KR20160099863A - Extended footbridge with continuous steel socket on slope - Google Patents

Abstract

The present invention provides an extended footbridge on a slope, with a continuous steel pipe socket anchoring device, wherein the extended footbridge on the slope can solve deflection by enabling a girder beam arranged in the longitudinal direction to rise by the continuous steel pipe socket anchoring device. So, the extended footbridge on the slope comprises: a steel pipe pillar erectly embedded side by side in a predetermined width along the slope; the continuous steel pipe socket anchoring device inserted into and mounted onto a steel pipe pillar head and enabling the girder beam to rise by continuously mounting the girder beam between the adjacent steel pipe pillar; a cross beam installed between the girder beams facing each other, at predetermined intervals; an underfloor support beam having a same height as the girder beam and fixed to the upper surface of the cross beam; and a floor plate supported by the underfloor support beam, wherein both ends are fixed to the girder beam by a bolt.

Description

{Extended footbridge with continuous steel socket on slope}

More particularly, the present invention relates to a continuous steel pipe socket fixing device capable of improving the sagging phenomenon by giving rise to a longitudinally arranged girder beam through a continuous steel pipe socket fixing device. To a slope extension report through the device.

Generally, if the width of the road is narrow or the edge of the road such as a river, coastline, or bridge is inclined, consideration will be given to expanding the coverage by considering the safe passage of pedestrians and bicycle users.

[0002] Japanese Unexamined Patent Application Publication No. 10-2010-61407 (published on June 7, 2010) discloses a 'sidewalk extension device for a road slope edge', which includes a road slope An edge-side sidewalk extension device comprising: an inclined portion having a lower portion having an inclination angle equal to an inclined surface of an inclined slope of an river; and a vertical portion formed continuously to an upper end portion of the inclined portion, Several H-shaped steel files spaced apart in a vertical direction on the ground; A plurality of H-shaped steel copings secured in the field via a pair of "a " shaped connecting steel and several bolts and nuts in the longitudinally raised condition at the upper end of the H-shaped steel pile; A plurality of "ㅁ" -shaped tie-lines arranged at regular intervals in the transverse direction on the upper surface of the H-shaped steel copings; A "ㅁ" -shaped inner and outer steel pipe for fixedly mounting in the lateral direction on the upper surfaces of both ends of the H-shaped steel copings; A plurality of synthetic wood foot plates fixedly installed on the upper surface of the "? "-Shaped tie-line material through a field bolt joining method in the longitudinal direction; And a handrail fixedly installed on the upper surface of the " ㅁ '-shaped inner circumferential steel pipe.

Korean Patent Registration No. 10-1181678 (published on September 19, 2012) is related to "extension of the sidewall", which includes a plurality of steel pipe supports vertically installed on the sidewall; A column coupling pipe having an upper and lower portions opened and inserted into the upper end of the steel pipe support; A bracket connected to the column coupling pipe and extending perpendicularly to the steel pipe support and consisting of an upper flange and a lower flange and a web; A plurality of rectangular steel pipes arranged by mutual connection in a direction perpendicular to the upper flange; And a fence provided at an outer end of the upper flange, wherein the prismatic steel pipe and the prismatic steel pipe to be provided thereon have a cross section of which is open at the upper end C shape, one side of which is inserted and fixed in the inside of the square steel pipe, and the other side is connected to each other by a connecting body slidably inserted into the inside of the square steel pipe, Wherein the floor member and the prismatic steel pipe are fastened to each other by a screw and the screw is positioned at an opening portion of the upper portion of the connection member through the bottom member and the prismatic steel pipe. .

[Patent Document 1] Japanese Patent Application Laid-Open No. 10-945041 (published on Mar. 5, 2010) discloses a bridge member for expanding a bridge and a bridge extension method using the same. In the bridge member, The supporting bracket includes a support bracket having one side fixed to the curb and the other side having a free end and a plurality of through holes having a predetermined shape at a predetermined position; The support bracket is inserted into a through hole of the support bracket,

A louvered steel pipe; And a support upper plate having a lower portion secured by bolts in the form of wrapping the steel pipe, the support bracket being formed in a rectangular parallelepiped shape as a whole and having a through hole so as to pass through in front and rear directions, A support plate welded to the support plate, the support plate being formed of a quadrangular steel plate as a whole and having an insertion groove formed in an upper portion thereof; A tilting portion formed in a triangular shape and welded to one side of the upper plate supporting portion and welded to the other side of the upper plate supporting portion; A pair of fixing portions formed on the both sides of the support plate and welded together and formed as a whole in a " C "shape and having insertion grooves formed on the back surface; The steel pipe is formed to have a sectional shape corresponding to the shape of the through hole of the upper plate supporting part, An upper plate made of a predetermined material, a connection hardware fixed to the lower surface of the upper plate by bolts and formed with a bolt hole at the lower portion thereof, And a rubber pad which is in close contact with a lower surface of the upper plate and is fixed by a connection hardware.

The above-mentioned prior art has an effect that a sidewalk can be extended to a bridge or the like at the edge of a roadway where a sidewalk is not separately provided, and a sidewalk can be expanded and installed.

However, in the conventional extension sidewalks, the bottom flange is extended from the road or bridge side to the outer side to secure a certain width of the sidewalk, so that the stability of the sidewall decreases, and the bottom frame for supporting the bottoms is simply disposed in the longitudinal direction of the sidewalk, There is a problem that a deflection phenomenon occurs due to a load during use.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a steel pipe socket fixing device capable of improving a sagging phenomenon by giving rise to a girder beam arranged in a longitudinal direction through a continuous steel pipe socket fixing device, to provide.

In order to achieve the above object, according to the present invention, there is provided a steel pipe supporting structure comprising: a steel pipe strut which is installed in parallel with a slope along a slope, a continuous steel pipe which is inserted between the steel pipe strut and adjoining the steel pipe strut, A girder beam installed at predetermined intervals between the girder beams facing each other and a girder beam fixed to the upper surface of the girder beam and having the same height as the girder beam; And a bottom plate fixedly installed on the girder beam.

The apparatus for fixing a continuous steel pipe socket comprises a socket portion in which the steel pipe support head is inserted and mounted on the inside, a support plate for mounting the girder beam on the side surface of the socket portion, And an airfoil flange fastened to the girder beam mounted on the support plate to cause the girder beam to rise.

The airfoil flange is formed with a through hole communicating with the steel pipe support on the upper surface thereof. The socket portion is formed with a cutout groove on a side surface thereof so as to be in close contact with the steel pipe support and penetrates through the socket portion and the steel pipe support And a tension is applied to the continuous steel pipe socket fixing device by filling the concrete in the steel pipe strut through the through hole and tightening the fastener after curing.

The girder beam is an H-beam, and a fastening hole for fastening the support plate to the flange portion is formed in the girder beam.

And the upper girder beam has an upper flange portion corresponding to the airfoil flange so as to attach the airfoil flange with the H beam.

According to the present invention, it is possible to improve the safety and durability of the sidewalk by improving the sagging phenomenon by giving rise to the girder beam arranged in the longitudinal direction through the continuous steel tube socket fixing device.

FIG. 1 is an exemplary view of a slope expanding sidewalk through a continuous steel pipe socket fixing device according to the present invention.
Fig. 2 is a perspective view of the continuous steel pipe socket fixing apparatus shown in Fig. 1. Fig.
3 is a front view of the continuous steel pipe socket fixing apparatus shown in Fig.
4 is a view for explaining a coupling relation between a girder beam and an airfoil flange of a slope expanding sidewalk through a continuous steel pipe socket fixing apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a preferred embodiment of a slope extension sidewalk through a continuous steel pipe socket fixing device according to the present invention will be described in detail with reference to the accompanying drawings.

First, according to the embodiment of the present invention, a steel pipe strut is installed in parallel with a certain width along a slope, and a continuous steel pipe socket is fixed to the steel pipe strut so that the girder beam is continuously inserted between adjacent steel pipe struts, A girder beam which is fixed to the upper surface of the beam and has the same height as the girder beam and a girder beam which is supported by the girder beam and which has both ends fixed to the girder beam by bolts, As shown in FIG.

FIG. 1 is an exemplary view of a slope expanding sidewall through a continuous steel pipe socket fixing device according to the present invention, in which a bottom plate is partially removed for convenience of explanation.

2 is a perspective view of the above-mentioned continuous steel pipe socket fixing device.

3 is a front view of the above-mentioned continuous steel pipe socket fixing device.

FIG. 4 is a view for explaining a coupling relation between a girder beam and an airfoil flange of a slope expanding sidewalk through a continuous steel pipe socket fixing device according to the present invention.

Referring to the above technical construction and accompanying drawings, a steel pipe support 10 is installed along a slope 1 in a predetermined width in order to expand a sidewalk when the edges of the road such as a river, coastline, bridge and the like are inclined.

Here, the constant width can be understood as the width of the sidewalk, and the steel pipe support 10 is built by burial or hoeing so as to have the same height between the upper side and the lower side of the slope.

The continuous steel pipe socket fixing device 20 is embodied so as to be inserted into a head of a steel pipe strut 10 and to continuously mount the girder beam 30 between neighboring steel pipe supports 10 so as to cause a rise.

In other words, bending force is applied to both ends of the mounted girder beam 30 to prevent sagging of the sidewalk, which will be described later in detail.

A steel pipe support 10 is installed side by side with a predetermined width and a girder beam 30 is successively placed between adjacent steel pipe supports 10 so that a cross beam 40 is installed at predetermined intervals between facing girder beams 30 do.

The beam 40 is disposed in the width direction of the sidewalk and attached by welding, and is preferably embodied as L-shaped steel or the like.

The joist material 50 is a member for supporting the bottom plate 60 and is fixed on the upper surface of the beam 40 and is selected to have the same height as the girder beam 30. [

The bottom plate 60 is supported by the joist 50 to form a sidewall, both ends of which are fixed to the girder beam 30 by bolts, and are preferably implemented as a wooden deck.

The continuous steel pipe socket fixing device 20 includes a socket portion 21 into which a head of a steel pipe support 10 is inserted and mounted and a support plate (not shown) for mounting the girder beam 30 on the side surface of the socket portion 21 And an airfoil flange 23 which is attached to the upper surface of the socket portion 21 so as to be curved upward so as to be coupled to the girder beam 30 mounted on the receiving plate 22 in a pressurized state and to cause the girder beam 30 to rise, .

The girder beam 30 is interposed between the support plate 22 of the socket portion 21 and the airfoil flange 23 and the support plate 22 and the lower plate of the girder portion 30 and the airfoil flange 23 And the upper plate of the girder portion 30 are tightened and fastened or welded together by a high tension bolt.

At this time, since the airfoil flange 23 is bent in the upward direction, the airfoil flange 23 is pressurized and pressed so as to be tangent to the upper surface of the girder beam 30.

Therefore, in the state where the binding is completed, the bending force acts on the end of the girder beam 30 due to the force that the airfoil flange 23 intends to return to.

In other words, a bending force acts on both ends of the girder beam 30 to cause the girder beam 30 to rise.

Next, the airfoil 23 of the airfoil flange 23 is pierced with a through hole 24 communicating with the steel pipe support 10 on the upper surface thereof. The socket portion 21 is formed in the side surface of the steel pipe support 10, The steel pipe support 10 is formed with a groove 25 and a fastening hole 70 through which the socket portion 21 and the steel pipe support 10 are fastened. Tightening the sphere 70 to introduce a tension force into the continuous steel pipe socket fixing device 20.

A semicircular socket is formed at a lower portion of the airfoil flange 23 to form one socket portion 21 so that a cutout groove 25 is formed in the side surface of the socket portion 23 do. Of course, the steel pipe may be attached to the lower portion of the airfoil flange 23, and then the side surface may be cut to form the cutout groove 25.

The socket portion 21 is formed to be larger than the diameter of the steel tube support 10 so that the end of the steel tube support 10 can be inserted inward and penetrates the socket portion 21 and the steel tube support 10, ).

In this state, the steel pipe support 10 is filled with concrete through the through-holes 24 formed in the airfoil flange 23, and the cementing post 70 is tightened by tightening.

Therefore, the lower portion of the socket portion 21 is brought into close contact with the steel pipe support 10, and the upper portion of the socket portion 21 is bent outwardly, so that the force to be restored by the airfoil flange 23 becomes stronger. As a result, the bulge of the girder beam 30 is strengthened.

Next, the girder beam 30 is an H-beam, and a fastening hole 31 for fastening the support plate 60 to the flange portion is formed.

Accordingly, the support plate 60 made of different materials and the girder beam 30 can be favorably coupled, and the fastening portion of the bolt is exposed to the outside through the flange of the H Beam, so that the fastening operation can be easily performed .

Also, the railing 80 can be easily installed on the girder beam 30 by bolting.

The upper flange portion is removed corresponding to the airfoil flange 23 so that the girder beam 30 can attach the airfoil flange 23 with the H beam.

According to the above technical arrangement, as the upper flange portion of the girder beam 30 made of the HIB beam is removed, the two members are bonded by welding while pressing the airfoil flange 23 against the girder beam 30 The height of the upper surface of the girder beam 30 can be uniformly adjusted.

Therefore, a sidewalk can be manufactured using the support plate 60 of the same standard.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims, I will make it clear to those who have.

10: Steel pipe holding
20: Continuous steel pipe socket fixing device
30: girder beam
40:
50:
60: floor plate
70: fastener
80: Handrail

Claims (5)

A steel pipe support arranged side by side with a predetermined width along the slope,
A continuous steel pipe socket fixing device inserted into the steel pipe support head and continuously mounting a girder beam between neighboring steel pipe supports,
A cross beam installed at predetermined intervals between the girder beams facing each other,
A girder having a height equal to that of the girder beam,
And a bottom plate supported by the tie-line material and having both ends fixed to the girder beam by bolts. The method according to claim 1,
The continuous steel pipe socket fixing device
A socket portion into which the steel tube support head is inserted and mounted,
A support plate for supporting the girder beam on the side surface of the socket,
And an airfoil flange attached to the upper surface of the socket portion so as to be curved upwardly and coupled with the girder beam mounted on the support plate in a pressurized state to cause the girder beam to rise. Extended coverage. 3. The method of claim 2,
Wherein the airfoil has a through hole communicating with the steel pipe support on an upper surface of the airfoil flange,
Wherein the socket portion is formed with a cutout groove on a side surface thereof so as to be able to expand and contract so as to be brought into close contact with the steel pipe support,
A fastener for fastening through the socket part and the steel tube strut,
And a tension force is introduced into the continuous steel pipe socket fixing device by charging the concrete in the steel pipe strut through the through hole and tightening the fastener after curing. The method according to claim 1,
Wherein the girder beam is an H-beam, and a fastening hole for fastening the support plate to the flange portion is formed in the girder beam. The method according to claim 1,
Wherein the girder beam has an upper flange portion corresponding to the airfoil flange so as to attach the airfoil flange with an H. beam.

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