KR102553176B1 - Footpath enlarging apparatus for bridge and Construction method using thereof - Google Patents

Abstract

In the present invention, when a walkway is newly established or expanded on a bridge structure, etc., without installing a separate lower support structure, the upper chord and lower chord are installed by protruding from the side of the bridge structure, and the upper chord and the lower chord are fixed by inserting sliding nodal rings. It relates to a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring in which a saber is constructed between an upper chord and a lower chord to be assembled in a truss method, and a sidewalk expansion method for a bridge structure using the same.
A preferred embodiment of the prefabricated sidewalk expansion device of the bridge structure of the present invention is a fixed plate formed by passing a plurality of fixing holes in a vertical plate shape, and a rectangular tube shape with a certain length that is hollow inside and configured to protrude to the other side of the fixed plate. An upper bracket made of a pipe; A lower bracket composed of a vertical plate-shaped fixing plate spaced apart from the lower part of the upper bracket by a certain distance and a rectangular tubular coupling tube with a hollow interior and a predetermined length protruding from the other side of the fixing plate; An upper chord having a rectangular tube shape of a certain length and penetrating in the width direction through a positioning hole through which one end is inserted into the coupling tube of the upper bracket to be fastened; A lower chord having a rectangular tube shape of a certain length and penetrating in the width direction through a positioning adjustment hole, the lower chord having one end inserted into the coupling tube of the lower bracket to be fastened; Consisting of a rectangular tube with a certain length of hollow inside, a sliding tube body formed by passing through the coupling hole in the width direction, and a plate-shaped hinge plate formed by protruding from the bottom surface to the bottom and having a shaft hole through it. , an upper sliding nodal ring in which the sliding body is inserted into the upper chord so that the position adjustment hole and the coupling hole of the upper chord are matched to be fastened with bolts; It is composed of a rectangular tube with a certain length of hollow inside, a sliding body formed by passing through the coupling hole in the width direction, and a plate-shaped hinge plate formed by protruding from the top surface to the top and having a shaft hole through it. , a lower sliding nodal ring in which the sliding tube body is inserted into the lower chord so that the position adjustment hole of the lower chord and the coupling hole are matched to be fastened with bolts; A plurality of yarns formed by passing coupling holes at both ends, respectively, configured to alternately connect the upper sliding point ring and the lower sliding nodal ring of the upper chord and the lower chord in one and the other oblique direction.

Description

Prefabricated sidewalk expansion device of bridge structure using truss method and sliding nodal ring, and method of sidewalk expansion of bridge structure using the same

The present invention relates to a prefabricated sidewalk expansion device of a bridge structure using a truss method and a sliding nodal ring and a method of extending a sidewalk of a bridge structure using the same, and more particularly, to a separate lower support structure when a sidewalk is newly established or expanded on a bridge structure, etc. Install the upper and lower chords by protruding from the side of the bridge structure without installing the upper and lower chords, insert and fix the sliding nodal rings on the upper and lower chords, and construct the yarn between the upper and lower chords to assemble in a truss method. It relates to a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring and a sidewalk expansion method for a bridge structure using the same.

In general, when a bridge structure is constructed so that only vehicles can pass, sidewalks for pedestrians' walking must be additionally installed. When there is no spare member for sidewalk installation, sidewalks are additionally installed by extending the bridge structure.

In the conventional bridge structure expansion type walkway, construction methods such as reinforcing strength using a large amount of steel structures or additionally installing vertical pillars to support the expansion footbridge have been applied for the purpose of improving safety, but complicated construction There were problems such as requiring a lot of construction period according to the process and increasing construction cost, and it was difficult to secure structural stability.

As a background technology of the present invention, there is Patent Registration No. 1083303 "Prefabricated Expansion Walkway for Bridges or Retaining Walls" (Patent Document 1). In the background art, the base bracket is composed of an upper flange 110, a lower flange 120, a web 130, and a side flange 140 in surface contact with the side surface of the bridge 1 and is installed to extend to the outside of the bridge. (100) and; A plurality of rectangular steels 200 installed on the upper part of the base bracket 100 and spaced at regular intervals in the longitudinal direction of the bridge 1; an assembly 300 coupled to the base bracket 100 to couple the square steel 200 to the base bracket 100 so that the square steel 200 can expand and contract according to temperature changes; It includes a flooring 400 installed on the upper portion of the rectangular steel 200 and a safety fence 500 installed on the upper flange 110 of the base bracket 100, but the rectangular steel 200 A groove 210 is formed, and the combination body 300 corresponds to a pair of L-beam bodies 330 provided to correspond to each other on the left and right sides of the rectangular steel 200 and the groove 210 of the rectangular steel 200. We propose a prefabricated expansion walkway for bridges or retaining walls, characterized in that a protrusion 340 is provided and the protrusion 340 is inserted into the groove 210 and installed.

However, conventional cantilever structures applied to existing bridges, such as those in the background art, do not provide sufficient strength and thus fail to maintain structural stability, and the possibility of deflection of the cantilever accordingly remains a problem to be solved.

Patent Registration No. 1083303 "Prefabricated Expansion Walkway for Bridges or Retaining Walls"

The present invention is to solve the above problems, when a sidewalk is newly built or expanded on a bridge structure, etc., assembly construction is possible without installing a separate lower support structure, and it is possible to run the standard, so that the expansion of the sidewalk The purpose is to provide a prefabricated sidewalk expansion device of a bridge structure that can respond in various ways according to size and is composed of a truss structure to ensure structural stability, and a method of extending the sidewalk of a bridge structure using the same.

The present invention includes a fixing plate formed by passing a plurality of fixing holes in a vertical plate shape, and an upper bracket made of a coupling pipe having a rectangular tube shape with a hollow interior and a predetermined length protruding to the other side of the fixing plate; A lower bracket composed of a vertical plate-shaped fixing plate spaced apart from the lower part of the upper bracket by a certain distance and a rectangular tubular coupling tube with a hollow interior and a predetermined length protruding from the other side of the fixing plate; An upper chord having a rectangular tube shape of a certain length and penetrating in the width direction through a positioning hole through which one end is inserted into the coupling tube of the upper bracket to be fastened; A lower chord having a rectangular tube shape of a certain length and penetrating in the width direction through a positioning adjustment hole, the lower chord having one end inserted into the coupling tube of the lower bracket to be fastened; Consisting of a rectangular tube with a certain length of hollow inside, a sliding tube body formed by passing through the coupling hole in the width direction, and a plate-shaped hinge plate formed by protruding from the bottom surface to the bottom and having a shaft hole through it. , an upper sliding nodal ring in which the sliding body is inserted into the upper chord so that the position adjustment hole and the coupling hole of the upper chord are matched to be fastened with bolts; It is composed of a rectangular tube with a certain length of hollow inside, a sliding body formed by passing through the coupling hole in the width direction, and a plate-shaped hinge plate formed by protruding from the top surface to the top and having a shaft hole through it. , a lower sliding nodal ring in which the sliding tube body is inserted into the lower chord so that the position adjustment hole of the lower chord and the coupling hole are matched to be fastened with bolts; A plurality of yarns formed by passing coupling holes at both ends, respectively, configured to alternately connect the upper sliding point ring and the lower sliding nodal ring of the upper chord and the lower chord in one and the other oblique direction. It is intended to provide a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring.

In addition, a fixing hole is formed through the coupling pipe of the upper bracket and the lower bracket in the width direction, and the upper chord and the lower chord inserted into the coupling pipe have corresponding bracket fastening holes, respectively, through the upper bracket and the upper chord and lower bracket. And the lower chord is to provide a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that each is fastened with bolts.

In addition, it is intended to provide a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring, characterized in that the positioning holes of the upper and lower chords are formed as long holes in the horizontal direction.

In addition, it is intended to provide a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring, characterized in that the positioning holes of the upper and lower chords are formed at regular intervals in the longitudinal direction.

In addition, the prefabricated walkway expansion of the bridge structure using the truss method and the sliding nodal ring, characterized in that a plurality of positioning holes of the upper chord and the lower chord are formed only in some sections of the part where the upper sliding nodal ring and the lower sliding nodal ring are fixed, respectively. We want to provide you with a device.

In addition, the hinge plate of the upper sliding nodal ring and the lower sliding nodal ring is to provide a prefabricated sidewalk extension device for a bridge structure using a truss method and a sliding nodal ring, characterized in that each pair is configured to be spaced apart from each other by a certain distance.

In addition, the upper bracket is configured so that a vertical plate-shaped hinge plate formed by passing through a shaft hole protrudes downward from the lower surface of the coupling pipe, and the yarn located at one end of the upper bracket has both ends connected to the hinge plate of the upper bracket, respectively. It is intended to provide a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring, characterized in that it connects the hinge plate of the lower chord sliding nodal ring.

In addition, the hinge plate of the upper bracket is to provide a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that a pair is configured to be spaced apart from each other.

In addition, the length of the upper chord is to provide a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring, characterized in that the length of the upper chord is formed longer than the length of the lower chord.

In addition, (a) installing upper brackets on the side of the bridge structure at regular intervals, and installing lower brackets at a predetermined distance below the upper brackets, respectively; (b) assembling the upper and lower chords to the upper and lower brackets, respectively; (c) inserting and fixing the upper sliding nodal ring and the lower sliding nodal ring to the upper chord and the lower chord, respectively; (d) assembling a plurality of yarns so as to alternately connect the upper sliding point ring and the lower sliding nodal ring in one and the other oblique directions; (e) installing joists at right angles at regular intervals in the longitudinal direction on top of the upper chord, and constructing flooring on top of the joists; of a bridge structure using a truss method and sliding nodal rings, characterized in that it comprises It is intended to provide a sidewalk expansion method of a bridge structure using a prefabricated sidewalk expansion device.

The prefabricated sidewalk expansion device of a bridge structure using a truss method and sliding nodal ring and the method of extending a sidewalk of a bridge structure using the same of the present invention do not install a separate lower support structure when a sidewalk is newly established or expanded on a bridge structure, etc. After installing the upper and lower chords by protruding from the side, inserting and fixing the sliding nodal rings on the upper and lower chords, constructing a saber between the upper and lower chords to assemble them in a truss method, which makes construction very easy. , the sliding nodal ring or the number and specification of the members can be varied, so it can respond in various ways according to the size of the expanding walkway, and it has a very useful effect of securing structural stability because it is composed of a truss structure.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a perspective view of a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring of the present invention.
FIG. 2 is an exploded perspective view of FIG. 2 .
3 is a view showing a bridge structure in which a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring of the present invention is installed.
FIG. 4 is a view showing another embodiment of FIG. 3 .

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment will be described in detail.

1 is a perspective view of a prefabricated sidewalk expansion device for a bridge structure using a truss method and a sliding nodal ring of the present invention, and FIG. 2 is an exploded perspective view of FIG. 2 .

As shown in FIGS. 1 and 2, the prefabricated walkway expansion device 1 of the bridge structure using the truss method and the sliding nodal ring of the present invention includes an upper bracket 10 and a lower bracket to protrude and attach to the side of the bridge structure ( 20), the upper bracket 10 and the lower bracket 20, the upper chord 30 and the lower chord 40, and the upper chord 30 and the lower chord 40 are inserted into and slid to change the position The upper sliding nodal ring 50 and the lower sliding nodal ring 60, the upper sliding nodal ring 50 and the lower sliding nodal ring 60 of the upper chord 30 and the lower chord 40, which are adjusted and fixed, It consists of a plurality of yarns 70 configured to alternately connect one side and the other side in an oblique direction.

As shown, the upper bracket 10 has a fixing plate 110 formed by passing a plurality of fixing holes 111 in a vertical plate shape, and an inside that protrudes outward from the other side of the fixing plate 110 and is empty. It consists of a coupling tube 120 in the shape of a rectangular tube with a certain length.

The cross section of the coupling tube 120 is formed smaller than the size of the fixing plate 110, and the coupling tube 120 is coupled to the center of the fixing plate 110 by various known methods such as welding, and the fixing hole of the fixing plate 110 ( 111) is formed on the outside of the coupling pipe 120 so that it can be easily installed using an anchor or the like to the bridge structure.

The lower bracket 20 also has the same shape as the upper bracket 10, a vertical plate-shaped fixing plate 210, and a rectangular tube shape with a hollow inside and a certain length protruding outward from the other side of the fixing plate 210 Combination It is made of a pipe 220, and is configured to be spaced a certain distance from the lower part of the upper bracket 10.

The upper chord 30 is made of a rectangular tube shape of a certain length, and one end is inserted into the coupling tube 120 of the upper bracket 10 to be fastened by various methods such as welding and bolting. The same as the coupling tube 120 As a cross section, the size of the inner cross section of the coupling pipe 120 and the size of the cross section of the phase current 30 are made to be the same or slightly smaller in size.

The upper chord 30 configured as described above has a position adjustment hole 320 penetrating in the width direction to facilitate fastening of the yarn 70 described later.

The lower chord 40 is made of a rectangular tube shape of a certain length, and one end is inserted into the coupling tube 220 of the lower bracket 20 to be fastened in various ways such as welding and bolting. The same as the coupling tube 220 As a cross section, the size of the inner cross section of the coupling pipe 220 and the size of the cross section of the lower chord 40 are made to be the same or slightly smaller in size.

In particular, when the upper bracket 10 and the lower bracket 20 are inserted and fastened by inserting the upper chord 30 and the lower chord 40, the coupling pipe 120 and 220 pass through in the width direction to form a fixing hole 121 ) 221 is formed, and bracket fastening holes 310 and 410 corresponding to the upper chord 30 and the lower chord 40 inserted into the coupling tubes 120 and 220 are through, respectively, so that the upper bracket (10), the upper chord 30, the lower bracket 20, and the lower chord 40 may be fastened with bolts 90, respectively.

The lower chord 40 configured as described above is formed by penetrating the position adjustment hole 420 in the width direction to facilitate fastening of the yarn 70 to be described later.

In particular, the position adjustment holes 320 and 420 of the upper chord 30 and the lower chord 40 are formed at regular intervals in the longitudinal direction so that the yarn 70 can be fastened with the bolt 90 at a desired position. At this time, the position adjustment holes 320 and 420 of the upper chord 30 and the lower chord 40 may be formed at regular intervals along the entire length, respectively, the upper sliding nodal ring 50 and the lower sliding A plurality of nodal rings 60 may be formed at regular intervals only in a part of the fixed portion.

At this time, the position adjustment holes 320 and 420 of the upper chord 30 and the lower chord 40 are formed as long holes (not shown) in the horizontal direction before and after fastening the bolt 90 of the yarn 70 It can also be used to correct position adjustment or coupling errors.

An upper sliding nodal ring 50 and a lower sliding nodal ring 60 are inserted into the upper chord 30 and the lower chord 40 as described above, respectively.

The upper sliding nodal ring 50 and the lower sliding nodal ring 60 have the same shape and are formed with only the directions of the hinge plates 530 and 630 different.

The upper sliding nodal ring 50 and the lower sliding nodal ring 60 are made of rectangular tubes with a certain length of hollow inside, and have the same cross-sectional shape as the upper chord 30 and the lower chord 40, respectively, so that the sliding tube body ( 520 and 620 are inserted into the upper chord 30 and the lower chord 40, respectively, and slide to the installation position of the yarn 70.

The sliding tube bodies 520 and 620 penetrate in the width direction so that the coupling hole 521 is formed through the hole, so that, as shown in FIGS. 1 and 2, the sliding tube body 520 and 620 is ) and the lower chord 40, respectively, to match the positioning holes 320 and 420 and the coupling holes 521 and 621, respectively, so that they are fastened with bolts 90.

In particular, the upper sliding nodal ring 50 and the lower sliding nodal ring 60 are formed with plate-shaped hinge plates 530 and 630, respectively, for fastening with the yarn 70. In the upper sliding nodal ring 50, It is formed to protrude downward from the lower surface of the sliding body 520, and the lower sliding nodal ring 60 is formed to protrude upward from the upper surface of the sliding body 620, and the upper sliding nodal ring 50 and the lower sliding The hinge plates 530 and 630 of the nodal ring 60 may be configured so that each pair is spaced apart by a certain distance.

At this time, the shaft holes 531 and 631 of the hinge plates 530 and 630 are passed through so that the ends of the yarn 70 can be fastened with the bolts 90.

The yarn 70 is made of a rod or a rectangular cross section of a certain length, and coupling holes 710 are formed through holes at both ends in the longitudinal direction, respectively, so that the upper sliding point ring of the upper chord 30 and the lower chord 40 ( 50) and the lower sliding nodal ring 60 are alternately connected in the inclined direction of one side and the other side.

The yarn 70 is configured such that the sub-sliding nodal ring 50 and the lower sliding nodal ring 60 are alternately connected in the oblique direction of one side and the other side. In particular, the yarn 70 located at one end of the upper bracket 30 ) can be fixed without sliding by fastening one end to the upper bracket 10.

To this end, the upper bracket 10 is configured so that the vertical plate-shaped hinge plate 130 formed by passing the shaft hole 131 protrudes downward from the lower surface of the coupling pipe 120, and the upper bracket 30 The yarn 70 located at one end of the both ends is made to connect the hinge plate 130 of the upper bracket 10 and the hinge plate 630 of the lower sliding nodal ring 60 of the lower chord 40, respectively, , The remaining stay material 70 is configured to alternately connect the upper sliding point ring 50 and the lower sliding nodal ring 60 of the upper chord 30 and the lower chord 40 in one and the other inclined direction.

At this time, the hinge plate 130 of the upper bracket 10 may also be configured such that one pair is spaced apart from each other by a certain distance.

3 is a view showing a bridge structure in which a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring of the present invention is installed, and FIG. 4 is a view showing another embodiment of FIG. 3.

As shown in FIGS. 3 and 4, one pair or two pairs or more are configured in a V shape for structural stability. For this purpose, the length of the upper chord 30 is the lower chord 40 It is formed to a certain length longer than the length of .

In the sidewalk expansion method of a bridge structure using a truss method and a prefabricated walkway expansion device of a bridge structure using a sliding nodal ring of the present invention, first, the upper bracket 10 is installed on the side of the bridge structure 2 at regular intervals, and the upper The lower brackets 20 are installed at a predetermined distance lower than the brackets 10 (a).

The upper bracket 10 is installed on the side of the bridge structure 2 by various known methods such as anchors, and the lower bracket 20 is installed at a certain distance below the upper bracket 10 in the same way.

Thereafter, the upper bracket 10 and the lower bracket 20 are assembled so that the upper chord 30 and the lower chord 40 are positioned in parallel (b).

At this time, the upper chord 30 and the lower chord 40 are fastened to the sub bracket 10 and the lower bracket 20 by various methods such as welding or bolting.

After that, the upper sliding nodal ring 50 and the lower sliding nodal ring 60 are inserted and fixed to the upper chord 30 and the lower chord 40, respectively (c).

Move the upper sliding nodal ring 50 and the lower sliding nodal ring 60 to the upper chord 30 and the lower chord 40, respectively, to the position where the end of the stay 70 is to be fastened, and use the bolt 90 to The upper sliding nodal ring 50 and the lower sliding nodal ring 60 are fastened to the current 30 and the lower chord 40, respectively, to fix them.

Thereafter, a plurality of yarns 70 are assembled to alternately connect the upper sliding point ring 50 and the lower sliding nodal ring 60 in one and the other inclined direction (d).

Finally, the joist 3 is installed in the perpendicular direction at regular intervals in the longitudinal direction on the top of the upper chord 30, and the flooring 4 is installed on the top of the joist 3 to expand the walkway to the bridge structure ( e).

The prefabricated sidewalk expansion device of a bridge structure using the truss method and sliding nodal ring of the present invention and the method of extending a sidewalk of a bridge structure using the same according to the present invention as described above do not install a separate lower support structure when constructing or expanding a sidewalk on a bridge structure or the like. After installing the upper and lower chords by protruding from the side of the bridge structure, inserting sliding nodal rings into the upper and lower chords, constructing a siding between the upper and lower chords and assembling them in a truss method, construction is very easy. In addition, it can respond in various ways according to the size of the expanding walkway because it can run the number and specifications of sliding nodal rings or yarns, and it has a very useful effect of securing structural stability because it is composed of a truss structure.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

1: Prefabricated walkway expansion device of bridge structure
10: upper bracket
20: lower bracket
30: Sang Hyun Jae
40: Ha Hyun-jae
50: upper sliding nodal ring
60: lower sliding nodal ring
70: Private
2: Bridge Structure
3 : Jangseon
4: Flooring

Claims (10)

A fixing plate 110 formed by having a plurality of fixing holes 111 through a vertical plate shape, and a coupling pipe 120 in the shape of a rectangular tube with a predetermined length and a hollow interior protruding to the other side of the fixing plate 110. an upper bracket 10;
It is configured to be spaced apart from the lower part of the upper bracket 10 by a certain distance and has a vertical plate-shaped fixing plate 210 and a rectangular tubular coupling tube 220 with a hollow inside and configured to protrude to the other side of the fixing plate 210 ) And the lower bracket 20 made of;
An upper chord 30 having a rectangular tube shape of a certain length and penetrating in the width direction and having a position adjustment hole 320 therethrough, and having one end inserted into the coupling tube 120 of the upper bracket 10 to be fastened;
A lower chord 40 having a rectangular tube shape of a certain length and penetrating in the width direction and having a position adjustment hole 420 therethrough, and having one end inserted into the coupling tube 220 of the lower bracket 20 to be fastened;
It consists of a rectangular tube with a certain length of hollow inside, and a sliding body 520 formed by passing through in the width direction and having a coupling hole 521 through, and a sliding body 520 formed to protrude from the bottom surface to the bottom and having a shaft hole 531 through It consists of a plate-shaped hinge plate 530 formed by being formed, and the sliding body 520 is inserted into the upper chord 30 to match the position adjustment hole 320 and the coupling hole 521 of the upper chord to the bolt 90 an upper sliding nodal ring 50 to be fastened;
It consists of a rectangular tube with a certain length of hollow inside, and a sliding body 620 formed by passing through the coupling hole 621 through the width direction, and formed to protrude upward from the upper surface, and the shaft hole 631 is through Consisting of a plate-shaped hinge plate 630 formed by being formed, the sliding body 620 is inserted into the lower chord 40 to match the position adjustment hole 420 of the lower chord 40 and the coupling hole 621 to bolt ( 90) and a lower sliding nodal ring 60 to be fastened;
Coupling holes 710 are formed at both ends, respectively, and the upper sliding point ring 50 and the lower sliding nodal ring 60 of the upper chord 30 and the lower chord 40 alternately alternately in one and the other inclined direction. Prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that it comprises a plurality of yarns (70) configured to connect. The method of claim 1,
Fixing holes 121 and 221 are formed through the coupling tubes 120 and 220 of the upper bracket 10 and the lower bracket 20 in the width direction and are inserted into the coupling tubes 120 and 220. The bracket fastening holes 310 and 410 corresponding thereto are respectively passed through the current 30 and the lower chord 40,
The upper bracket 10, the upper chord 30, the lower bracket 20, and the lower chord 40 are each fastened with bolts 90, characterized in that the truss method and the prefabricated walkway expansion of the bridge structure using the sliding nodal ring Device. The method of claim 1,
Prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that the positioning holes 320 and 420 of the upper chord 30 and the lower chord 40 are formed as long holes in the horizontal direction. The method of claim 1,
Prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that the positioning holes 320 and 420 of the upper chord 30 and the lower chord 40 are formed at regular intervals in the longitudinal direction. The method of claim 4,
The positioning holes 320 and 420 of the upper chord 30 and the lower chord 40 are formed in plurality only in a part of the portion where the upper sliding nodal ring 50 and the lower sliding nodal ring 60 are fixed, respectively. Prefabricated walkway expansion device of bridge structure using truss method and sliding nodal ring. The method of claim 1,
The hinge plates 530 and 630 of the upper sliding nodal ring 50 and the lower sliding nodal ring 60 are prefabricated of a bridge structure using a truss method and a sliding nodal ring, characterized in that each pair is configured to be spaced apart at a certain distance sidewalk extension. The method of claim 1,
The upper bracket 10 is configured so that the vertical plate-shaped hinge plate 130 formed by passing through the shaft hole 131 protrudes downward from the lower surface of the coupling pipe 120,
The yarn 70 located at one end of the upper bracket 30 has both ends of the hinge plate 130 of the upper bracket 10 and the hinge plate 630 of the lower sliding nodal ring 60 of the lower chord 40, respectively. Prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that made to connect. The method of claim 7,
The hinge plate 130 of the upper bracket 10 is a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that a pair is configured to be spaced apart from each other. The method of claim 1,
The length of the upper chord 30 is a prefabricated walkway expansion device of a bridge structure using a truss method and a sliding nodal ring, characterized in that the length is formed longer than the length of the lower chord 40. In the sidewalk expansion method of a bridge structure using the prefabricated sidewalk expansion device of a bridge structure using a truss method and a sliding nodal ring according to any one of claims 1 to 9,
(a) installing upper brackets 10 on the side of the bridge structure 2 at regular intervals, and installing lower brackets 20 at a predetermined distance below the upper brackets 10, respectively;
(b) assembling the upper chord 30 and the lower chord 40 to the upper bracket 10 and the lower bracket 20, respectively;
(c) inserting and fixing the upper sliding nodal ring 50 and the lower sliding nodal ring 60 to the upper chord 30 and the lower chord 40, respectively;
(d) assembling a plurality of yarns 70 so as to alternately connect the upper sliding point ring 50 and the lower sliding nodal ring 60 in an oblique direction of one side and the other side;
(e) installing a joist 3 in a right angle direction at regular intervals in the longitudinal direction on top of the upper chord 30, and constructing a flooring 4 on top of the joist 3; characterized in that it comprises a A method of expanding a sidewalk of a bridge structure using a prefabricated sidewalk expansion device of a bridge structure using a truss method and a sliding nodal ring.

Images