110).

10: ground 11: slope part
110: wall part 120: bottom plate part
121: shear key 122: groove
200: concrete block 210: stone
220: protrusion 300: coupling pin
400: hinge coupling member 410: bottom plate coupling part
411: bottom plate coupling plate 412: rear projecting plate
413: front protrusion plate 414: space part
415: protrusion plate through hole 416: coupling plate anchor
420: block coupling part 421: body part
422: through hole 423: main body anchor part
430: coupling rod

Claims (10)

a bottom plate portion 120 mounted on the ground 10;
a wall portion 110 coupled to the upper surface of the bottom plate portion 120 to form a standing structure;
Containing a concrete block (200) coupled to the rear surface of the bottom plate (120);
The bottom plate part 120 and the wall part 110 are manufactured by a precast method,
The concrete block 200 is placed on the upper surface of the inclined portion 11 inclined upward upward along the rear from the rear end of the ground 10,
The bottom plate part 120 and the concrete block 200 are coupled to each other in a hinge structure so that the concrete block 200 rotates in the vertical direction,
On the lower surface of the bottom plate part 120, the shear key 121 is installed to protrude downward,
The shear key 121 is installed in a pair on the front and rear edges of the bottom plate 120,
The bottom plate part 120 and the concrete block 200 are coupled to each other by a hinge coupling member 400 and,
The hinge coupling member 400 includes a bottom plate coupling part 410 coupled to the rear surface of the bottom plate part 120 and a block coupling part 420 coupled to the front surface of the concrete block 200,
The block coupling part 420 is
a body portion 421 coupled to the front surface of the concrete block 200;
a main body anchor 423 coupled to the rear surface of the main body 421 so as to be embedded in the concrete block 200;
and a body part through-hole 422 formed on the side of the body part 421;
The bottom plate coupling part 410 is
a bottom plate part coupling plate 411 in close contact with the rear surface of the bottom plate part 120;
a front protrusion plate 413 and a rear protrusion plate 412 coupled to the front and rear edges of the bottom plate coupling plate 411 and protruding backward;
a coupling plate anchor 416 protruding forward from the front surface of the bottom plate part coupling plate 411 so as to be embedded in the bottom plate part 120;
In addition to including; the front protrusion plate 413 and the rear protrusion plate 412 respectively formed in the lateral direction along the protrusion plate through-holes 415;
The body portion 421 is located in the space portion 414 formed by the bottom plate portion coupling plate 411, the front projecting plate 413, and the rear projecting plate 412,
A coupling rod 430 having a rod structure is commonly fitted to the body portion through-hole 422 and the protruding plate through-hole 415 and is coupled to each other,
The bottom plate part coupling part 410 and the block coupling part 420 are pre-coupled when the bottom plate part 120 and the concrete block 200 are manufactured,
When the bottom plate part 120 is manufactured, the coupling plate anchor 416 is bound to the reinforcing bar reinforced inside the bottom plate part 120,
so that the main body anchor 423 is bound to the reinforcing bar reinforced inside the concrete block 200,
A through hole is formed in front of the coupling plate anchor 416 so that the reinforcing bar reinforced inside the bottom plate 120 penetrates, and at the rear of the main body anchor 423, the inside of the concrete block 200 A through hole through which the reinforcing bar is provided is formed,
The shear key 121 is
It is formed by pouring concrete directly at the site, or it is formed in advance by a precast method when the base plate part 120 is manufactured,
A plurality of protrusions 220 protruding downward are formed on the lower surface of the concrete block 200,
A precast prefabricated L-type retaining wall structure, characterized in that the lower surface of the protrusion 220 is installed in a downwardly inclined structure along the rear.
delete delete delete delete delete delete delete delete As the precast prefabricated L-shaped retaining wall structure construction method of claim 1,
a structure manufacturing step of manufacturing the base plate part 120, the wall part 110, and the concrete block 200 in a factory;
a carrying-in step of transporting the base plate part 120, the wall part 110, and the concrete block 200 to the site;
a retaining wall installation step of installing the bottom plate part 120 and the wall part 110;
a block installation step of installing the concrete block 200 to be hinged to the bottom plate part 120;
Retaining wall structure construction method comprising a; soil filling step of filling the backfill soil in the rear region of the wall portion (110).

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