KR101282770B1 - Precast straight wall foundation and construction method therefor - Google Patents

Abstract

PURPOSE: A precast wall type foundation and a construction method thereof are provided to minimize excavation space to construct a precast foundation by minimizing a size of a cross section of the precast foundation. CONSTITUTION: A precast wall type foundation comprises a precast foundation upper part (110), a precast foundation lower part (120), a foundation pile (200), and a grout material (400). A horizontal cross section of the precast foundation upper part is formed as a T-shaped cross section. The precast foundation lower part forms a longitudinal direction connection hole (121) so that the bottom surface of a block body. A head is inserted into the longitudinal direction connection hole of the foundation pile. The grout material is inserted into the longitudinal direction connection hole in order to integrate the foundation pile and the precast foundation lower part. [Reference numerals] (AA) Longitudinal direction

Description

Precast straight wall foundation and construction method {PRECAST STRAIGHT WALL FOUNDATION AND CONSTRUCTION METHOD THEREFOR}

The present invention relates to a precast straight wall foundation and its construction method. More specifically, the present invention relates to a precast straight wall foundation and its construction method, which fabricate a foundation by a precast method and transmit a load transmitted to the foundation to a ground by a pile (pile).

1A shows a construction cross section of a conventional sound barrier wall foundation 14.

In this case, it can be seen that the soundproof wall foundation 14 is formed of a pre-catalyst reinforced concrete structure formed to form an inner empty space for accommodating the head exposed to the top of the ground of the micropile 12 previously constructed in the ground.

Therefore, the grouting material (G, injection material) is filled in the empty space has a function to be transmitted to the ground via the micro pile 12, the external force (such as sound wall weight weight) acting on the sound barrier wall 14.

The sound insulation wall has a large cross-sectional size of the sound insulation wall foundation 14 because the installation height is increased the size of the external force is very large.

However, in this case, the amount of excavation of the ground increases and the size of the soundproof wall foundation 14 produced by precast is also large, which greatly affects the production, transportation and construction.

Accordingly, it can be seen that the load transfer system is adopted so that the micropile 12 shares the load acting on the soundproof wall to minimize the cross-sectional size of the soundproof wall foundation 14.

However, in the case of the load transfer method, when the crack occurs in the grouting material (G), which occupies most of the interior of the soundproof wall foundation (14), it can be seen that defects are inevitable. Therefore, quality control of the grouting material is very important, but the soundproofing wall foundation (14) Since the grouting material is formed there is a problem that quality control is not easy.

1B is a perspective view of another conventional sound barrier wall foundation 20.

The sound barrier wall base 20 is formed so that the shear key 26 is formed on both sides for the connection of the other sound barrier wall base 20, and the anchor bolt 21 for the sound barrier wall strut is formed on the upper surface.

The soundproof wall base 20 also has a receiving groove 23 formed therein, such that the pile is not shown in the receiving groove 23 is inserted.

In this case, it can be seen that the grouting injection port 27 and the stirring port 25 communicate with each other from the upper surface of the soundproof wall foundation 20 to allow the grouting material to be injected into the accommodation groove 23.

At this time, the mall receiving groove 23 is not enough to occupy a large space can be seen that there is no big problem in the quality control of the grouting material.

This has the advantage that the grouting material is not injected much and the load can be transferred from the soundproof wall foundation 20 to the pile. There was a limit that was difficult to verify.

In addition, there is a problem that the pile is not inserted into the receiving groove 23 due to the construction error of the pile, there is a problem that the sound barrier wall base 20 is very limited to its use.

Figure 1c shows a sound insulation wall foundation cross-sectional view in particular installed on the side of the road. That is, the foundation of the soundproof wall is to dig the lateral ground in order to construct the base plate 30 and the wall 40 and to install the earthwork temporary facility 50 to form a working space first.

However, the digging work to create a work space on the side of the road is often required to control the road, and when installing the temporary block 50, anchor 60 should be installed on the lower side of the road, but it is difficult to install the anchor on site conditions. In many cases, the foundation construction by the foundation 30 and the wall 40 was difficult.

Therefore, the present invention can minimize the excavation space, so that the precast foundation is made of a straight wall type so that the earthenware is not required, so that a portion that occupies a large amount of trench space is not formed, such as the bottom plate of the precast foundation, and the precast foundation The present invention aims to solve the provision of a precast foundation which can minimize the self-weight and further ensure the integrity in the longitudinal direction, while more effectively securing the workability of the construction of the precast foundation.

In order to achieve the above technical object

First, the foundation is a straight wall type, which is manufactured in a precast manner. The upper part of the precast foundation is formed to have a T-shaped cross section when cut in the longitudinal section (a-a, cut in the horizontal plane).

Accordingly, the upper part of the precast foundation is formed as an upper vertical column portion extending downward in the center of the upper vertical wall portion and the front surface of the upper vertical wall portion.

Furthermore, the lower part of the precast foundation is formed in a block shape, but the lower portion of the precast foundation forms a longitudinal communication hole so that the upper portion of the foundation pile can be easily inserted.

Second, the precast foundation of the present invention is to install the foundation file first, and after the top of the foundation file to clean the head, the longitudinal communication hole of the precast foundation is inserted into the foundation file and installed. In construction, it is often not set to the correct position.

Accordingly, the present invention is to act as a longitudinal communication hole to form a longitudinal communication hole in the lower portion of the precast base to ensure the longitudinal integrity of the precast foundation. Accordingly, the longitudinal communication hole serves as a space in which the head of the foundation pile is inserted, and an injection material such as mortar is injected to connect the precast foundations in the longitudinal direction to integrate them.

Third, for example, a soundproof wall support is installed on an upper surface of the upper vertical pillar of the precast foundation, and a soundproof plate is installed between the soundproof wall support and the support to provide a foundation for various types of structures.

To this end,

A precast base portion having a horizontal cross section formed into a T-shaped cross section;

A block body integrally formed at a lower portion of the upper part of the precast foundation, the lower part of the precast foundation having a hollow block body having a longitudinal communication hole extending in a longitudinal direction to open the bottom of the block body;

A basic pile into which the head is inserted into the longitudinal communication hole; And

It provides a precast straight wall foundation and its construction method comprising a; injection material injected into the longitudinal communication hole so that the foundation pile and the precast foundation lower portion can be integrated with each other.

According to the present invention, the load transmitted to the upper part of the precast foundation is transmitted to the upper vertical wall portion and the upper vertical pillar portion having a thick cross-sectional thickness, and the load transmitted to the upper part of the precast foundation is a precast foundation having a longitudinal communication hole. By being distributed in the lower part of the to be delivered to the final foundation pile to minimize the precast foundation cross-sectional size it is also possible to minimize the trench space for precast foundation construction.

In addition, in the installation of the precast foundation into the foundation pile after the construction of the foundation pile, even if the formation position of the pile groove for the foundation pile insertion and the foundation pile setting position do not coincide with each other due to the construction error, the longitudinal communication hole is such a construction error. Can be sufficiently absorbed can greatly enhance the workability and workability of the precast foundation.

In addition, the longitudinal communication hole serves to reduce the self-weight of the lower part of the precast foundation, but also serves to integrate the precast foundation in the longitudinal direction by the injected filler, thereby ensuring the unequal settlement, continuity, and watertightness of the precast foundation. It is possible to provide a precast basis which is very advantageous for the.

1A and 1B are a perspective view of a conventional sound barrier wall foundation,
2 is an assembled perspective view of a straight wall foundation of the present invention;
Figure 3a, 3b, 3c and 3d is a flow chart of the precast straight wall foundation and construction method of the present invention,
4 is another constructional perspective view of the precast straight wall foundation of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

[Precast Straight Wall Foundation (100)]

2 is a perspective view of the construction of the precast straight wall foundation 100 of the present invention.

First, the precast straight wall foundation 100 is constructed in such a way that it is continuously connected to each other in the longitudinal direction while being freely installed on the ground.

Accordingly, each precast straight wall foundation 100 is manufactured at the factory and brought into the site, and then set to lift on a pre-destructed ground by using a crane or the like.

Therefore, each precast straight wall foundation 100 should have a minimum self-weight but no problem in supporting the structure, such as a sound barrier foundation.

To this end, in order to reduce the weight of the present invention, the upper part of the precast straight wall foundation 100 is formed in a T-shaped cross section, and the lower part is formed integrally with the upper part, but is formed as a lower part of a block body in which a longitudinal communication hole is formed. .

That is, as shown in FIG. 2, the upper part 110 of the precast direct wall type foundation 100 is formed of the upper vertical wall part 111 and the upper vertical column part 112 extending downward from the front center of the upper vertical wall part. The vertical wall portion and the upper vertical column portion are such that the longitudinal horizontal section is formed into a T-shaped cross section.

At this time, the cross-sectional thickness T2 by the upper vertical wall portion 111 and the upper vertical pillar portion 112 becomes larger than the cross-sectional thickness T1 of only the upper vertical wall portion, so that the adjacent precast straight wall foundation 100 is adjacent. When the upper vertical wall of the unit is integrated with each other, it can act as a point for the working load, which is very effective for the load resistance effect.

That is, the upper vertical pillars 112 adjacent to each other act as a beam member formed to support the upper vertical wall portions integrated with each other on the rear surface, so that the upper vertical wall body with respect to the load acting on the front part of the precast straight wall foundation 100 is applied. The upper vertical pillars 112 act as points of the upper vertical wall portions in that the portions resist each other integrally.

In addition, the upper vertical wall portion 111 and the upper vertical column 112, the upper surface of the steel frame member 510, such as H-shaped struts for soundproof walls, as shown in Figures 2 and 5c is installed between the soundproof panel 520 ) Is installed so that the loads of the respective self and wind loads are transferred to the upper part of the precast straight wall foundation 100.

That is, the portion where the load transfer is concentrated is formed as a portion having a large cross-sectional thickness so that the upper vertical wall portion 111 and the upper vertical pillar portion 112 are dispersed in the lower portion of the precast straight wall foundation 100. will be.

Furthermore, the lower part 120 of the precast straight wall foundation 100 is integrally formed with the upper part 110 of the precast straight wall foundation 100, and is formed in a block shape in which a longitudinal communication hole 121 is formed.

The longitudinal communication hole 121 is an empty space into which the head of the foundation pile 200 to be described later is inserted. Such a space is formed in accordance with the head size of the foundation pile as much as possible, since the mortar is injected into the space. The goal is to minimize the injection of mortar.

However, since the foundation pile 200 is installed in such a way as to form a drilling hole in the ground and insert the H-file, the construction often fails in the actual planned location.

Therefore, if the construction can not be installed in the desired location, the spacing of each foundation file is also different, and the conventional pile groove (see FIG. 1B), which is set in advance in consideration of such spacing, does not match the actual foundation file installation position due to the construction error, thereby causing difficulties in the field. The matter was very large.

Accordingly, the present invention is to form a conventional pile groove in the longitudinal communication hole 121 to facilitate the insertion of the foundation pile into the longitudinal communication hole 121 even if there is a construction error.

That is, the longitudinal communication hole 121 is formed to extend in the longitudinal direction so that the bottom of the lower part of the precast base is opened.

The longitudinal communication holes 121 may be formed as one longitudinal communication hole penetrating the lower part 120 of the precast straight wall foundation 100 in the longitudinal direction, and two to allow the foundation pile to be inserted in the longitudinal direction. It does not matter even if it forms a space | interval.

The present invention will be described based on the case in which the longitudinal communication holes 121 are formed of two partitioned walls 123, as shown in FIG.

Only such longitudinal communication holes 121 are exposed to both sides A of the lower part 120 of the precast straight wall foundation 100 so that the longitudinal communication holes 121 beneath the adjacent precast straight wall foundation 100 are adjacent. ) To communicate with each other.

In this case, as shown in FIG. 3c, when the communication hole connecting member 300, such as connecting rebar, is installed at the lower connection portion of the precast direct wall type foundation 100, and the injection material 400, such as mortar, is injected using the injection hole 122, The injection material 400 at the connection portion serves to integrate the lower parts of the precast straight wall foundation 100.

Accordingly, the precast straight wall foundation 100 of the present invention is integrated with each other in the longitudinal direction to effectively prevent the watertightness at the connecting portion, the uneven settlement of each precast straight wall foundation 100, and the like.

In the lower part 200 of the precast straight wall foundation 100, the injection hole 122 extending to the longitudinal communication hole 121 is exposed to the outside of the precast straight wall foundation 100 so that Injection is made possible from the outside.

[Precast straight wall foundation 100 construction method of the present invention]

3A, 3B, 3C, and 3D illustrate the construction method of the precast straight wall foundation 100 according to the present invention in order.

First, the precast straight wall foundation 100 is pre-fabricated in the factory to be installed on the site to be installed, but the precast straight wall foundation 100 must be installed on the ground based on the ground (G) as shown in Figure 3a The file 200 will be constructed.

The basic file 200 may use various types of files such as steel pipe files, H files, PC files.

In the present invention, a description will be given based on the case where the H file is used as the base file 200.

Therefore, the ground (G) is first excavated, which is precast straight wall foundation 100 of the present invention even when it is difficult to secure space such as the side of the road by constructing a minimal space for constructing the precast straight wall foundation 100. ) To be able to construct.

In this way, a separate temporary earthenware may not be installed on the slope formed while digging, thereby enabling a more efficient and economical precast straight wall foundation 100 construction.

Accordingly, when the trench is completed, the ground G on which the precast straight wall foundation 100 is to be installed is arranged in a flat manner, and the drilling hole H, into which the foundation pile 200 can be inserted, is first constructed by an excavator.

The base pile 200 is inserted into the drilling hole H so that the foundation pile 200 is reliably supported on the ground through head driving, and the head is cut to be formed at the same height from the ground.

In FIG. 3A, two foundation piles 200 are installed by adjusting longitudinal spacing so that the foundation piles 200 may be installed on the precast straight wall foundation 100 of the present invention.

At this time, it can be seen that the longitudinal communication hole 121 formed in the precast straight wall foundation 100 as shown in FIG.

That is, since the longitudinal communication hole 121 is divided into thin partitions only, even if the construction position of the foundation pile 200 is different from the planned construction due to the construction error, the longitudinal communication hole 121 sufficiently satisfies the construction error. Because it can absorb, there is no problem in construction.

In addition, the longitudinal communication hole 121 can reduce the weight of the precast straight wall foundation 100 by forming the lower portion 120 of the precast straight wall foundation 100 in the form of a hollow block body. It is a very advantageous condition for fabrication, transportation and construction of the foundation 100.

Thus, the precast straight wall foundation 100 is installed such that the foundation pile 200 constructed as shown in FIG. 3B is inserted into the lower portion, but a plurality of the foundations are continuously installed so as to be in contact with each other in the longitudinal direction.

Of course, the foundation pile must be installed in advance in accordance with the number of precast straight wall foundation 100 installed.

Next, as shown in FIG. 3c, an injection material 400 such as mortar or bare concrete is injected into the longitudinal through hole 121 under the precast straight wall foundation 100 using the injection material hole 122.

At this time, the communication portion of the longitudinal communication hole 121 formed in the lower portion of the precast straight wall foundation 100 is precast by injecting the injection material in a state in which the communication hole connecting member 300, such as rebar, is set in advance, and the precast material adjacent to the precast. The straight wall base 100 is to be integrated with each other in the longitudinal direction of each other.

The precast straight wall foundation 100 of the present invention by the injection material 400 is

First, the foundation pile inserted into the longitudinal communication hole and the precast straight wall foundation 100 are integrated with each other so that the load transmitted to the precast straight wall foundation 100 is sheared to the ground through the foundation pile.

Second, the injection material can integrate the precast straight wall foundation 100 installed so as to be adjacent to each other in the longitudinal direction with each other to secure longitudinal integrity of the precast straight wall foundation 100, prevent inequality, precast straight wall foundation It is to ensure the watertightness of the longitudinal connecting portion of (100).

Third, the longitudinal communication hole in the lower portion of the precast straight wall foundation 100 is filled to serve to structurally reinforce the lower portion of the precast straight wall foundation 100 in the form of a hollow block.

Next, as shown in FIG. 3D, an H file is installed on the upper surface of the upper vertical pillar portion 112 formed on the upper portion 110 of the precast straight wall foundation 100 as a soundproof wall support 510 (structure support). The soundproof panel 520 is installed between the soundproof wall struts 510 so that the precast straight wall foundation 100 functions as a soundproof wall foundation.

Next, the precast straight wall foundation 100 is finished to fill the periphery of the final precast straight wall foundation 100.

In this case, as shown in FIG. 4, when the precast straight wall foundation 100 is installed, impact or breakage may occur when the impact is applied due to a collision light after construction, the precast straight wall foundation 100 may be formed in advance on the front lower or upper part of the precast straight wall foundation 100. Stable installation and maintenance of the precast straight wall foundation 100 is achieved by extending the connecting member 410 such as a wire to the front and connecting the end to the head of the fixing member 420 such as an earth anchor, which is pre-installed on the slope. It is desirable to make this possible.

Thus, by the precast straight wall foundation 100 according to the present invention, there is almost no bottom plate construction that occupies a large amount of trench space like the retaining wall structure. It is very advantageous in that it is efficient because it can effectively distribute the load transmitted to the precast straight wall foundation 100 to the ground,

Water-tightness can be secured in the longitudinal connection of the plurality of precast straight wall foundations 100, and since they are integrated in the longitudinal direction, it is possible to minimize the occurrence of defects due to uneven settlement.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: precast straight wall foundation
110: precast straight wall foundation top
111: upper vertical wall portion
112: upper vertical column
120: Precast straight wall foundation lower part
121: longitudinal communication hole
122: injection hole
200: foundation file
300: communication hole connecting member
400: injection material

Claims (5)

A precast foundation 110 having a horizontal cross section formed into a T-shaped cross section;
Precast in the form of a hollow block body formed with a longitudinal communication hole 121 is formed integrally formed in the lower portion of the upper portion of the precast base 110 extending in the longitudinal direction so that the bottom surface of the block body is opened Foundation lower portion 120;
A base pile 200 into which a head is inserted into the longitudinal communication hole; And
Precast straight wall foundation comprising a; injection material (400) injected into the longitudinal communication hole so that the foundation pile and the precast base lower portion can be integrated with each other. The method of claim 1,
The precast base top 110 is formed by the upper vertical wall portion 111 and the upper vertical pillar portion 112 extending downward in the front center portion of the upper vertical wall portion by the upper vertical wall portion and the upper vertical pillar portion. Longitudinal horizontal section is formed into T-shaped section,
The longitudinal through-hole 121 is a precast straight wall foundation, characterized in that formed in the longitudinal direction of two or more longitudinal communication holes divided into one through-hole or partition 123. The method of claim 1,
The precast straight wall foundation 100 is installed to be in contact with each other in the longitudinal direction so that the longitudinal through-holes 121 communicate with each other, the communication hole connecting member 300 is disposed in the communicated longitudinal communication hole is injected material ( Precast straight wall foundation, characterized in that by means of 400) the precast straight wall foundations are longitudinally integrated with each other. Dig the ground and construct the foundation pile 200 to clean up the tofu,
A precast foundation 110 having a horizontal cross section formed into a T-shaped cross section; And a block body integrally formed at a lower portion of the upper part of the precast foundation, and having a hollow block body having a longitudinal communication hole 121 extending in a longitudinal direction to open the bottom of the block body. 120 is installed, including the precast straight wall foundation 100, including the foundation pile head perpendicular to the longitudinal communication hole to be in contact with each other in the longitudinal direction,
Precast straight wall foundation construction method comprising the step of injecting the injection material 400 in the longitudinal communication hole 121 so that the foundation pile 200 and the precast foundation lower 120 is integrated with each other . 5. The method of claim 4,
A connection member 410 is installed at the upper or lower portion of the precast foundation 110, and the connection member 410 is connected to the head of the fixing member 420 installed at the perforated slope.
The precast base top 110 is formed by the upper vertical wall portion 111 and the upper vertical pillar portion 112 extending downward in the front center portion of the upper vertical wall portion by the upper vertical wall portion and the upper vertical pillar portion. The vertical horizontal cross section is formed in a T-shaped cross-section, the precast direct wall type, characterized in that the structural support 510 is further installed on the upper surface of the upper vertical wall portion 111 and the upper vertical column 112 Basic construction method.

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