KR20100094140A - Wall structure capable of earth retaining and the building method of the same - Google Patents

Abstract

PURPOSE: A building wall structure and a construction method thereof are provided to increase the rigidity of a building wall structure and stability of a building and to reduce construction costs and times by simultaneously installing a sheathing structure and constructing the building wall structure. CONSTITUTION: A building wall structure comprises multiple support columns(40), a building wall(100), building beams(200,200',200"), and building slabs(300,300',300"). The support column is installed in the hole of a site boundary at fixed intervals and supports rear soil. The building wall is installed in the support column. The building wall forms the wall with the support column. The building beam and the building slab are integrated with the building wall.

Description

WALL STRUCTURE CAPABLE OF EARTH RETAINING AND THE BUILDING METHOD OF THE SAME}

The present invention relates to a building wall structure and a construction method thereof, and to a groundbreaking building wall structure and a construction method capable of constructing a building wall simultaneously with a construction of a wall at the time of building construction.

In the conventional earthen construction, it is necessary to support the earthen structure with anchors or struts by invading adjacent lands, and in particular, when constructing a site at an incline where there is a steep slope and lacking a lot of space, and constructing the earthen structure, a temporary earthenware is required. do.

At this time, the excavation of the earth and sand after installing the temporary equipment, and then install the permanent building wall, and finally to dismantle the temporary equipment for the earthquake, construction period is increased due to the installation and dismantling of the temporary equipment, construction properties due to the adjacent land This deterioration, there was a problem in that the construction cost of the temporary building wall separately from the construction cost of the permanent building.

In addition, when the installation of the permanent wall for the earthquake is completed, as well as dismantling the temporary wall for the earthquake, as well as building the building wall structure separately from the permanent building wall when building the building, there was a problem of double triple construction cost and construction period. .

Considering the fact that the burden of construction cost increases due to the increase of construction materials cost, it is urgently needed to develop a dramatically simplified building wall structure and construction method that can reduce construction cost and stably increase construction efficiency.

It is an object of the present invention to improve the above-mentioned problems, the building wall by making the basic frame of the building wall structure itself as a support column inserted into the ground without the need to separately install the conventional walling fixture and the building wall structure for the wall The strength of the structure is not only reinforced by the supporting column, but also the thickness of the building wall structure can be reduced, and the building wall structure can be formed at the same time as the installation of the retaining structure, thereby significantly reducing the construction cost and construction period, and making the ready-made product as the supporting column. The use of piles allows constant standardization of the strength of the support columns to provide an earthquake combined building wall structure and construction method which can contribute to the increase of the rigidity of the building wall structure as well as the stability of the building.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

In order to achieve the above object, the building wall structure of the present invention is formed by drilling a hole in the site boundary of the building ground on which the building is to be constructed and the surrounding ground adjacent to the building ground, and then inserting the hole into one side of the outer circumference. A plurality of support columns supporting the ground; A building wall connected to the support column to serve as a soil barrier of the surrounding ground and a side wall of the building; A building beam and a building slab integrally connected with the building wall; Characterized in that it comprises a.

In one embodiment, the building wall is constructed by inserting and fixing the support pillar to excavate the building ground to expose the other side of the outer circumference of the support pillar and to cast rebar and concrete between the support pillars.

In one embodiment, the building wall, the building beam and the building slab is built in a multi-layered structure in the order from the upper side to the lower side of the support column as the excavation depth of the building ground increases.

In one embodiment, the building wall structure, the cap beam extending perpendicular to the support pillar to connect the upper ends of the support pillars to each other; It includes more.

In one embodiment, the building wall structure, the anchor beam embedded in the building wall; An anchor fixed at one end to the anchor beam and at the other end to be buried in the surrounding ground to tension and support the building wall; It further includes.

In one embodiment, the building wall structure, the drain pipe is installed in the spaced space between the support pillars; Non-woven fabric surrounding the drain pipe; It further includes.

On the other hand, the construction method of the building wall structure of the present invention comprises the steps of: drilling a hole in the site boundary of the building ground on which the building is to be built and the surrounding ground adjacent to the building ground; Inserting and fixing a supporting pillar prepared in advance into the hole; When one side of the outer circumference of the support pillar which is inserted and fixed supports the surrounding ground, excavating the building ground to expose the other side of the outer circumference of the support pillar; Constructing a building wall, a building beam, and a building slab of the building to be integrally connected with the support pillar; Characterized in that it comprises a.

In one embodiment, the building wall, building beam and building slab is constructed by excavating the building ground to expose the other side of the outer circumference of the support column and then placing reinforcing steel and concrete between the support columns, and building As the excavation depth of the ground increases, it is constructed in the order from the upper side to the lower side of the support column to form a multilayer structure.

In one embodiment, the construction method of the building wall structure, after inserting and fixing the support pillar in the hole, and extending perpendicular to the support pillar to install a cap beam connecting the upper ends of the support pillars to each other; It further includes.

In one embodiment, the construction method of the building wall structure, after building the building wall, building beams and building slab, the anchor beam is embedded in the building wall, and both ends of the anchor for tension-supporting the building wall Fixing to anchor beams and the surrounding ground respectively; It further includes.

According to the present invention, the construction cost and construction period is remarkably innovative because the support pillars and the concrete cast between them are formed as the building wall structures without the need for installing the conventional temporary wall fixtures and the building wall structures for the wall blocks separately. Since the supporting pillar itself inserted into the ground becomes the basic frame of the building wall structure, the strength of the building wall structure is reinforced by the supporting pillar, and the thickness of the building wall structure can be reduced, and the ready-made product as the supporting column Since the pile is used, the strength of the support columns can be regularly standardized, which greatly contributes to increasing the quality level and stability of the building.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout the specification.

1 to 10 is a side cross-sectional view sequentially showing a construction method of a building wall structure combined with a wall of the present invention. With reference to Figures 1 to 10 will be described the structure and operation of the combined-use building wall structure of the present invention and the construction method will be described sequentially.

The building wall structure of the present invention includes a plurality of support pillars 40, building walls 100, building beams 200, 200 ', 200', and building slabs 300, 300 ', 300'. In this case, the building wall structure may further include a cap beam 50, an anchor beam 91, an anchor 63, a drain pipe (not shown), and a nonwoven fabric (not shown).

The ground on which the new construction is scheduled is divided into the building ground 10 on which the building is to be constructed and the surrounding ground 10 'on which an existing building or road is already constructed. The building ground 10 and the surrounding ground 10 'are partitioned based on the site boundary. In general, the site boundary wall (1) is provided adjacent to the site boundary in order to block dust or noise due to the construction of the building.

After arranging the ground so that the excavation / insertion equipment 31 can be seated at the site boundary between the building ground 10 and the surrounding ground 10 ', and then drill the holes 30 using the excavation / insertion equipment 31. The support column 40 is inserted into this hole 30 and fixed. The perforation depth of the hole 30 is determined in proportion to the building height of the building and the building height of the building wall structure of the present invention to be the underground facility.

The support column 40 is manufactured in advance as a finished product using concrete as a hollow cylindrical shape. The support pillar 40 is used to supply the desired number to the work site. The support column 40 is spaced apart at predetermined intervals in the hole 30 of the site boundary, and the back of the outer circumference of the cylinder supports the earth and sand, and serves as a retaining pillar, and the front of the column is the building wall 100. ) To form a space.

Conventionally, after excavating the ground of the building and constructing the main structure of the building after the construction of the temporary wall equipment, there was a disadvantage in that the construction cost and construction period was wasted, but in the present invention, the installation of the wall structure to the permanent facility such as the support column 40 Therefore, it is very advantageous to reduce construction cost and construction period.

In addition, since the support pillar 40 is a ready-made pile regardless of the construction time of the building, the construction process is not complicated and is very effective in shortening the material procurement time, construction period and construction cost.

When the insertion fixing of the support pillar 40 is completed as shown in FIGS. 1 to 4, the cap beam 50 is installed on the upper ends of the support pillars 40 to reinforce the load bearing force of the support pillar 40. 5 and 6, the installation state of the cap beam 50, the building wall 100, the building beam 200, the building slab 300 is shown.

After the insertion fixing of the support column 40 is completed, the cap beam 50, the building wall 100, the building beam 200, the building slab 300 is installed. The support pillar 40 is firmly fixed by being inserted into the hole 30, but if the upper end thereof is a free end, the load bearing force may be reduced. Therefore, it is preferable that a reinforcing member for reinforcing them is provided at the tip portion of the support pillar 40.

For example, the cap beam 50 which consists of a beam of "H" shape or a beam of "c" shape is installed as a reinforcement member. The cap beam 50 extends perpendicular to the support pillar 40 to reinforce the load bearing force of the support pillar 40 by connecting the upper ends of the support pillars 40 to each other.

The building wall 100 refers to a wall installed in the support column 40. That is, by arranging the reinforcement 93 on the spaced intervals between the support columns 40 and the exposed surface of the support columns 40 and placing concrete thereon, the walls are formed together with the support columns 40 by building walls ( 100). In order to reinforce the rigidity of the building wall 100, it is preferable that the stud bolt 92 and the reinforcement 93 are constructed together with the concrete.

The building wall 100 functions as an earth barrier to reinforce the load bearing capacity of the rear soil by preventing the back soil from the surrounding ground 10 ′ from leaking between the support pillars 40, while joining the support pillars 40 with each other. And at the same time function as a side wall of the building is very effective in reducing construction costs and construction period.

At least one of the building wall 100, the building beam 200, and the building slab 300 is inserted into and fixed to the support pillar 40, and then excavates the ground of the building 10 so that the other side of the support pillar 40 is formed. It is constructed by exposing and placing reinforcement 93 and concrete between the support pillars 40.

Meanwhile, in FIGS. 5 and 6, the building beam 200 and the building slab 300 are first formed, and then, as shown in FIG. 6, the building ground 10 is further excavated, and the building beam 200 has already formed the building wall 100. And building slab 300 is shown.

However, as an embodiment not shown, the ground of the building 10 is first excavated to a depth as shown in FIG. 6, and the building walls 100, the building beams 200, and the building slabs 300 are constructed step by step. It is also possible to increase the construction depth or to increase the construction depth while constructing the building wall 100 first and the building beam 200 and the building slab 300 subsequently.

7 to 10, the present invention is the building wall 100, building beams (200, 200 ', 200´) and building slab (300, 300', 300˝) when building, building ground (10) As the excavation depth of the increase in the order from the upper side to the lower side of the support pillar 40 to form a multi-layer structure. This is called the 'top down method'.

According to the top-down method, the construction method is simple, and the construction method is greatly simplified because the building wall structure, which combines the building sidewall and the mudstone facility, is temporarily constructed without the need for installing a temporary wall fixture or a permanent facility using the mud wall.

On the other hand, the building wall structure including the support column 40 is a self-supporting structure, the installation height may be limited. This problem can be solved by installing a permanent support means to increase the bending load bearing capacity, buckling load bearing capacity, tensile load bearing capacity of the building wall 100, in the present invention, nail nail as a permanent support means (Not shown) or anchor 63 is provided.

One embodiment of such a permanent support means is an anchor beam 91 embedded in the building wall 100 and an anchor 63 fixed to the anchor beam 91. The anchor beam 91 is embedded in the concrete forming the building wall 100 as a 'H' shaped beam or a 'c' shaped beam. One end of the anchor 63 is fixed to the anchor beam 91 and the other end is buried and fixed to the surrounding ground 10 ', thereby attracting and supporting the building wall 100 toward the surrounding ground 10'. Accordingly, the collapse of the support column 40 and the building wall 100 is prevented. Soil nail (not shown) may be installed together with the anchor 63.

If the load bearing capacity is further reinforced by such a permanent support means, the building walls 100, the beams 200, 200 ', 200˝, and the building slabs 300, 300', 300 될, which will be the underground facilities of the building, are desired. Even if the depth of installation is no longer concerned about the load bearing capacity, the building wall 100, building beams (200, 200 ', 200˝), building slabs (300, 300', 300˝), for example, underground 1 It can be formed very simply in a multi-layer structure including a layer and two underground levels.

As such, the support pillar 40 having the strong load supporting structure and the permanent supporting means supplementing the same are provided by the structure inserted into the hole 30, thereby reducing the construction thickness of the building wall 100. That is, the building wall 100 of the present invention is connected to the support pillar 40 fixed to the ground or permanent support means is further reinforced with a load bearing force than the building wall of the general simple structure that is not connected to the support pillar 40 ) Can maintain the stability of the building even if it is constructed to a much thinner thickness, which has the advantage of greatly reducing the construction cost and construction period.

In particular, it is possible to build a building with sufficient strength in a compact space in an incline with a steep slope and lack of site space.

In addition, as an embodiment not shown, it is preferable that a drain pipe is installed in order to improve the drainage of the back earth and sand during construction of the building wall 100. The drain pipe is disposed at a predetermined interval in the interval of the support pillar 40, it is preferable that the earth and sand is constructed with a non-woven fabric so that only water is drained out. In other words, the non-woven fabric wraps the drain pipe so that only water is discharged and the leakage of soil is suppressed.

On the other hand, the construction method of the building wall structure of the present invention is summarized as follows.

First, the hole 30 is drilled in the site boundary of the building ground 10 to which the building is to be constructed and the surrounding ground 10 'adjacent to the building ground 10. The support pillar 40 prepared in advance is fixed to the hole 30. Since one side of the outer circumference of the inserted and fixed support column 40 can function as a soil support for supporting the soil of the surrounding ground 10 ', the ground of the building 10 is excavated and the other side of the outer circumference of the support column 40 is fixed. Expose Next, the building walls 100, building beams 200, 200 ', 200' and building slabs 300, 300 ', 300' are constructed so as to be integrally connected with the support column 40 to complete the building.

Here, the building wall 100, the building beams 200, 200 ′, 200 및 and the building slabs 300, 300 ′, 300 ˝ excavate the building ground 10 to the other side of the outer circumference of the support column 40. After exposing the reinforcement 93 and concrete between the support pillars 40 is constructed, and as the excavation depth of the building ground 10 is increased in order from the upper side to the lower side of the support column 40 It can make a multilayered structure.

Moreover, it is preferable that the cap beam 50 which reinforces the load bearing force of the support pillar 40 after the support pillar 40 is inserted and fixed to the hole 30 is provided. Similarly, after constructing the building wall 100, the building beams 200, 200 ′, 200 ˝ and the building slabs 300, 300 ′, 300 ˝, the anchor beam 91 is embedded in the building wall 100. Both ends of the anchor 63 for tension-supporting the building wall 100 are preferably fixed to the anchor beam 91 and the surrounding ground 10 'to reinforce the load bearing force of the building wall structure.

Although embodiments according to the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments of the present invention are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the following claims.

1 to 10 is a side cross-sectional view sequentially showing a construction method of a building wall structure combined with a wall of the present invention.

<Explanation of symbols for the main parts of the drawings>

1 ... site boundary wall 10 ... building ground

10´ ... Ground 30 ... hole

31 Excavation / insertion equipment 40 Support columns

50 ... cap beam 63 ... anchor

91 Anchor beam 92 Stud bolt

93 Reinforced 100 Building Wall

200, 200´, 200˝ ... building

300, 300´, 300˝ ... building slab

Claims (10)

A plurality of support pillars on which one side of the outer circumference supports the peripheral ground by drilling a hole in the site boundary of the building ground on which the building is to be built and the surrounding ground adjacent to the building ground and then inserting and fixing the hole in the hole; A building wall connected to the support column to serve as a soil barrier of the surrounding ground and a side wall of the building; A building beam and a building slab integrally connected with the building wall; Building wall structure comprising a. The method of claim 1, The building wall is constructed by inserting and fixing the support pillar, excavating the building ground to expose the other side of the outer circumference of the support pillar, and building by building reinforcing steel and concrete between the support pillars. . The method of claim 2, The building wall, the building beam and the building slab is a building wall structure, characterized in that the building structure in the order from the upper side to the lower side of the support pillar as the excavation depth of the building ground increases. The method of claim 3, A cap beam extending perpendicular to the support pillar to connect upper ends of the support pillars to each other; Building wall structure, characterized in that it further comprises. The method of claim 4, wherein An anchor beam embedded in the building wall; An anchor fixed at one end to the anchor beam and at the other end to be buried in the surrounding ground to tension and support the building wall; Building wall structure, characterized in that it further comprises. The method of claim 5, A drain pipe installed in the spaced space between the support pillars; Non-woven fabric surrounding the drain pipe; Building wall structure, characterized in that it further comprises. Drilling holes in the site boundary of the building ground on which the building is to be constructed and the surrounding ground adjacent to the building ground; Inserting and fixing a supporting pillar prepared in advance into the hole; When one side of the outer circumference of the support pillar which is inserted and fixed supports the surrounding ground, excavating the building ground to expose the other side of the outer circumference of the support pillar; Constructing a building wall, a building beam, and a building slab of the building to be integrally connected with the support pillar; Construction method of a building wall structure comprising a. The method of claim 7, wherein The building wall, building beams and building slabs, It is constructed by excavating the ground of the building to expose the other side of the outer circumference of the support pillar and then placing reinforcing steel and concrete between the support pillars, The construction method of the building wall structure, characterized in that as the excavation depth of the building ground increases in order from the upper side to the lower side of the support pillar to form a multi-layer structure. The method of claim 8, Inserting and fixing the support pillar into the hole, and installing a cap beam extending perpendicular to the support pillar and connecting upper ends of the support pillars to each other; Construction method of a building wall structure further comprises a. 10. The method of claim 9, After constructing the building wall, the building beam, and the building slab, embedding an anchor beam in the building wall, and fixing both ends of the anchor for tension-supporting the building wall to the anchor beam and the surrounding ground, respectively; Construction method of a building wall structure further comprises a.

Images