KR100632816B1 - Construction for preventing from upset of i-girder for bridge - Google Patents

Abstract

A safety device for preventing an I-girder from being turned over is provided to construct conveniently by adjusting length and height according to the size of the I-girder, to increase bearing force by fixing a lower bar with an anchor bolt, and to absorb movement by mounting a movement restricting member. A safety device(900) for preventing overturn includes plural anchor bolts(200) installed in an upper part of pier coping, one set of two lower bars(300) combined with the anchor bolt by a nut(N), a movement restricting member(400) contacted between the lower bar and an I-girder to absorb vibration, an upper bar(500) inserted to an upper part of the lower bar and combined by bolting, and a horizontal bar(600) installed to the upper bar to adjust length. The safety devices are fixed at both sides of the I-girder, and the movement restricting member is contacted and supported between the lower bar and the I-girder. A first pipe(310) of the lower bar is combined with the anchor bolt by the nut, and the first pipes, first and second reinforcing pipes(320,330) for reinforcing the first pipe and first, second and third connecting pipes(340,350,360) horizontally welding the first pipes are integrally fixed to the lower bar by welding.

Description

Fall prevention safety device of I type girder {CONSTRUCTION FOR PREVENTING FROM UPSET OF I-GIRDER FOR BRIDGE}

1 is a view showing a fall prevention facility of a conventional eye (I) type girder.

Figure 2 is a view showing another fall prevention facility of the conventional eye (I) type girder.

Figure 3 is an exploded perspective view showing a fall prevention facility of the present invention (I) girder.

Figure 4 is a perspective view of the present invention (I) girder and fall prevention facility.

Figure 5 is a cross-sectional installation state of the present fall prevention facility.

FIG. 6 is an enlarged detail of portion A of FIG. 5; FIG.

FIG. 7 is an enlarged detail of portion B of FIG. 5; FIG.

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

100: pier coping 150: child (I) girder

200: anchor bolt 300: lower stage

400: flow preventing material 500: upper portion

600: horizontal belt 900: fall prevention safety device

The present invention relates to a fall prevention device of a prestressed concrete eye (I) girder, in particular to install a square pipe so that the length is adjustable in the horizontal and vertical direction to the joint where the eye (I) girder and the bridge coping is in close contact It relates to a fall prevention safety device of the eye (I) girder to prevent the collapse of the child (I) girder.

Generally, I-type girders made of prestressed concrete beams (PSC-BEAM) or pre-flex beams (FREFLEX BEAM) are made of horizontal top and bottom flanges and vertical webs. A member composed of a configured I-shaped structure is to be seated on the pier coping upper portion of the pier upper portion.

As can be seen in Figure 1, the I (I) -type girder (1) made by pouring concrete is formed a lifting hole (6) in the center of the body, the bridge support block (4) is formed on the top of the bridge coping, bridge Supporting block (4) is installed on the upper bridge support (5) to support the eye (I) type girder (1), wire rope (2) to prevent the collapse of the eye (I) type girder (1) during operation ) And fixing anchor (3) is connected to prevent the flow of the eye (I) girder (1) to prevent collapse.

As can be seen in Figure 2, the side (I) type girder (1) supported by the bridge support block (4) and the bridge support (5) on the top of the bridge coping is supported on both side walls and the side support pipe (15) Through the bolt insertion slit hole 20 and the lifting hole 6 formed in the pipe 15, the circular pipe double-sided bolt 13 is inserted and fastened to the nut 14.

One end of the pedestal 12 is fixed to the lower side pedestal fixing part 11 on the side support pipe 15, and the support rod 17 is attached to the pedestal 12.

The support bar 17 is formed with a support pipe fixing flange 18 and a pedestal fixing flange 19 at the upper and lower lengths thereof, respectively, and the support bar 17 has two fine adjustment keys at the center thereof. ) Is installed, the support rod 17 is fixed to the pedestal fixing flange 19 is bolted to the pedestal 12 is fixed to support the support plate 12 and the side support pipe 15 inclined.

That is, when the pedestal 12, the side support pipe 15 and the support rod 17 are bolted together integrally, it is formed in an inverted P shape to support the eye I-type girder 1 from below.

1 and 2 as described above, the eye (I) type girder (1) is installed in the fall prevention device is installed in the upper portion of the eye (I) type girder (1) according to the flow of the eye ( I) prevents the collapse of the type girder (1).

However, the use of the fall prevention device of the above-mentioned eye (I) type girder (1) has the risk of falling by natural or artificial conditions, so it is necessary to improve the stability of the construction and simplify the installation of the fall prevention device installed. Through this problem, the construction needs to be improved.

That is, the above-described eye (I) type girder (1) is a situation that various forms are being researched and developed on the basis of the improvement of constructional stability and the improvement of workability.

The present invention has been made in consideration of the above-described contents, the present invention, the rectangular pipe is installed in a structure that can be reduced and expanded in the horizontal and vertical directions in order to improve the safety of the hypothesis, close to the eye (I) type girder It is an object of the present invention to provide a fall prevention safety device of an I type girder that can be supported and assembled to be installed to improve the constructability of the fall prevention safety device.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated with reference to an accompanying drawing.

Figure 3 is an exploded perspective view showing a fall prevention facility of the present invention (I) girder, Figure 4 is a perspective view of the fall prevention facility and the eye (I) of the present invention, Figure 5 is a cross-sectional view of the fall prevention facility of the present invention 6 is an enlarged view of portion A of FIG. 5, and FIG. 7 is an enlarged view of portion B of FIG. 5.

Fall prevention safety device 900 is a plurality of anchor bolts 200, buried in the top of the pier coping 100, two sets of lower base 300, the lower stage fastened with a nut (N) to the anchor bolt 200 Closely between the 300 and the eye (I) girder 150, the flow preventing member 400 for absorbing vibration, the upper stand 500 is inserted into the upper end of the two sets of the lower stand 300 and bolted ), It is composed of a horizontal stage 600 is installed to enable the length adjustment between the longitudinal direction of the plurality of upper stages 500 fastened to be spaced apart.

That is, the fall prevention safety device 900, the lower base 300 is fastened with a nut (N) to a plurality of anchor bolts 200 embedded in the upper portion of the pier coping 100, the upper portion of the lower base 300 The upper stage 500 is fastened to the fastening bolt (B) is fixed to both sides of the eye (I) -type girder 150, and fixed in close contact with the upper portion of the plurality of eye (I) -type girder 150, respectively The horizontal stand 600 is positioned and fixed between the upper stand 500, and the flow preventing member 400 is closely supported between the lower stand 300 and the eye (I) girder 150.

A plurality of pier pier coping 100 of the piers are placed in the upper eye (I) type girders 150 in the longitudinal direction is seated every predetermined length and the eye (I) type girders 150 on both sides anchor bolts 200 ) Is embedded so that the upper part protrudes.

That is, a plurality of anchor bolts 200 are embedded in the pier coping 100 in which the eye type I girder 150 is seated.

Pipe 1 310 of the lower base 300 is fastened and fixed to the anchor bolt 200 by the nut N, while the lower base 300 reinforces the two pipe 1 310 and the pipe 1 310. In order to weld the reinforcing pipes 1,2 (320) 330 welded to each other and the pipes 1, 2, 3 (340) 350 (360) horizontally welded to the two pipes 1 (310) are integrally welded. .

The lower stand 200 is an anchor bolt in the anchor bolt hole 316 formed at the lower bent position by using two pipes 1 310 formed by bending a square pipe in an L shape or an inverted L shape. (200) is penetrated and fastened by a nut (N), and the two pipes 1 (310) are connected to each other in the longitudinal direction of the pipes 1,2,3 (340) (350) and (360) in close contact with each other. The reinforcement pipe 1 320 is welded diagonally at the position where the pipe 1 310 and the connecting pipes 1, 3 340, 360 are welded, and the bend position of the pipe 1 310 and the reinforcement pipe 1 320. The reinforcement pipe 2 330 is welded in between, and the lower stand 200 is integrally installed in a structure supported by the reverse P shape.

That is, the lower stand 200 is installed such that two vertical pipes are positioned on both sides of the eye I-girder 150 as shown in FIG. 4, and the lower horizontal pipe of the pier coping 100 is located. Located on the upper surface, the upper stand 500 is fastened and fixed to the upper portion of the two lower sets 200.

The lower stand 200 is manufactured in an L shape or an inverted L shape using a square pipe, and a fastening bolt hole 312 and an anchor bolt hole 316 are respectively formed in the pipe 1 310, and an upper fastening bolt hole. The bolt B is penetrated through the 312 to fasten the pipe 2 520 of the upper table 500, and the anchor bolt 200 is penetrated to the anchor bolt hole 316 to be fastened to the nut N.

The upper stage 500 is formed by welding a rectangular body 510 in a rectangular shape using a rectangular pipe, and four pipes 2 520 protrude from the lower part of the rectangular body 510, respectively, and the pipe 2 520. The protruding pipe 522 protrudes to have a step at a lower portion thereof, and a plurality of fastening bolt holes 524 are formed in the protruding pipe 522.

That is, the upper stand 500 is inserted into the upper portion of the pipe 1 310 of the lower stand 300 is composed of two sets of protrusion pipe 522 is fastened to the fastening bolt (B) is fixed.

In addition, a plurality of eye (I) type girders 150 are seated on the top of the pier coping 100 and the lower base 300 and the upper base 500 are located on the outside where the eye (I) type girders 150 are seated. When each fixed, the flow preventing material 400 is inserted between the eye (I) type girder 150 and the lower stand 300 is in close contact.

The flow preventing material 400 is made of a rubber material to absorb the force to be flowed in the flow preventing material 400 when the flow occurs after the seat (I) type girders 150 are seated.

The upper stand 500 is provided with two horizontal stages 600 in the quadrangular body 510 to prevent the flow of the eye (I) type girder 150.

That is, the horizontal stage 600 is welded to the pipe 3 610 in two rows on both sides of the quadrangular body 510, and has a step between the pipe 3 610, respectively, the length inside the pipe 3 (610) The adjuster 620 is inserted, and the pipe 4 630 is positioned on the length adjuster 620 so that the pipe 3 610, the length adjuster 620, and the pipe 4 630 are horizontally installed.

In other words, the length of the fixed length of the pipe 3, 4 (610, 630) is fastening bolt (B) is inserted into both sides of the fastening bolt hole 612 is formed on one side and both sides, respectively, around the pipe 4 (630) 620 is fixed to adjust the length, the length adjuster 620 is formed with a plurality of fastening bolt holes 622 are inserted into the inside of the pipes 3, 4 (610) 630 to adjust the length. do.

The installation state and the operation state of the fall prevention safety device 900 according to the above-described configuration are as follows.

First, the bridge support is supported on the bridge coping 100 by the bridge support block on the top, and the eye (I) type girder 150 is mounted on the bridge support.

That is, after a plurality of bridges are installed, a plurality of bridge bearing blocks are installed on the bridge coping 100 to support the bridge bearings, and the I-type girder 150 is seated on the bridge bearings.

An anchor bolt 200 is embedded in the upper surface of the pier coping 100 to protrude.

That is, the anchor bolt 200 may be embedded when the pier coping 100 is installed, or may be installed after the pier coping 150 is formed.

When the plurality of eye type I girders 150 are seated in the pier coping 100, the anchor bolts 200 protrude on both sides of the eye type I girder 150, respectively, so that the lower stand 300 is provided. Is fastened and fixed by the anchor bolt 200 and the nut (N).

That is, the lower stand 300 is fastened to the anchor bolt 200 on both sides of the eye (I) -type girder 150, respectively, and is fixed with the nut (N).

In other words, the eye (I) girder 150 has two sets of pipes 1 310, reinforcement pipes 1,2 (320) 330, and connecting pipes 1,2,3 (340) (350) on both sides. 360 is welded to the lower base 300 is formed.

Between the eye (I) type girder 150 and the pipe 1 310 of the lower stand 300, the flow preventing material 400 is in close contact and supported.

That is, the width of the bridge support block 110 for supporting the eye (I) type girder 150 is wider than the eye (I) type girder 150 on both sides of the width direction of the eye (I) type girder 150. The lower base 300 to be installed may be flow, bar flow prevention material 400 is installed therebetween.

In the lower stand 300, the upper stand 500 is installed on the upper portion to be fastened with a bolt (B).

That is, the lower band 300 which is placed in two sets of four pipes 1 310 is installed in the bar, and the protruding pipes 522 of the upper bag 500 are respectively inserted in the upper part of the pipe 1 310. The bolt (B) is fastened.

In this case, a plurality of fastening bolt holes 524 are formed in the protruding pipe 522 of the upper stand 500, and thus the upper stand 500 can be fastened while adjusting the vertical height.

On the other hand, the plurality of eye (I) girder 150 seated on the top of the bridge pier coping 100 of the pier is installed so that the lower stand 300 and the upper stand 500 surrounds the child (I) girder 150 As a result, as shown in FIG. 5, the horizontal stage 600 is installed in two rows between the upper stages 500 to finish.

That is, the horizontal stage 600 is installed in two rows between the upper stage 500 is installed to prevent the flow of the eye (I) -type girder 150, the horizontal stage 600 is the length adjuster 620 and the pipe 4 (630) is to be installed to prevent the flow while adjusting the length.

As described above, the fall prevention safety device 900, the lower stand 300 is fixed to the anchor bolt 200, the upper stand 500 is inserted into the upper portion of the lower stand 300, the upper stand 500 Since it can be installed while adjusting the length in the vertical direction and the horizontal direction by the horizontal stage 600 installed between the it is possible to improve the workability.

That is, the height can be adjusted in the vertical direction by the lower stand 300 and the upper stand 500, and the horizontal length can be adjusted by the horizontal stand 600 installed between the upper stand 500. It can be installed so that not only can be reused, but also can improve the construction.

The effects of the above-described configuration of the present invention will be described below.

The fall prevention safety device of the eye type I girder of the present invention can be installed while adjusting the height and length in the vertical direction and the horizontal direction, and can be installed while appropriately corresponding to the size of the eye type I girder. It is possible to improve the workability, and also the fall prevention safety device has the effect of providing a much stronger support force than the prior art because it is wrapped around the outside of the I (I) type girder and fixed by the anchor bolt.

In addition, the fall prevention safety device is a child (I) girder and lower so that the lower base can be closely supported when the width of the bridge receiving block for supporting the eye (I) girder is formed wider than the eye (I) girder Since the flow prevention material is installed between the units, the flow prevention material can absorb the flow that may be generated from the hump (I) type girder, and thus has the effect of performing safe after work.

Claims (3)

The child of the bridge in which the eye type (I) girder is seated on the top of the pier coping, and the lower base is installed on the side of the eye type (I) girder in the form of inverted blood (P) and is supported by the bridge support on the upper part of the bridge supporting block. In the (I) type girder fall prevention device, A plurality of anchor bolts each buried in the upper both sides on which the pier coping upper eye (I) girder is seated; Two sets of square pipes that are bent or welded so that the pipe 1 penetrates the anchor bolts and is fastened with a nut, and is respectively provided on both sides of an eye type I girder; Two lower bands are inserted into the upper part fixed to both sides of the I type girder and fastened with fastening bolts, and the pipe 2 protrudes perpendicular to the lower corners of the square body, and the protruding pipes have a step at the bottom of the pipe 2. Is formed is inserted into the upper portion of the pipe 1 is fastened with a fastening bolt, the upper stage is formed with a plurality of fastening bolt holes in the protruding pipe to be able to adjust the height in the collecting direction; A flow preventing material provided with a lower stand and an upper stand so as to surround the outside of the eye (I) girder, and made of a rubber material to be in close contact with the eye (I) girder and the lower stand; When a plurality of eye type (I) girders are seated in the pier coping, they are installed between the upper bases installed to surround the upper outer side of the eye type (I) girder, and pipe 3 is welded in two rows horizontally to the upper base, A plurality of fastening bolt holes are formed in the length adjuster to be inserted into the inside of the length adjusting rod and fastened with the pipe 3 and the fastening bolt, and the pipe 4 is positioned at the center to insert the length adjusting bars at both sides to be fastened with the fastening bolt. Fall prevention safety device of the eye (I) type girder, characterized in that. The method of claim 1, Fall prevention safety device 900 is anchor bolt 200 as a fixing means is buried in the upper part of the piercing coping (100) characterized in that the fastening and fastening with the nut (N) through the pipe 1 (310) of the lower base 300 Fall prevention safety device of girder (I). The method of claim 1, The lower base 300 is connected to horizontally welded two pipe 1 310, reinforcement pipes 1,2 320 and 330 welded to reinforce the pipe 1 310, and two pipe 1 310. While the pipes 1,2,3 (340) 350, 360 are welded, Pipe 1 310 formed by bending a square pipe in an L shape or an inverted L shape is formed in two sets, and a plurality of anchor bolt holes 316 are formed in the lower bent horizontal pipe of the pipe 1 310. The pipes 1, 2, 3 (340), 350 and 360 are connected to the two pipes 1 and 310, respectively, and are fixed in a horizontal weld. The reinforcement pipe 1 320 is welded diagonally at the position where the pipe 1 310 and the connecting pipes 1, 3 340, 360 are welded, and the bending position of the pipe 1 310 and the Reinforcing pipe 2 (330) is welded between the lower portion 300 in the form of inverse P is formed, characterized in that the fall prevention device of the eye (I) girder.

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