KR101486954B1 - Extension footpath structure for reinforcement strength of pillar and it's construction method - Google Patents

Abstract

The present invention provides a vertical support structure comprising: a plurality of vertical supports each having a lower end buried in such a manner that a part thereof is exposed on an inclined surface, the vertical support being composed of a vertical web connecting a pair of vertical flanges and the pair of vertical flanges; And a plurality of vertical fixing bars welded and fixed between the pair of vertical flanges and vertical connecting bars connecting the plurality of vertical fixing pieces to each other, Vertical stiffener; A block embedded in an upper slope relative to the vertical column; A plurality of horizontal supports, one end of which is coupled to the upper end of the vertical support and the other end of which is coupled to the block, the upper support being composed of upper and lower flanges and a web; A plurality of horizontal fixing bars welded and fixed between the upper and lower flanges of the horizontal support and a horizontal connection bar connecting the plurality of horizontal fixing pieces to each other, A horizontal stiffener; And a columnar bottom block embedded with the vertical columns and maintaining spacing between vertical columns.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an extension structure for reinforcing vertical stiffness and horizontal stiffness,

The present invention relates to an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support, and a method of constructing the same. More specifically, the present invention provides a vertical support embedded on an inclined surface and a separate reinforcing member in a horizontal support, And an extended guide structure reinforcing the rigidity of the vertical pillar and the horizontal pillar capable of securing the safety of the pedestrian and maintaining the rigidity of the structure, and a construction method thereof.

In general, India is a road for pedestrians to pass, and is formed on both sides of a structure such as a road or a bank. However, when slopes are formed on the sides of rivers, roads, harbors, etc., there is a problem that the delivery can not be formed separately.

As a means to solve this problem, a separate means of extending the ground and securing the gravel is required in order to install the slope on the slope, and a stiffer reinforcement is required to form the slope having sufficient durability.

In particular, it is necessary to have a shaft which is embedded on the slope and which supports the extension underneath and a separate reinforcement for the beam which is connected to this shaft and supports the extension underneath.

As a prior art related to the present invention, there is the Korean Intellectual Property Office Registration No. 10-0975673 (Announcement on Aug. 17, 2010).

The present invention provides an extension guide provided on an inclined surface to enable smooth passage of a pedestrian, and a separate reinforcement member is provided on a shaft and a support for supporting the extended guide to secure the safety of the pedestrian passing through the extended guide more effectively The present invention provides a method of constructing an extended structure and a method of constructing the same.

The present invention provides an extended guide structure in which an H beam is used as a vertical support, and a buried foundation of a precast concrete material is connected to a lower portion of the H beam to improve workability and strength, and a construction method thereof.

It is another object of the present invention to provide a vertical supporting structure capable of supporting an extended guide provided on an inclined surface and capable of forming a reinforcing installation that is easy to install and repair, and an extended guide structure reinforcing the rigidity of the horizontal support, have.

The present invention provides a vertical support structure comprising: a plurality of vertical supports each having a lower end buried in such a manner that a part thereof is exposed on an inclined surface, the vertical support being composed of a vertical web connecting a pair of vertical flanges and the pair of vertical flanges; And a plurality of vertical fixing bars welded and fixed between the pair of vertical flanges and vertical connecting bars connecting the plurality of vertical fixing pieces to each other, Vertical stiffener; A block embedded in an upper slope relative to the vertical column; A plurality of horizontal supports, one end of which is coupled to the upper end of the vertical support and the other end of which is coupled to the block, the upper support being composed of upper and lower flanges and a web; A plurality of horizontal fixing bars welded and fixed between the upper and lower flanges of the horizontal support and a horizontal connection bar connecting the plurality of horizontal fixing pieces to each other, A horizontal stiffener; And a columnar bottom block embedded with the vertical columns and maintaining spacing between vertical columns.

Preferably, the pillar block is a precast concrete material and is installed to surround the outer surface of the vertical pillar.

In addition, it is preferable that the pillar lower block is fastened to each other with the vertical pillar interposed therebetween. In this case, the pillar lower block includes a stud bolt at the upper end thereof. When the stud bolt is fastened with the bracket and the nut, More preferable.

In addition, the pillar lower block is made of precast concrete, and both sides may have grooves and projections corresponding to each other.

The present invention also relates to a vertical pavement establishing step of vertically punching a vertical pillar and embedding a vertical pillar after the pavement is installed; A column lower block construction step of arranging and fastening a column lower block formed of precast concrete on the terra base surface; An embedding step of embedding the strut lower block and the vertical strut together; A vertical strut reinforcement member having a box shape and including a plurality of vertical fixing pieces welded and fixed between the pair of vertical flanges and a vertical connecting bar interconnecting the plurality of vertical fixing pieces, A step of constructing a vertical column reinforcement; A block construction step of embedding and fixing a block having an 'a' shape on an upper slope relative to the vertical support; A horizontal strut construction step of joining both ends of a horizontal strut made up of upper, lower flange and web between the upper end of the vertical strut and the 'C' shaped block; A horizontal support reinforcement member having a box shape and including a plurality of horizontal fixing pieces welded and fixed between upper and lower flanges of the horizontal support and horizontal connection bars connecting the plurality of horizontal fixing pieces to each other, A horizontal stiffener mounting step of horizontally supporting the stiffener; A prismatic steel pipe construction step of fixing a plurality of prismatic steel pipes on the upper flange of the horizontal support; A floor material applying step of fixing the floor material to the upper surface of the rectangular steel pipe; And a fence applying step of fixing the fence to one end of the block or the bottom material so as to protect the pedestrian.

According to the present invention, there is provided an extended cargo structure reinforced with the rigidity of the vertical cargo and the horizontal cargo, and a method of constructing the same according to the present invention, wherein the cargo cargo is installed on the inclined surface to enable smooth passage of the pedestrian, It is possible to more effectively secure the safety of the pedestrian passing through the extended guide.

Further, according to the present invention, it is possible to support an extension guide provided on an inclined surface while forming a reinforcing installation that is easy to install and repair, To provide a usable effect that can be easily made.

1 is a schematic view of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention, FIG.
3 is a cross-sectional view illustrating a side surface of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention,
FIG. 4 is a perspective view illustrating a lower supporting block according to an embodiment of the present invention,
FIG. 5 is an exploded perspective view showing a connection relation of a columnar lower block according to an embodiment of the present invention; FIG.
FIG. 6 is a perspective view illustrating a lower supporting block according to another embodiment of the present invention. FIG.
FIG. 7 is an enlarged view of a side surface of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention,
FIGS. 8 and 9 are views showing various fastening relationships of the vertical strut, the vertical strut reinforcement, the horizontal strut, and the horizontal strut reinforcement in the extended strut structure reinforced by the vertical strut and the horizontal strut according to the present invention,
10 and 11 are views showing various embodiments of the vertical support reinforcement and the horizontal support reinforcement in the extended guide structure reinforced with the rigidity of the vertical support and the horizontal support according to the present invention,
FIG. 12 is a block flow chart illustrating a method of constructing an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a schematic view of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention. FIG. 2 is a perspective view of a vertical support and a stiffness of a horizontal support according to an embodiment of the present invention. Of the present invention.

Referring to FIGS. 1 and 2, the extended indwelling structure 100 reinforcing the rigidity of the vertical support and the horizontal support according to an embodiment of the present invention includes a vertical support 110, a vertical support reinforcement 120, A block 130, a horizontal strut 140, a horizontal stiffener 150, a rectangular steel pipe 160, a bottom 170 and a fence 180.

In the vertical column 110, the lower end is buried in the inclined surface, and the upper end is exposed above the inclined surface. In addition, it is preferable that a plurality of vertical struts 110 are spaced apart at regular intervals and are buried in sloped surfaces.

The vertical struts 110 have an H-shaped cross section and consist of a pair of vertical flanges 112 and a vertical web 114 connecting the pair of vertical flanges 112. At this time, it is preferable to use a steel for building structure as a material of the vertical support 110.

The vertical stiffener 120 functions to maintain the spacing between the plurality of vertical stiffeners 110. The vertical strut reinforcing member 120 may include a vertical fixing piece 122 and a vertical connecting bar 124.

At this time, the vertical fixing piece 122 is box-shaped and welded between the pair of vertical flanges 112. Here, the vertical fixing pieces 122 are welded and fixed in such a manner that a plurality of the vertical fixing pieces 122 are spaced apart from each other in the longitudinal direction of the pair of vertical flanges 112. Further, the vertical fixing piece 122 may have a separate fastening hole (not shown). At this time, the fastening hole may have a size corresponding to the vertical connecting bar 124 and may be fastened to the vertical connecting bar 124.

The vertical connecting bars 124 are formed to interconnect the plurality of vertical fixing pieces 122. At this time, the vertical connection bars 124 are preferably connected to the plurality of vertical fixing pieces 122 in a straight line. In addition, the vertical connecting bar 124 may be formed of any one of a steel bar, a steel bar, and a wire.

The block 130 is embedded in the inclined surface. At this time, the block 130 may be embedded and fixed on an upper slope relative to the vertical column 110. The block 130 may be formed of a precast preform made of a material such as concrete. The block 130 may be formed in a shape capable of being attached and detached at both ends in the longitudinal direction. Accordingly, a plurality of blocks 130 may be connected in the longitudinal direction.

In addition, the block 130 may have a support step 132 protruding from the other side of the horizontal support 140 as shown in FIG. The support step 132 is formed to support the other end of the horizontal support 140.

Accordingly, the block 130 having the support step 132 may be made of a material having a relatively large weight load. As an example, the block 130 may be made of a heavy metal material, a steel material, or an alloy thereof. That is, the block 130 is formed in the shape of 'B' so as to be able to effectively support the side surface and the bottom surface of the other side of the horizontal support 140.

In addition, the block 130 may include a core material having a larger weight so as to exhibit the above-mentioned functions more effectively.

The horizontal struts 140 are horizontally connected and coupled between the vertical struts 110 and the block 130. That is, one end of the horizontal strut 140 is coupled to the upper end of the vertical strut 110, and the other end of the horizontal strut 140 is coupled to the block 130.

At this time, the horizontal struts 140 may be joined to the vertical struts 110 and the block 130 by welding. Further, the horizontal struts 140 may be added between the vertical struts 110 and the block 130, and then screwed together so as to be more firmly coupled.

The horizontal strut 140 is formed of an H beam having an H-shaped cross section. At this time, the horizontal support 140 comprises an upper flange 142, a lower flange 144, and a web 146 connecting the upper flange 142 and the lower flange 144. The horizontal struts 140 may be formed to be spaced apart from each other in the longitudinal direction of the block 130 by a plurality of the vertical struts 110 spaced apart from each other.

As the material of the horizontal strut 140, it is preferable to use the same structure structural steel as the vertical strut 110.

The horizontal support reinforcement member 150 has a function of horizontally fixing the plurality of horizontal supports 140. The horizontal strut reinforcing member 150 may include a horizontal fixing piece 152 and a horizontal connecting bar 154.

The horizontal fixing piece 152 is formed in a box shape and welded between the upper flange 142 and the lower flange 144 of the horizontal support 140. A plurality of horizontal fixing pieces 152 may be formed in the longitudinal direction of the upper flange 142 and the lower flange 144.

The horizontal connection bars 154 are formed to connect the plurality of horizontal fixing pieces 152 to each other. At this time, the horizontal connection bar 154 is preferably connected to the plurality of horizontal fixing pieces 152 in a straight line. In addition, the horizontal connection bar 154 may be formed of any one of a steel bar, a steel bar, and a wire.

The rectangular steel pipe 160 shown in the figure is fixed on the upper surface of the upper flange 142 of the horizontal support 140. At this time, the square steel pipe 160 is a rectangular steel pipe with four corners slightly rounded, and the steel plate may be bent into a square shape or a pair of grooves and continuously welded.

The plurality of rectangular steel pipes 160 may be spaced apart from the upper flange 142 of the horizontal support 140 at regular intervals. The reason why the square steel pipe 160 is spaced apart and fixed is to prevent distortion due to contraction and expansion due to a temperature difference.

The bottom material 170 is fixed to the upper portion of the rectangular steel pipe 160. At this time, the bottom member 170 is provided with a coupling member 172 formed as a direct coupling screw to be connected to the upper part of the rectangular steel pipe 160. Accordingly, the engaging member 172 has a function of fixing the floor material 170 to the upper portion of the rectangular steel pipe 160.

The floor member 170 is made of synthetic wood and is seated in the crossing direction of the rectangular steel pipe 160. The bottom member 170 is fixedly coupled to the rectangular steel pipe 160 by the above-described engaging member 172.

The bottom member 170 may have a through hole 174 to insert a direct coupling screw, which is a coupling member 172. The bottom member 170 may also have a fastening step 176 to receive the head of the engaging member 172 at the tip of the through hole 174. Accordingly, the engaging member 172 is not exposed to the upper portion of the flooring 170 by the fastening step 176.

Here, the bottom material 170 may be a steel plate, a recycled rubber material package, a urethane package, or the like as well as synthetic wood.

When the bottom member 170 is supported by the rectangular steel pipe 160 and the bottom member 170 is broken, a safer and large area can be supported. Accordingly, it is possible to prevent the breakage, and to provide the effect that the cost due to the additional process is not generated or saved.

The fence 180 may be fixed to one end of the block 130 or the bottom 170. At this time, the fence 180 has a function of protecting the pedestrian so that the pedestrian does not deviate to the outside.

These fences 180 may be variously fabricated and may be constructed as lightweight aluminum to reduce the live load on the horizontal struts 140 that support the bottoms 170 and are connected between the vertical struts 110 and the block 130. [ It is good to be made of light metal.

A plurality of fences 180 may be spaced apart from each other in the longitudinal direction of the block 130 or the floor material 170. At this time, the fence 180 may have a separate fence connecting rod 182 connecting the fences 180.

FIG. 3 is a cross-sectional view illustrating a side surface of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention, and FIG. 4 is a perspective view illustrating a support lower block according to an embodiment of the present invention.

The extended support structure 100 reinforcing the rigidity of the vertical support and the horizontal support according to an embodiment of the present invention includes a vertical support 110, a vertical support reinforcement 120, a block 130, a horizontal support 140 A horizontal stiffener 150, a rectangular steel pipe 160, a bottom 170, a fence 180, and a column supporting block 200.

Since the above-described configurations are described above, a duplicate description will be omitted. However, the above-described contents may be partially overlapped to help understand the drawings.

As shown, the vertical column 110 is embedded in the sloped surface, and the column bottom block 200 is connected to the upper part of the embedded part.

The vertical pillar 110 is made of H beams and is installed after drilling the sloped surface.

The pillar lower block 200 connecting the upper part of the vertical pillar 110 is made of precast concrete and covers the upper part of the pillar 110 to prevent the vertical pillar 110 from being conducted .

4, the pillar support block 200 has a substantially rectangular shape. On both sides of the pillar support block 200, a defect groove 210 corresponding to the contour of the vertical pillar 110 is formed. Stud bolts 220 are formed on both sides, .

FIG. 5 is an exploded perspective view showing a connection relationship of a columnar lower block according to an embodiment of the present invention. FIG.

As shown in the figure, when the column bottom blocks 200 are arranged side by side, a vertical column 110 is accommodated therebetween, and the column bottom block 200 arranged therein includes a bracket 240, (250).

Because of this fastening, the entire pillar lower block 200 is integrally connected and supports the upper portion of the rim of the vertical pillar 110.

6 is a perspective view of a strut lower block according to another embodiment of the present invention.

As shown in the figure, the projections 202 and the grooves 204 corresponding to each other are provided on both sides of the pillar lower block 200, and the pillar 202 and the groove 204 are fitted to each other so that the connection between the pillar lower blocks 200 can be further strengthened .

When they are connected to each other by the fitting, the coupling force between the pillar lower blocks 200 becomes stronger against the bending in the vertical direction.

FIG. 7 is an enlarged view of a side of an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention.

The illustrated vertical stiffener 120 is fastened between the plurality of vertical stiffeners 110 so as to prevent a plurality of vertical stiffeners 110 exposed to the ground from falling in a lateral direction.

The vertical strut reinforcing member 120 is formed in a box shape and includes a plurality of vertical fixing pieces 122 welded and fixed between the pair of vertical flanges 112, And may include a vertical connection bar 124 interconnecting them. As shown in the drawing, the vertical connection bar 124 connects a plurality of vertical fixing pieces 122 to each other and finally connects the vertical supporting columns 110.

The horizontal stiffener 150 has a function of horizontally fixing the plurality of horizontal supports 140. The horizontal strut reinforcing member 150 may include a horizontal fixing piece 152 and a horizontal connecting bar 154.

The horizontal fixing piece 152 is formed in a box shape and welded between the upper flange 142 and the lower flange 144 of the horizontal support 140. A plurality of horizontal fixing pieces 152 may be formed in the longitudinal direction of the upper flange 142 and the lower flange 144.

The horizontal connection bars 154 are formed to connect the plurality of horizontal fixing pieces 152 to each other. At this time, the horizontal connection bar 154 is preferably connected to the plurality of horizontal fixing pieces 152 in a straight line.

The vertical connection bars 124 and the horizontal connection bars 154 may be made of any one of steel bars, steel bars, and wires.

The block 130 may include a support plate 134 to be horizontally embedded in a lower surface that is embedded in the sloping surface S. At this time, the support plate 134 may be integrally or assembled with the block 130, and may be firmly coupled with the block 130 by welding or separate screw connection.

Since the support plate 134 functions to support the block 130 at a lower portion thereof, it is preferable that the support plate 134 is made of a material having a comparatively large weight load, like the block 130. As an example of such a structure, a metal material, a steel material, or an alloy material thereof having the same weight as the block 130 may be used.

The bottom material 170 is fixed to the upper portion of the rectangular steel pipe 160. At this time, the bottom member 170 is provided with a coupling member 172 formed as a direct coupling screw to be connected to the upper part of the rectangular steel pipe 160. Accordingly, the engaging member 172 has a function of fixing the floor material 170 to the upper portion of the rectangular steel pipe 160.

The floor member 170 is made of synthetic wood and is seated in the crossing direction of the rectangular steel pipe 160. The bottom member 170 is fixedly coupled to the rectangular steel pipe 160 by the above-described engaging member 172.

The bottom member 170 may have a through hole 174 to insert a direct coupling screw, which is a coupling member 172. The bottom member 170 may also have a fastening step 176 to receive the head of the engaging member 172 at the tip of the through hole 174. Accordingly, the engaging member 172 is not exposed to the upper portion of the flooring 170 by the fastening step 176.

8 and 9 are views showing various fastening relationships of the vertical strut, the vertical strut reinforcement, the horizontal strut, and the horizontal strut reinforcement in the extended root structure reinforced by the vertical strut and the horizontal strut in accordance with the present invention .

8 and 9, a vertical stiffener 120 connecting a plurality of vertical stiffeners 110 and a horizontal stiffener 150 interconnecting the plurality of horizontal stiffeners 140 .

First, the tightening relationship between the vertical strut 110 and the vertical strut reinforcement 120 will be described.

The vertical strut reinforcing member 120 has a function of mutually connecting the plurality of vertical struts 110 to offset an external pressure that may be generated in the vertical struts 110. That is, due to the vertical stiffener 120 connecting the plurality of vertical stiffeners 110, it is possible to reduce the degree of the vertical stiffeners 110 when the vertical stiffeners 110 are moved by external pressure.

At this time, the vertical strut reinforcing member 120 may include a vertical fixing piece 122 and a vertical connecting bar 124 so as to fix a plurality of vertical struts 110 therebetween. Here, the vertical fixing piece 122 is formed in a box shape and welded between a pair of vertical flanges 112.

The vertical fixing piece 122 shown in FIG. 8 is welded and fixed between a pair of vertical flanges 112 constituting the vertical support 110. At this time, a plurality of the vertical fixing pieces 122 may be formed in the length direction of the pair of flanges 112.

The vertical connecting bars 124 are formed to interconnect the plurality of vertical fixing pieces 122. At this time, the vertical connection bars 124 are preferably connected to the plurality of vertical fixing pieces 122 in a straight line.

In addition, the vertical connection bars 124 may be connected to the vertical fixing pieces 122 in an 'X' shape in order to disperse the external force received by the vertical supports 110. The vertical connection bars 124 may be made of any one of steel bars, steel bars, and wires.

Next, the tightening relationship between the horizontal support 140 and the horizontal stiffener 150 will be described.

The horizontal support reinforcement member 150 has a function of horizontally fixing the plurality of horizontal supports 140. The horizontal strut reinforcing member 150 may include a horizontal fixing piece 152 and a horizontal connecting bar 154.

The horizontal fixing piece 152 is formed in a box shape and welded between the upper flange 142 and the lower flange 144 of the horizontal support 140. A plurality of horizontal fixing pieces 152 may be formed in the longitudinal direction of the upper flange 142 and the lower flange 144.

The horizontal connection bars 154 are formed to connect the plurality of horizontal fixing pieces 152 to each other. At this time, the horizontal connection bar 154 is preferably connected to the plurality of horizontal fixing pieces 152 in a straight line.

The horizontal fixing piece 152 shown in Fig. 9 can be welded and fixed to the upper surface of the upper flange 142 and the upper surface of the lower flange 144 of the horizontal support 140, respectively. The horizontal connection bar 154 may be formed of any one of a steel bar, a steel bar, and a wire similar to the vertical connection bar 124.

10 and 11 are views showing various embodiments of the vertical support reinforcement and the horizontal support reinforcement in the extended guide structure reinforced with the rigidity of the vertical support and the horizontal support according to the present invention.

10 and 11, a vertical stiffener 120 for interconnecting a plurality of vertical stiffeners 110 and a horizontal stiffener 150 for interconnecting a plurality of horizontal stiffeners 140 .

10, a plurality of vertical fixing pieces 122 of the vertical column reinforcing member 120 are spaced apart from each other between a pair of vertical flanges 112, and welded to the pair of vertical flanges 112 .

On the other hand, a plurality of the vertical fixing pieces 122 in FIG. 11 are spaced apart from each other between the pair of vertical flanges 112 and welded to the inner surfaces between the pair of vertical flanges 112, respectively.

At this time, the vertical connection bars 124 may be connected to the vertical fixing pieces 122 in a straight line or 'X' shape.

As such, the vertical strut reinforcement member 120 can be formed in various forms as shown in FIGS. 10 and 11 within a range where the vertical struts 110 are interconnected and more effectively reinforced.

10, the horizontal fixing member 152 of the horizontal column reinforcing member 150 is welded and fixed between the upper and lower flanges 142 and 144 of the horizontal support 140.

11 are welded and fixed to the upper surface of the upper flange 142 and the upper surface of the lower flange 144 of the horizontal support 140, respectively.

At this time, the horizontal connection bar 154 may be connected to the horizontal fixing piece 152 in a straight line, 'Z', or 'X' shape.

As described above, the horizontal stiffener 150 can be formed in various shapes as described above within a range where the horizontal stiffeners 140 are interconnected and more effectively reinforced.

12 is a block flow chart illustrating a method of constructing an extended delivery structure reinforcing the rigidity of the vertical support and the horizontal support according to an embodiment of the present invention.

Hereinafter, the drawings shown in FIG. 12 will be described in the following description, but it is preferable to also refer to the drawings of FIG. 2 in order to facilitate description and understanding of the contents.

Referring to FIG. 12, a method of constructing an extended guide structure reinforcing the rigidity of a vertical support and a horizontal support according to an embodiment of the present invention includes steps of installing a vertical support (S120), constructing a lower support block (S140) The horizontal support structure step S300, the horizontal support construction step S400, the horizontal support reinforcement construction step S500, and the horizontal support reinforcement member construction step S160, the vertical support reinforcement member construction step S200, the block construction step S300, (S600), a floor material construction step (S700), and a fence construction step (S800).

Hereinafter, the construction method will be described in order.

First, in the vertical landing step (S120), the inclined plane on which the vertical land is installed is erected and then the vertical land is formed by perforating the land. At this time, the waveguide is made to be flat at the depth where the column bottom block can be buried.

It is preferable to support the vertical strut 110 by filling the perforated space with a filling material such as sand, earth, and concrete after arranging the vertical strut in the perforated hole.

Thereafter, a pillar lower block construction step (S140) is performed in which the pillar support block 200 is disposed on the tear-off surface. At this time, the pillar lower block 200 becomes a shape to enclose the vertical pillar 110, thereby preventing the vertical pillar 110 from being conducted, and lowering the center of gravity of the pillar to improve the stability of the structure.

Next, the pillar bottom block embedding step (S160) for embedding the pillar supporting block 200 is performed to complete the construction of the vertical pillar block.

When a part of the vertical pillar 110 is embedded in the sloped surface, the vertical pillar reinforcement construction step S200 is performed.

The vertical strut reinforcement constructing step S200 connects a plurality of vertical strut reinforcements 120 in the longitudinal direction of the vertical strut 110. [ When the vertical strut 110 is pressed by external pressure through the vertical strut reinforcing member 120, tension is generated in the vertical connecting bar 124 to disperse the external pressure, 110 can be minimized.

When the vertical stiffener 120 is installed, the block construction step S300 is performed. In this block construction step S300, an 'a' -shaped block 130 is embedded and fixed on an upper slope relative to the vertical support 110. At this time, the block 130 may have a shape in which both ends in the longitudinal direction are detachable. Accordingly, a plurality of blocks 130 may be interconnected in the longitudinal direction.

When the block 130 is embedded and fixed on the inclined surface, the horizontal holding construction step S400 is performed.

In this horizontal holding construction step S400, both ends of the H-shaped horizontal support 140 are coupled between the upper end of the vertical support 110 and the 'B' -shaped block 130.

At this time, the horizontal pillar 140 may be joined to the vertical pillar 110 and the block 130 by welding. The horizontal strut 140 may be welded between the vertical strut 110 and the block 130, and then may be further screwed to be more firmly coupled.

When the horizontal pillar 140 is installed, the horizontal pillar reinforcement construction step S500 is performed. The horizontal stiffener constructing step S500 includes a plurality of horizontal fixing pieces 152 which are box-shaped and welded between the upper and lower flanges 142 and 144 of the horizontal support 140, The horizontal support reinforcement member 150 having horizontal connection bars 154 connecting the horizontal fixing pieces 152 is horizontally fixed between the plurality of horizontal supports 140.

When the horizontal pillar 140 is installed, the square pipe construction step S600 is performed. In the step S600 of installing the rectangular steel pipe, a plurality of rectangular steel pipes 160 are fixed to the upper surface of the upper flange 142 of the horizontal support 140.

At this time, the rectangular steel pipe 160 is fixed to the upper surface of the upper flange 142 of the horizontal support 140. At this time, the square steel pipe 160 is a rectangular steel pipe with four corners slightly rounded, and the steel plate may be bent into a square shape or a pair of grooves and continuously welded.

The plurality of rectangular steel pipes 160 may be spaced apart and fixed to the upper surface of the upper flange 142 of the horizontal support 140 at regular intervals. The reason why the square steel pipe 160 is spaced apart and fixed is to prevent warping due to expansion and contraction due to the temperature difference.

When the rectangular steel pipe 160 is installed, the flooring construction step S700 is performed. In the floor material construction step S700, the floor material 170 is fixed to the upper surface of the rectangular steel pipe 160. [

At this time, the floor material 170 is fixed to the upper part of the rectangular steel pipe 160. At this time, the bottom member 170 is provided with a coupling member 172 formed as a direct coupling screw to be connected to the upper part of the rectangular steel pipe 160. Accordingly, the engaging member 172 has a function of fixing the floor material 170 to the upper portion of the rectangular steel pipe 160.

After the floor material application step S700, the fence application step S800 is performed. This fence construction step (S800) fixes the fence (180) to one end of the block (130) or the flooring (170) to protect the pedestrian. In order to reduce the live load applied to the horizontal support 140 connected between the vertical support 110 and the block 130, the fence 180 may be manufactured in various ways, It is good to be a disciple of the same light metal.

As described above, according to the present invention, the extended support structure reinforcing the rigidity of the vertical support and the horizontal support and the construction method thereof are provided with the extended guide provided on the inclined surface to enable the smooth passage of the pedestrian, By installing separate reinforcements on the shaft and the beam, the safety of the pedestrian passing through the extended guide can be secured more effectively.

Further, according to the present invention, it is possible to support an extension guide provided on an inclined surface while forming a reinforcing installation that is easy to install and repair, It is possible to provide a usable effect that can facilitate the operation.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

S: slope
100: Extended stiffening structure reinforcing the rigidity of vertical and horizontal stanchions
110: vertical support 112: vertical flange
114: vertical web
120: vertical support reinforcement member 122: vertical fixing piece
124: Vertical connection bar
130: Block 132: Support step
134: Support plate
140: horizontal support 142: upper flange
144: Lower flange 146:
150: horizontal support reinforcement member 152: horizontal fixing member
154: Horizontal connection bar
160: square steel pipe
170: Flooring material 172:
174: Through hole 176: Clamping step
180: fence 200: pillar lower block

Claims (6)

A plurality of vertical supports, the bottom of which is partially exposed on the inclined surface, the vertical supports being composed of a vertical web connecting the pair of vertical flanges and the pair of vertical flanges;
And a plurality of vertical fixing bars welded and fixed between the pair of vertical flanges and vertical connecting bars connecting the plurality of vertical fixing pieces to each other, Vertical stiffener;
A block embedded in an upper slope relative to the vertical column;
A plurality of horizontal supports, one end of which is coupled to the upper end of the vertical support and the other end of which is coupled to the block, the upper support being composed of upper and lower flanges and a web;
A plurality of horizontal fixing bars welded and fixed between the upper and lower flanges of the horizontal support and a horizontal connection bar connecting the plurality of horizontal fixing pieces to each other, A horizontal stiffener; And
And a columnar bottom block embedded with the vertical column and maintaining spacing between vertical columns,
The column bottom block
The present invention relates to a pre-cast concrete slab having a groove and a protruding shape corresponding to each other on both sides of the preform and surrounding the outer surface of the vertical post, And the stud bolt is fastened by connecting it with a bracket and a nut. delete delete delete delete delete

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