KR20040022576A - Reinforcement Equipment for Pier Foundation of Bridge and Reinforcement Method for The Same - Google Patents

Abstract

PURPOSE: A reinforcement device for the pier foundation of a bridge is provided to reduce the working progress and the incidental expenses required for installation and to install in a deep-water area easily. CONSTITUTION: The reinforcement device for the pier foundation of a bridge contains: a form(10) installed at the appointed distance from the outer circumference of the pier foundation(2) around the pier foundation(2), provided with a concreting space(4) and buried under the bottom(2); a lining member(20) installed to cover up the opposite side of the pier foundation(2) of the form(10); and a guide device composed of many space frames(32) which are arranged between the form(10) and the pier foundation(2) at regular intervals and fixed to the form(10), many wheels(34) which are coupled to the opposite side of the form(10) of the space frame(32) rotatively and installed to contact with the outer side of the pier foundation(2), and a reinforcement frame connecting the space frame(32) and the form(10) for reinforcement.

Description

Reinforcement Equipment for Pier Foundation of Bridge and Reinforcement Method for The Same}

The present invention relates to a bridge foundation reinforcement device and a reinforcement method of the bridge, and more particularly, a guide device is installed between the formwork and the bridge foundation, one side of which is wrapped with a lining member, and is naturally seated on the floor and the bottom of the formwork is bottomed. The present invention relates to a bridge foundation reinforcement device and a method for reinforcing bridges that can be easily embedded in and fixed to the bridge to reduce work time and cost.

In general, a foundation is formed in a well cylinder shape or a square pillar shape in a lower portion of a bridge bridge that is installed across a river, a river, or the sea.

Most of the bridge foundations of the bridges are installed in a state where some or all of them are submerged in water, and as time passes, erosion or erosion of the surrounding ground occurs by the flowing water. Therefore, reinforcement is performed through various reinforcement devices and reinforcement methods using the same.

The method for reinforcing the bridge foundation of the bridge is to install the formwork to maintain a certain distance from the outside of the bridge foundation, and to reinforce the reinforcing bar in the middle of the formwork and the well, and then cast concrete, Prior to the installation, the construction of temporary screening works is carried out to build banks around the piers or to embed sheet piles to prevent water access.

The bridge foundation reinforcement method of the conventional bridge made as described above is a formwork installation work separately from the temporary barrier, the work is cumbersome and waste of additional equipment and cost required for installation.

In addition, since the formwork installed after the temporary film work is difficult to fix by maintaining a certain distance from the outer surface of the bridge foundation, it is first fixed by electric welding to the reinforcing bars. Therefore, the dismantling operation of the formwork is complicated and difficult, and if it is not dismantled, the formwork is corroded, resulting in water pollution.

In addition, in the conventional bridge foundation reinforcement method of the bridges made as described above, if the clogging through the seat pile, the length of the pile pile is constant on the floor located in the water regardless of the surrounding topography of the bridge foundation may be a weak part. .

An object of the present invention is to solve the problems as described above, the one end of the formwork is integrally coupled to the lining member formed in a shape corresponding to the topography of the installation place and is poured along the periphery of the bridge foundation It is to provide a bridge bridge foundation reinforcement method that is fixed with concrete, guided naturally along the outer peripheral surface of the bridge foundation by a guide device installed at regular intervals between the formwork and the bridge foundation, and the concrete is poured with a uniform thickness as a whole. .

1 is a cross-sectional plan view showing an embodiment of the bridge foundation reinforcement device of the bridge according to the present invention.

Figure 2 is a cross-sectional view showing one embodiment of the bridge foundation reinforcement device of the bridge according to the present invention.

Figure 3 is an enlarged plan view of a guide device showing an embodiment of the bridge foundation reinforcement device of the bridge according to the present invention.

4 is an enlarged view of a portion A of FIG. 1;

5 is an enlarged view of a portion B of FIG. 2;

Figure 6 is a development view showing the lower shape of the formwork in one embodiment of the bridge foundation reinforcement device of the present invention.

Figure 7 is a development view showing another embodiment of the formwork lower shape in one embodiment of the bridge foundation reinforcement device of the bridge according to the present invention.

Figure 8 is an installation state cross-sectional view showing one embodiment of the bridge foundation reinforcement method of the bridge according to the present invention.

9 is a cross-sectional view taken along the line C-C in FIG.

Bridge piers reinforcement device proposed by the present invention is installed at a predetermined interval from the outer peripheral surface of the bridge foundation along the circumference of the bridge to form a concrete pouring space and one end is embedded in the floor, the formwork The lining member is installed so as to surround the opposite side of the pier foundation, and the plurality of spacing members and the spacing member are arranged at predetermined intervals between the formwork and the pier foundation and one end is fixed to the formwork. A guide consisting of a plurality of wheels rotatably coupled to the opposite sides of the formwork, the outer circumferential surface of which is always in contact with the outer surface of the pier foundation, and a reinforcing member connecting and supporting the middle of the spacing member and the formwork; Including the device.

The formwork and the lining member are formed in two vertical portions symmetrical to each other on one vertical surface passing through the center line of the bridge foundation, and the end faces facing each other are vertically folded toward the bridge foundation to form a vertical connection overlap each other It is preferable to fix through the fastening member.

The formwork and the lining member are divided into two or more parts to have a predetermined height, and the end faces which are positioned up and down each other are bent vertically toward the pier foundation, respectively, to form a horizontal connection portion overlapping each other to form a fastening member. It is possible to be fixed through.

The end embedded in the bottom of the formwork and lining member is preferably formed in a shape corresponding to the topography around the bridge foundation, it is possible to form a sawtooth shape.

And the bridge foundation reinforcement method of the bridge proposed by the present invention is installed bisected symmetrically along the circumference at a predetermined interval from the foundation of the bridge and vertically connecting the vertical connection portion of the end faces of the formwork combined with the lining member as a fastening member A guide device is installed between the formwork and the bridge foundation, and the wheels are contacted with the outer peripheral surface of the bridge foundation and the roller contacts with a constant frictional force, and the formwork is guided to the guide device moving along the longitudinal direction of the outer peripheral surface of the bridge foundation. It is lowered to be fixed to the floor, and the formwork is formed at the set height by fastening the horizontal connecting portion formed at the portions where the formwork meets up and down with a fastening member, and the concrete is poured between the formwork and the foundation of the piers through the tremi tube. .

Between the formwork and the bridge foundation it is possible to reinforce the reinforcing bar at a predetermined interval to be fixed to the guide device.

Before placing the concrete, it is preferable to discharge the soft ground soil between the formwork and the bridge foundation to the outside using a sludge pump.

Next, a preferred embodiment of the bridge foundation reinforcement device and the reinforcement method of the bridge according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of the bridge foundation reinforcement device of the bridge according to the present invention is installed at a predetermined interval from the outer peripheral surface of the bridge foundation 2 along the circumference of the bridge foundation 2, as shown in Figs. Forming the concrete pouring space (4) and one end portion is embedded in the bottom (2) and the lining member 20 is installed to surround the opposite side of the bridge foundation (2) of the formwork (10) And a plurality of spaced frames 32 and the spaced frames 32 disposed at predetermined intervals between the formwork 10 and the piers foundation 2 and having one end fixed to the formwork 10. The plurality of wheels 34 and the spacing frame 32 and the formwork (34), which are rotatably coupled to the opposite sides of the formwork 10, and whose outer circumferential surface is always partly in contact with the outer surface of the pier foundation 2 above. Guide device (30) consisting of a reinforcing frame 36 to support the reinforcement by connecting 10) It is made, including.

The formwork 10 is formed in a steel plate shape, but not shown in the figure, it is possible to reinforce by installing an angle bar or a square bar at the edge and the middle of the opposite side on which the lining member 20 is installed.

Although the formwork 10 and the lining member 20 are not shown in the drawings, the through bolts may be penetrated at predetermined intervals and assembled by assembling nuts, and may be coupled by riveting.

The lining member 20 is made of F. R. P having good strength and excellent corrosion resistance, and may be made of epoxy resin.

The lining member 20 is formed in a plate shape having a thickness of approximately 1.5mm ~ 2mm, it is also possible to form a thickness of more.

The wheel 34 of the guide device 30 is rotatably supported by the spacing frame 32 using the hinge shaft 35.

The formwork 10 and the lining member 20 is divided into two parts in a shape symmetrical to each other on one vertical surface passing through the centerline of the bridge foundation 2, the end faces facing each other, the bridge foundation (2) It is preferable to form a vertical connecting portion 12, 22 overlapping each other by bending vertically toward the) to be fixed through the fastening member 40.

Although the formwork 10 and the lining member 20 are not shown in the drawings, the formwork 10 and the lining member 20 may be divided into three parts or four parts, and may be formed by dividing them further according to their size and weight.

And the lining member 20 can be connected to form only one portion of the vertical connecting portion 22, without dividing into two parts.

As the fastening member 40, a through bolt and a nut are preferable.

The formwork 10 and the lining member 20 is divided into two or more parts to have a predetermined height, and the horizontal end portion is vertically folded toward the pier foundation toward each other and positioned up and down, respectively, overlapping each other It is possible to form (14) and (24) to fix it through the fastening member (40).

The lower ends of the formwork 10 and the lining member 20 are formed in a shape corresponding to the topography around the pier foundation 2 as shown in FIG. 6 from the surface of the bottom 3. It is preferable because it is embedded at a depth. That is, the formwork 10 and the lining member 20 located at the bottom end is formed to a height corresponding to the height of the surrounding bottom of the bridge foundation (2).

The terrain around the pier foundation (2) is preferably set to the lower end shape of the formwork 10 and the lining member 20 by irradiation to the soft ground layer.

In addition, the lower end of the formwork 10 and the lining member 20 is preferably formed in the sawtooth shape, as shown in Figure 7 can be fixed to the bottom (3) relatively easily.

Although the formwork 10 and the lining member 20 are not shown in the drawings, the lining member 20 is spaced apart from the formwork 10 when the lower end is wrapped around the bottom 2 with a steel sheet to fix the nail 10. It is preferable because it can prevent that.

In addition, the die 10 and the lining member 20 can be formed on one side or both sides of the blade gradually thicker from the lower end toward the top.

And one embodiment of the bridge foundation reinforcement method of the bridge according to the present invention, as shown in Figures 8-9, is bisected in a symmetrical shape along the perimeter at a predetermined interval from the bridge foundation (2) and integrally lining The vertical connection portions 12 and 22 of the end surfaces of the formwork 10 to which the member 20 is coupled to each other are fixed by the fastening member 40, and the pier is formed between the formwork 10 and the pier foundation 2. A guide device 30 having a wheel 32 in contact with the outer circumferential surface of the foundation 2 and rolling contact with a constant frictional force is installed, and the guide 10 moves along the longitudinal direction of the outer circumferential surface of the pier foundation 2. It is lowered to be guided to the device 30 to be fixed to the bottom (3) of the water, by fastening the horizontal connecting portions (14) and (24) formed in a portion where the above-mentioned die 10 meet up and down with a fastening member (40) It is formed at a set height, and between the formwork 10 and the foundation of the bridge (2) tremi tube (7) The concrete (5) is poured through.

Although the work of installing the formwork 10 and the guide device 30 is not shown in the drawings, it is preferable to work by installing a buoy or the like floating on the water.

The formwork 10 is preferably settled gradually in a state supported by a crane or the like.

The formwork 10 is fixed to the bottom (3) by tapping the upper portion of the formwork (10) on the surface of the water, such as anti-stroke, the guide device 30 is installed from the top of the part to be hit on the floor (3) It is desirable to.

It is possible to reinforce the reinforcing bar 50 at predetermined intervals so as to be fixed to the guide device 30 between the formwork 10 and the bridge foundation 2.

Although not shown in the drawings before the above-mentioned concrete 5 is placed, it is preferable to discharge the soft ground soil between the formwork 10 and the bridge foundation 2 to the outside using a sludge pump.

In the above described the preferred embodiment of the bridge foundation reinforcement device and the reinforcement method of the bridge according to the present invention, the present invention is not limited to this, but various modifications within the scope of the claims and the detailed description of the invention and the accompanying drawings. Can be carried out, and this also belongs to the scope of the present invention.

According to the bridge piers reinforcement device and the reinforcement method of the bridge according to the present invention made as described above, can be installed at the same time the temporary barrier and formwork, reducing the work process and the additional equipment and cost required for installation, even in deep water Easy to install

According to the bridge foundation reinforcement device and the reinforcement method of the bridge according to the present invention made as described above, the outer surface of the formwork is wrapped with a lining member to prevent corrosion or erosion of the formwork or concrete, thereby extending the life of the bridge.

According to the bridge foundation reinforcement device and the reinforcement method of the bridge according to the present invention made as described above, a constant distance is maintained through the gap retaining member of the guide device installed between the formwork and the bridge foundation and the wheel of the guide device is the outer surface of the bridge foundation It is easily settled and fixed since it is naturally settled in water in constant contact with water.

In addition, since the portion formed in the bottom of the formwork and the lining member is formed in a length corresponding to the periphery of the pier foundation, the soft ground is supported on the floor with uniform support force without generating a weak portion.

Claims (8)

Formwork is installed at a predetermined distance from the outer peripheral surface of the bridge foundation along the circumference of the bridge foundation to form a concrete pouring space, one end is embedded in the floor, Lining member is installed to surround the opposite side of the bridge foundation of the formwork, Arranged at predetermined intervals between the formwork and the pier foundation, and one end portion is rotatably coupled to the opposite side of the formwork of the plurality of spacing members and the spacing member, respectively, the outer peripheral surface is always part of the A bridge foundation reinforcement device comprising a guide device comprising a plurality of wheels installed to contact the outer surface of the bridge foundation and a reinforcing member for connecting and supporting the intermediate portion and the formwork of the space keeping member. The method of claim 1, The formwork and the lining member are formed in two vertical portions symmetrical to each other on one vertical surface passing through the center line of the bridge foundation, and the end faces facing each other are vertically folded toward the bridge foundation to form a vertical connection overlap each other Bridge foundation reinforcement device for fixing the bridge through the fastening member. The method of claim 1, The formwork and the lining member are divided into two or more parts to have a predetermined height, and the end faces which are positioned up and down each other are bent vertically toward the pier foundation, respectively, to form a horizontal connection portion overlapping each other to form a fastening member. Bridge foundation reinforcement of bridge fixed through. The method according to any one of claims 1 to 3, Bridge end reinforcement of the bridge is formed in the end portion of the formwork and lining member is formed in a shape corresponding to the topography around the bridge foundation. The method according to any one of claims 1 to 3, Bridge end reinforcement of the bridge to form a sawtooth end portion embedded in the formwork and the bottom of the lining member. It is installed in a symmetrical shape along the periphery with a predetermined distance from the foundation of the piers, and fasten the vertical connection portion of the end faces of the formwork to which the lining members are coupled together, with fastening members, Between the formwork and the pier foundation is installed a guide device coupled to the outer circumferential surface of the pier foundation and the wheel contacting the rolling contact with a constant friction, The formwork is fixed to the floor by lowering it to be guided to the guide device moving along the longitudinal direction of the outer peripheral surface of the bridge foundation, Forming the formwork to a set height by fastening the horizontal connection portion formed in the portion where the formwork meets up and down with a fastening member, Bridge foundation reinforcement method of the bridge consisting of the process of placing concrete through the tremi tube between the formwork and the bridge foundation. The method of claim 6, Bridge foundation reinforcement method of the bridge for reinforcing bars at predetermined intervals to be fixed to the guide device between the formwork and the bridge foundation. The method of claim 6, Bridge foundation reinforcement method of the bridge to discharge the soft ground soil between the formwork and the bridge foundation to the outside using a sludge pump before the concrete is poured.