KR101541511B1 - Cconcrete retaining wall of Eco-friendly steel frame - Google Patents

Abstract

The present invention relates to an eco-friendly in-site concrete steel frame retaining wall. To achieve this, according to the present invention, transverse connection members are respectively coupled to an upper and a lower end portion of a front and rear vertical support member for a quadrangular steel frame unit to be formed. The steel frame unit is coupled in left and right sides, and an upper portion for a steel frame retaining wall to be formed. A lower portion of the steel frame unit constituting the steel frame retaining wall is installed to be supported by foundation concrete which is deposited on the spot, thereby preventing subsidence to block disruption of a retaining wall, and reducing the amount of steel. Thus, an earth-volume may be reduced in accordance with a length of the retaining wall to lower construction costs and further, shorten a construction period.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a coconcrete retaining wall of an Eco-friendly steel frame,

The present invention relates to an environmentally friendly concrete cast-in-place reinforced concrete frame retaining wall, and more particularly, to a reinforced concrete framed reinforced concrete frame having a steel frame body formed by a steel frame unit coupled with a horizontal connecting member at the upper and lower ends of front and rear longitudinal supporting members, And the lower part of the retaining wall is supported by the foundation concrete which is placed in the field.

Generally, a wall that is constructed so that the soil does not fall by resisting the earth pressure is called a retaining wall and is a structure made to prevent the ground collapse that occurs when the soil is stacked at a steep slope or mowing the mountain .

The retaining walls are block building retaining walls, gravity concrete retaining walls and reinforced concrete retaining walls. Block building retaining walls correspond to widely used axial walls and are currently constructed using concrete blocks.

The gravity type concrete retaining wall is constructed to prevent the collapse of the ground due to the weight of the concrete itself. When the height of the reinforcing concrete retaining wall is increased, the height of the retaining wall is increased and the gravity type concrete retaining wall is not economical. It is used when it is necessary to make it advantageous to use. In addition to the reverse T type and sub-wall type, there is a simple retaining wall using a steel plate or a barrier.

This concrete wall is collapsed by wind and water damage. This is because rainwater infiltrates into the ground at the back of the retaining wall, and besides the earth pressure applied to the retaining wall, additional water pressure is generated, and the retaining wall collapses to form a drainage hole in the retaining wall. It is not because there is nothing but because the gravel is clogged and the function of the drain hole is not performed.

On the other hand, the retaining wall constructed with concrete is better in durability than the retaining wall constructed by stacking rocks and rocks. However, in order to construct the concrete retaining wall, the concrete should be laid using a truck mixer.

However, when concrete retaining walls are constructed, the number of field works increases so that the site conditions are limited. In other words, it is difficult to enter the truck mixer until the construction site of the retaining wall. In particular, in order to install the retaining wall at the foot of the mountain, it is impossible to enter the truck mixer, so a field mixer is required. Such a site mixer causes poor quality .

In addition, even if the truck mixer is easy to access, additional facilities such as a formwork for concrete installation are required at the construction site, and there is a disadvantage that the entire construction period becomes longer due to a lot of field work and concrete curing time.

When concrete retaining walls are installed in mountains or valleys, there is a disadvantage that they can not be inhabited by plants and animals in nature.

On the other hand, there are Gebion retaining walls and steel frame retaining walls, which are mostly used in the field, and Gebion retaining walls are assembled into a box shape with a wire net made of mesh like honeycomb structure and then subjected to stone filling work, And it is installed by a simple working method by tying the lid.

The steel frame retaining wall can be easily resisted to the earth pressure by making the wall by making the box-shaped frame by using the steel, filling the stone inside the frame, and the water pressure by the drainage structure can be extinguished and the reinforced concrete retaining wall and the Gebion retaining wall It is economically installable.

However, due to external weather changes, weathering and environmental factors, the retaining wall itself is prone to hand and slippery, and it is difficult to inspect and safeguard the damaged parts, so that the local damage is transferred to the whole collapse There is an urgent need to cope with the inherent risk of safety accidents.

Although the steel frame retaining wall is developed in the Gabion retaining wall, it is complicated in the constitution and the shape of the member, and the column of the vertical member formed in the vertical direction is required to transmit the axial force transmitted from the upper portion with the vertical, There is a problem that the damage of the horizontal member leads to the collapse of the whole retaining wall in the process of transmitting the force of the vertical member to the horizontal member.

In addition, since the stone and the reinforcing member are directly rubbed by filling the inner shape of the retaining wall frame which is not equipped with the structural defending means during the stone filling operation, the reinforcing member is damaged and deformed There was a problem.

Further, when the load is transmitted from one side of the vertical member, the connection between the vertical member and the reinforcing member is connected by the bolt, so that the vertical member behaves as a hinge structure around the bolt fastened to the vertical member, .

In addition, the bending moment transmitted to the reinforcing member during the stone filling operation is deformed like a folding phenomenon on the whole of a single bolt fastened to both sides of the vertical member, thereby deforming the retaining frame due to the damage of the reinforcing member .

In addition, since the horizontal member is provided in a shape in which the opening is formed downward, the void opening structure is formed in which the space is formed without filling the stones in the lower opening during the stone filling operation. And the retaining wall frame is simply installed on the ground, there is a problem that the retaining wall frame installed on the ground in the case of rainfall sinks.

Also, as the amount of steel material is increased, the amount of excavated soil according to the height of the retaining wall is further increased, thereby increasing the construction cost and increasing the construction period.

In the present invention, the lower part of the steel frame unit constituting the steel frame retaining wall is supported by the foundation concrete pushed in the field so as to prevent the collapse of the retaining wall by preventing the settlement, It is possible to prevent deformation due to the bending moment caused by the bending moment generated in the process of filling the crushed stone in the inside and to reduce the amount of the steel material to be used and to reduce the amount of excavation according to the height of the retaining wall, So that the construction period can be shortened.

The present invention is characterized in that a rectangular steel frame unit (U) is formed by joining transverse connecting members (20) to the upper and lower ends of the front and rear vertical support members (10), and the steel frame unit (U) And the upper end of the front and rear vertical support members 10 are inclined rearward so that the steel frame unit U is formed in a parallelogram shape, The upper end of the retaining wall A is inclined rearward and the web frame of the U-shaped bracket 30 is coupled to the upper and lower ends of the front and rear vertical support members 10, The pair of brackets 30 at the upper end are formed so as to protrude above the height of the vertical support member 10 so that the horizontal connection members 20 of the U-shape of the steel frame unit U provided at the upper portion and the U- The upper and lower transverse connecting members 20 and 20, respectively, The web member is provided so that the web members are in contact with each other and the upper end bracket 30 of the front vertical support member 10 and the lower end bracket 30 of the rear vertical support member 10 of the steel frame unit U, Wherein a front vertical support member of a steel frame unit adjacent to a front vertical support member of the steel frame unit is connected diagonally between brackets. And a rear screen member 50 'is provided between the rear vertical support members 10 in the transverse direction, and the screen members 50 and 50' Holes 51 are formed at both ends of the screen members 50 and 50. The hollow reinforcing pins 51 are formed at both ends of the screen members 50 and 50 ' And the bottom of the steel frame unit U is supported by placing the foundation concrete C in situ The foundation concrete (C) is installed on an abandoned concrete with an anchor (AN) protruding upward. After the lower end of the steel frame unit (U) is coupled to the anchor (AN) The concrete is laid so that the front screen member 20 and the front screen member 50 are embedded.

Further, a side screen member 50 "is provided on the left and right sides of the steel frame unit U in the longitudinal direction.

A bracing 40 is installed at the bottom rear of the steel frame retaining wall A where the steel frame unit U is installed in three or more stages and the steel frame unit U is installed at four or more stages A transverse connecting member 20, a bracing 40, and a vertical supporting member 10 'are provided at the lowermost rear of the steel frame retaining wall A to be joined.

In addition, the front and rear vertical support members 10 of the steel frame unit U are formed of H-shaped steel, and the transverse connecting member 20 and the bracing 40 are formed of channel steel.

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The front frame member 50 of the steel frame retaining wall A is provided with a front reinforcing portion 60 and an ex-metal 70 is installed inside the front reinforcing portion 60. The ex- and a crushed stone (80) is laminated inside the metal (70).

A pedestrian footrest 90 is provided in the uppermost part of the upper end of the steel frame retaining wall A and a railing 91 is provided in front of the pedestrian footrest 90 for the safety of pedestrians.

The present invention is characterized in that a lower portion of a steel frame retaining wall formed by joining a horizontal connecting member to upper and lower ends of front and rear longitudinal supporting members and formed of a steel frame unit, It is possible to prevent the lower portion of the steel frame retaining wall from sinking.

Also, it is possible to prevent the steel frame retaining wall from being collapsed, thereby extending the service life.

Further, it is possible to prevent breakage and deformation of the steel frame unit from the step of installing the steel frame retaining wall.

In addition, it is possible to prevent the occurrence of the folding phenomenon due to the bending moment generated in the process of filling the crushed stones into the steel frame retaining wall.

Through this, it is possible to reduce the amount of steel according to the height of the retaining wall while reducing the amount of steel, thereby reducing the construction cost and shortening the construction period.

1 is a perspective view showing a retaining wall of an environmentally-friendly concrete cast-in-place steel frame according to the present invention.
FIG. 2 is an exploded perspective view showing a recessed portion of the environmentally-friendly concrete cast-in-place steel frame retaining wall according to the present invention. FIG.
3 is a side view of a retaining wall of an environmentally friendly concrete cast-in-place steel frame according to the present invention.
FIG. 4 is another side view of the eco-friendly concrete cast-in-place steel frame retaining wall according to the present invention.
FIG. 5 is an exploded perspective view of an eco-friendly concrete cast-in-place steel frame retaining wall according to another embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the steel frame retaining wall A according to the present invention is a steel retaining wall according to the present invention, in which the transverse connecting members 20 are coupled to the upper and lower ends of the front and rear longitudinal support members 10, respectively, The steel frame unit U is formed such that the steel frame unit U is coupled to the left, right and upper parts and the lower part is sufficiently supported by the foundation concrete C laid in the field, A) is prevented from collapsing due to subsidence, thereby reducing the amount of steel used as much as possible.

The steel frame unit U has U-shaped brackets 30 which are respectively coupled to upper and lower ends of the front and rear vertical support members 10 so as to face each other, And the connecting members 20 are respectively fitted and bolted together. At this time, it is preferable that the front and rear vertical support members 10 of the steel frame unit U are formed as H-shaped steel. It is further preferable that the transverse connecting member 20 is formed of a channel-shaped steel.

A bracing 40 is diagonally coupled between the upper end bracket 30 of the front vertical support member 10 and the lower end bracket 30 of the rear vertical support member 10 so that the steel frame unit U .

The bracket 30 is provided to connect the transverse connecting member 20 and the bracing 40 to the rear of the upper end of the vertical supporting member 10 of the steel frame unit U. [ At this time, the bracket 30 is formed so as to protrude further than the height of the vertical supporting member 10 so that the steel frame unit U can be installed in three or more stages, A bracing (40) is provided at the bottom rear of the steel frame retaining wall (A), which is installed at least in a stepwise manner, rearwardly downward.

A horizontal connecting member 20, a bracing member 40 and a vertical supporting member 10 'are installed at the lowermost rear side of the steel frame retaining wall A in which the steel frame unit U is installed in four or more stages.

The bracket 30 is formed in a U-shape so that the web of the U-shaped bracket 30 is bolted to the vertical support member 10.

A front screen member 50 is provided laterally between the front vertical support members 10 of the steel frame unit U and the front vertical support members 10 of the other steel frame unit U adjacent thereto . At this time, the screen member 50 is formed by angled pipes having through holes 501 formed at both ends thereof, and hollow reinforcing members (not shown) are formed inside the both end portions of the screen member 50, The pin 51 is inserted to prevent the screen member 50 from being deformed during the installation process.

The lower part of the steel frame unit (U) is installed so as to be sufficiently supported by the foundation concrete (C) to be installed in the site.

The upper end of the steel frame unit U is formed obliquely rearward to be formed in a parallelogram shape, so that the upper portion of the steel frame retaining wall A is inclined rearward.

At the rear of the steel frame retaining wall (A), a rear screen member (50 ') is provided in the lateral direction to be supported on the ground on the back side of the retaining wall.

Further, a lateral screen member 50 "is provided in the longitudinal direction on left and right sides of the steel frame retaining wall A so that the strength can be structurally maintained at a higher level, and the lowermost steel frame & The lower end of the unit U is provided to be supported by the foundation concrete C. The foundation concrete C is installed on the abandoned concrete so that the anchor AN protrudes upward and the projected anchor AN, The lower end of the steel frame unit U is engaged with the concrete, and then the concrete is laid at a height of 30 to 70 cm.

A front reinforcing portion 60 is provided inside the front screen member 50 of the steel frame retaining wall A and an ex-metal 70 is provided inside the front reinforcing portion 60.

In addition, a crushed stone 80 is stacked in the ex-metal 70.

A pedestrian footrest 90 is provided at the uppermost part of the upper end of the steel frame retaining wall A so that a pedestrian can walk and a parapet 91 is installed in front of the pedestrian footstep 90, .

In this steel frame retaining wall A, first, the lower end of the steel frame unit U is joined to the anchor AN projected to the upper part of the abandoned concrete, and then the concrete is laid on the site at 30 to 70 cm. At this time, the horizontal connecting members 20 are coupled to the upper and lower ends of the front and rear vertical support members 10 to have a rectangular shape.

In this process, the brackets 30 are coupled to the upper and lower ends of the front and rear vertical support members 10, respectively, and the horizontal connecting members 20 are fitted to the upper and lower C-shaped brackets 30, So that the bracing 40 is diagonally connected between the upper end bracket 30 of the front vertical support member 10 and the lower end bracket 30 of the rear vertical support member 10.

Next, it is repeated that the front screen member 50 is provided between the front vertical supporting member 10 of the steel frame unit U and the front vertical supporting member 10 of the adjacent steel frame unit U in the lateral direction So that a steel frame retaining wall can be obtained. At this time, the upper portion of the steel frame retaining wall A is inclined rearward, the rear screen member 50 'is provided in the rear direction of the steel frame retaining wall A, and the left and right side portions of the steel frame retaining wall A The front screen member 50 is provided with a front reinforcing portion 60 and an ex-metal 70, and the ex-metal 70 The crushed stone 80 is laminated.

Next, a pedestrian footing 90 having a railing is provided at the uppermost end of the steel frame retaining wall A, thereby obtaining an environmentally-friendly concrete cast-in-place steel frame retaining wall.

" 형태를 갖도록 하는 것이 바람직하다.In the present invention, the front and rear vertical support members 10 of the steel frame unit U are formed as H-shaped steel. However, as shown in Fig. 5,

Quot; shape. ≪ / RTI >

In addition, in the present invention, the hollow reinforcement pins 51 are inserted into both end portions of the screen member 50. However, as shown in FIG. 4, the channel reinforcement pieces 52 may be provided, It is preferable to have a configuration in which the outside of the lean member 50 is wrapped.

A: Steel frame Retaining wall U: Steel frame unit
10: front and rear vertical support members 20:
30: bracket 40: bracing
50: front screen member

Claims (7)

A rectangular steel frame unit U is formed by connecting the horizontal connecting members 20 to the upper and lower ends of the front and rear vertical support members 10 and the steel frame unit U is provided in the left, In the steel frame retaining wall A joined together,
The upper end of the front and rear vertical support members 10 is inclined rearward so that the steel frame unit U is formed in a parallelogram shape and the upper portion of the steel frame retaining wall A is inclined rearward, The web unit of the U-shaped bracket 30 is coupled to the upper and the lower ends of the front and rear vertical support members 10, respectively, while the pair of brackets 30 at the upper end are coupled to the vertical support members 10, the U-shaped transverse connecting member 20 and the U-shaped bracing 40 of the steel frame unit U provided at the upper portion are fitted and engaged with each other, The web 20 is connected to the horizontal connecting member 20 of the steel frame unit U provided on the upper part and the upper part bracket 30 of the front vertical supporting member 10 and the rear vertical supporting part 20 of the front vertical supporting member 10, Between the lower end brackets (30) of the member (10), the bracing (40) , Wherein a front screen member (50) is disposed between the front vertical support member (10) of the steel frame unit (U) and the front vertical support member (10) of the adjacent steel frame unit (U) And a rear screen member 50 'is provided between the rear vertical support members 10 in the transverse direction. The screen members 50 and 50' have angular holes 501 formed at both ends thereof, And a hollow reinforcement pin 51 is inserted into both end portions of the screen member 50 and 50 'so as to be coaxial with the through hole 501. The steel frame unit U' The foundation concrete (C) is installed on the lower concrete with an anchor (AN) protruding upward from the foundation concrete. The foundation concrete (C) is installed on the anchor (AN) U are joined, the lowermost transverse connecting member 20 and the front screen member 50 are engaged with each other, So friendly concrete field, wherein the field is that concrete is poured pouring steel frame retaining wall. The method according to claim 1,
Wherein a lateral screen member (50 ") is provided in the longitudinal direction on left and right sides of the steel frame unit (U). The method according to claim 1,
A bracing (40) is installed at the bottom rear of the steel frame retaining wall (A) where the steel frame unit (U) is installed in three or more stages and the steel frame unit (U) Wherein a transverse connecting member (20), a bracing (40), and a longitudinal supporting member (10 ') are installed at the lowermost rear of the frame retaining wall (A). The method according to claim 1,
Wherein the front and rear vertical support members 10 of the steel frame unit U are formed of H-shaped steel and the transverse connecting member 20 and the bracing 40 are formed of channel steel. Steel frame retaining wall. delete The method according to claim 1,
The front frame member 50 of the steel frame retaining wall A is provided with a front reinforcing member 60 and an ex-metal member 70 disposed inside the front reinforcing member 60. The ex- 70), wherein the crushed stone (80) is laminated. The method according to claim 1,
A pedestrian footrest (90) is provided at the uppermost end of the steel frame retaining wall (A), and a railing (91) for the safety of a pedestrian is provided in front of the pedestrian footrest (90) Steel frame retaining wall.

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