KR200253552Y1 - Reinforcement structure of a temporary bridge using a steel bar bolt and bracket - Google Patents

Abstract

The present invention relates to a reinforcing structure used when installing a bridge, and more particularly, to a reinforcing structure for preventing sagging of a bridge using a steel tension bolt and a pillar bracket.

The present invention, in the cross-linked structure to install a steel pile in the place where the steel pillar is to be installed to support the steel pillar and to install a plurality of steel beams on the steel pillar, and to install a perforated plate on the steel beam, The lower pillars are welded to both sides of the steel pillars in the longitudinal direction, and the lower brackets are fixed to the upper pillars at the center, and the reinforcing plates and the base plates are closely attached to the pillar brackets. On the other hand, the steel beam is fixed to the steel beam in the lower part of the longitudinal direction directly to the other fixing bolts, and to the column bracket and the support beam to fasten the steel bar to prevent the phenomenon of sagging phenomenon by fixing with a tension bolt It provides a reinforcing structure of crosslinking using steel bar tension bolt and pillar bracket.

Description

Reinforcement structure of bridge using steel bar tension bolt and column bracket {REINFORCEMENT STRUCTURE OF A TEMPORARY BRIDGE USING A STEEL BAR BOLT AND BRACKET}

The present invention relates to a reinforcing structure used when installing a bridge, and more particularly, to a reinforcing structure for preventing sagging of a bridge using a steel tension bolt and a pillar bracket.

In general, in the case of constructing a small bridge, bridges are installed on the sides thereof. In the bridge construction, deflection occurs due to the construction of the bridge in the state where the large equipment is entered. In some cases, the construction company of the bridge is studying the reinforcement structure of bridge for stability and work efficiency.

The above bridge is generally hypothesized to have a length of about 6 M and a long distance of about 30 M when the landscape is long, and the bridge is provided on the side of the bridge when a small bridge is constructed.

1 is a view showing a state in which a large-sized equipment passes the conventional bridge, the bridge 20, the steel pillar 22 is formed in a truss structure on both sides of the lower portion, the steel pillar 22 is directly The steel beam 24 is fixed to the top by welding to form a bridge bottom plate.

At this time, the reinforcing member 26 is fixed to the steel pillars 22 and the steel beams 24 diagonally, and the steel beams 24 are completed with a bridge 20 in which a perforated plate 28 is installed. .

On top of the bridge 20, a large equipment 30 such as a crane passes.

The conventional cross-linked structure described above had a risk of safety accidents such as a sagging phenomenon continuously occurring due to the entry of large equipment, resulting in a risk of collapse, and a problem of excessive maintenance cost to solve such problems. .

In order to solve the problems of the present invention, the present invention, by using only the tension bolts and pillar brackets, the tension bolt can be prevented as much as possible to prevent sagging of crosslinking, and the construction is simple. It is an object of the present invention to provide a reinforcing structure of crosslinking using steel bar tension bolts and pillar brackets, which can be secured as much as possible and can reduce maintenance costs of crosslinking.

The present invention, in order to achieve the above object, the present invention, by installing a steel pile in the place where the steel pillars are installed to support the steel pillars and to install a plurality of steel beams on the steel pillars, In the cross-linked structure in which a perforated plate is provided in the upper part, the lower base plate is welded to both sides of the steel column in the longitudinal direction, and the lower base plate is fixed to the column bracket in the upper center, and the post bracket is on both sides. While fixing the reinforcing plate and the base plate in close contact with the fixing bolts, the steel beams are fixed to the steel beams directly under the longitudinal direction with other fixing bolts, and the sagging brackets and the support beams are prevented from sagging. In order to provide a reinforcing structure of crosslinking using a steel bar tension bolt and a pillar bracket, which is a structure in which steel bars are fastened to secure a tension bolt.

1 is a view showing a state that a large equipment passes the conventional bridge.

Figure 2 is a view showing a state in which large equipment passes the bridge of the present invention.

Figure 3 is a perspective view showing the reinforcing structure of the bridge using the steel bar tension bolt and pillar bracket of the present invention.

Figure 4 is a side view showing the reinforcing structure of the bridge using the steel bar tension bolt and pillar bracket of the present invention.

Figure 5 is a side view showing the pillar structure of the bridge of the present invention.

Figure 6 is a flow chart showing a state of installing the bridge of the present invention.

<Brief description of symbols for the main parts of the drawings>

50: bridge 52: steel bridge pile

54: steel pillar 55: steel beam

56: bottom plate 57: perforated plate

58: side brace 60: pillar bracket

62,78: steel bar coupling hole 63: reinforcement plate

64: reinforcement plate 66: base plate

67: tension bolt 68,69: fixing bolt

70: braces 72: fixed bolt hole

74: square cutting groove 76: connecting projection

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

2 is a view showing a state in which large equipment is passed through the bridge of the present invention, the bridge 50 is provided with a pillar bracket 60 on the side of the steel column 54 and the bridge 50 in the longitudinal direction The support 70 is installed, in which case the column bracket 60 and the support 70 are deflected even when a large equipment 90 such as a crane enters the upper portion of the bridge due to the coupling of the steel rod 80. This does not occur.

Figure 3 is a perspective view showing the reinforcing structure of the bridge using the steel bar tension bolt and pillar bracket of the present invention, Figure 4 is a side view showing the reinforcing structure of the bridge using the steel bar tension bolt and column bracket of the present invention.

The bridge 50 is provided with a steel pillar 54 formed in a truss structure on both sides in the longitudinal direction, and a plurality of steel beams 55 are welded to the steel pillar 54 in the width direction thereof.

The lower base plate 56 is welded to the side of the steel column 54 in the longitudinal direction, and the lower bottom plate 56 is provided with a column bracket 60 at the center.

The above-described steel beam 55 is seated on the upper portion of the perforated plate 57 in a constant arrangement, the steel beam 55 is fixed to the support beam 70 in the lower middle portion in the longitudinal direction.

At this time, when the bridge 50 is fastened to the pillar bracket 60 and the brace 70 with the steel rod 80, the sag of the bridge 50 can be prevented to the maximum.

FIG. 5 is a side view illustrating a pillar structure of crosslinking according to the present invention, in which the lower bottom plate 56 is welded to a side surface in the longitudinal direction to the steel pillar 54 and the steel pillar 54 and the lower bottom plate 56. ) Is the diagonal side reinforcement 58 is coupled to the fixing bolt 68.

The lower bottom plate 56 is fixed to the upper pillar bracket 60, the pillar bracket 60 is provided with reinforcing members on both sides to firmly secure the pillar bracket 60 and the lower bottom plate 56. The fixing bolt 67 is coupled to the pillar bracket 60 while the reinforcing plate 63 is in close contact with the pillar bracket 60.

Figure 6 is a flow chart showing a state of installing the bridge of the present invention, the first step is the step of installing the steel bridge pile 52 in the position where the steel column is to be installed, the second step is the steel material on top of the steel pile It is a step of fixing by mounting the pillar (54).

The third step is to install a plurality of steel beams 55 in the width direction of the steel column, the fourth step is to install a porous plate 57 on the upper portion of the steel cross beam.

The fifth step is to fix the lower bottom plate 56 and the pillar bracket 60 on both sides of the steel pillar, wherein the pillar bracket 60 is formed with a steel bar coupling hole 62 in the upper portion of the steel rod 80. ) Is coupled and the reinforcing plate 64 is in close contact with the bottom bracket 56 so as to be firmly fixed to the pillar bracket 60, and the base plate 66 is in close contact with the reinforcing plate 64. It is fixed by the fixing bolt 69 in the state.

The sixth step is to fasten the brace 70 made of steel in the lower portion of the middle portion of the longitudinal direction of the steel beam to the steel beam with a fixing bolt 69, wherein the brace 70 is a plurality of fixed bolt holes (72) is formed in the longitudinal direction can fasten the brace and the steel beam, and the brace 70 can be coupled to the steel bar connected to the column bracket in the relation that the steel bar coupling hole 62 is formed in the width direction. In the brace 70, the square cutting groove portion 74 is formed on both sides of the longitudinal direction at right angles to the center, and connecting projections 76 are formed on both sides of the square cutting groove portion 74. The steel bar coupling hole 62 is installed in the connection protrusion 76.

The seventh step is a step of connecting the steel rod 80 between the pillar bracket and the brace and finishing with the tension bolt 67, it can prevent the phenomenon of sagging in the longitudinal direction when the above operation is completed.

As can be seen in the above-described configuration, it is natural that the bridge 50 can be extended by providing a plurality of steel pillars 54, pillar brackets 60, and braces 70. will be.

In addition, in the bridge 50, the brace 70 is installed in the middle portion of the longitudinal direction in which the most sag occurs, and the steel rod 80 is fastened to the brace 70 and the pillar bracket 60. It is possible to prevent the phenomenon of crosslinking sag as much as possible due to the finishing with the tension bolt (67).

It describes the effect of the configuration and operation of the present invention described above.

The reinforcing structure of crosslinking using the steel bar tension bolt and column bracket of the present invention can prevent the bridging of the bridge as much as possible by tightening only the tension bolt by using the steel bar tension bolt and the column bracket, thereby reducing the maintenance cost of the bridge as much as possible. Has an effect.

In addition, the reinforcing structure of the crosslinking, the manufacturing and construction is simple, can reduce the installation cost of the crosslinking and has the effect of ensuring the safety of the crosslinking to the maximum.

Claims (2)

In the bridge structure in which the steel pillar is installed in a place where the steel pillar is to be installed to support the steel pillar and the steel beam is installed in the steel pillar, and a double-plate is installed on the steel beam. The lower bottom plate 56 is welded to both sides of the lengthwise direction at 54, and the lower bottom plate 56 is fixed to the pillar bracket 60 at the upper center thereof, and the pillar bracket 60 is provided at both sides. The reinforcing plate 64 and the base plate 66 are in close contact with each other and fixed with a fixing bolt 68, while the reinforcing plate 63 is in close contact with the pillar bracket 60 and the steel beam 55 is attached thereto. Fasten the brace 70 made of steel in the lower portion of the longitudinal direction with another fixing bolt 69, fastening the steel bar 80 to the pillar bracket 60 and the brace 70 to prevent sagging. Rod tension bolt and column which is structured to fix both ends with tension bolt (67) The reinforcing structure of the cross-linked using a racket. According to claim 1, wherein the brace 70 is formed on both sides in the longitudinal direction of the square cutting groove portion 74 is formed by cutting the center at a right angle and the connecting projection 76 on both sides of the square cutting groove portion 74. Forming, reinforcing structure of the bridge using the steel rod tension bolt and column bracket, characterized in that the structure that can be connected to the steel bar 80 by installing the steel bar coupling hole 62 in the connection projection (76).