KR20180127838A - Negative reaction control and displacement absorb device for noise barrier of bridges, girder using the same and construction method thereof - Google Patents

Abstract

The present invention relates to a negative reaction control and displacement absorbing device for a noise barrier of a bridge, which comprises: a lower plate mounted on an abutment portion at both ends of a noise barrier bridge; a rail mounted on the lower plate; and an upper plate sliding on the rail, and mounted on a lower surface at one end of a bridge girder for a noise barrier.

Description

TECHNICAL FIELD [0001] The present invention relates to a girder for a bridge of a soundproofing bridge and a girder using the same, and a girder using the same, and construction method thereof}

The present invention relates to an anti-rebound control and an anti-skid control system for a soundproof wall bridge capable of controlling a negative reaction force that can be generated in a girder while allowing easy construction, and capable of absorbing a displacement caused by expansion or contraction, Absorbing device, an anti-rebound control device for a soundproof wall bridge, and a stretch absorbing device, and a method of constructing the same.

The soundproof wall bridges are bridges that are installed to install soundproof walls when it is difficult to install soundproof walls on existing bridges. Generally, U-shaped receptacles are formed at the upper part of the alternation and bridge piers. And a soundproof wall is provided on the upper surface of the girder.

However, in the case of such a soundproof wall bridge, there is a problem that the girder can be pulled out due to the adverse reaction force acting on the girder due to the wind load acting on the soundproof wall, and the expansion and contraction in the throttle direction due to temperature etc. must be considered. Accordingly, there is a problem that the conventional expansion device is not easily installed.

Korean Patent Laid-Open No. 10-2016-0033561 discloses, as an example of the existing technique, "a bridge substructure for installing a soundproof wall on an existing bridge, in which a U-shaped concave portion is formed at an upper portion of the bridge, And a girder is inserted and installed on the upper portion of the U-shaped recess. An elastic rubber pad is installed on both sides of the U-shaped concave portion, and a soundproof wall base including a slab is installed on the upper surface of the girder. Bridge bridges for installing soundproof walls on existing bridges.

However, even in the case of the above-mentioned technique, there is a problem that sufficient resistance of the negative reaction force which can be applied to the girder by the sound barrier can not be expected, and any correction for the expansion and contraction caused by the temperature or the like in the throttle direction can not be expected.

Korean Patent Publication No. 10-2016-0033561

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a buckling force control and expansion / contraction absorbing structure for a soundproof wall bridge, A girder for a soundproof wall bridge to which a sub-reaction force control and an expansion and contraction absorber for a soundproof wall bridge are mounted, and a method of constructing the same.

The sub-reaction force control and expansion / contraction absorbing device for a soundproof wall bridge according to the present invention comprises: a bottom plate mounted on both-end alternating portions of a soundproof wall bridge; A rail mounted on the lower plate; And a top plate slidable on the rail and mounted on a lower surface of the girder of the bridge for a sound barrier wall.

In one embodiment, the lower plate includes a lower plate base plate coupled to the upper surface of the alternating portion, and a fastening portion formed integrally with the lower plate base plate and having a fastening hole formed therein, And a top plate slide portion formed integrally with the top plate base plate and having a slide hole formed therein, wherein the rail includes a lower rail slidably engaged with the fastening hole, and an upper rail slidably coupled to the upper plate slide portion, . ≪ / RTI >

For example, the lower plate is fastened to the upper surface of the alternating portion, and the upper plate is composed of an upper plate base plate fastened to the lower surface of the girder, and an upper plate slide portion protruding integrally with the upper plate base plate and having a slide hole formed therein And the rail is composed of a lower rail fixed to the lower plate and an upper rail slidable in the upper plate sliding portion.

As one example, the upper plate finishing plate is fastened to both ends of the upper plate slide portion so that the upper rail controls the slide of the upper plate sliding portion.

The present invention also relates to a girder for a sound barrier wall bridge to which the sub-reaction force control and the expansion / contraction absorbing device for the sound barrier wall bridge are mounted.

The method of constructing a girder for a sound barrier wall bridge, in which the sub-reaction force control and the expansion / contraction absorbing device for a sound barrier wall bridge are mounted, includes the steps of: (S10) mounting a lower panel on upper surfaces of alternating portions of a sound barrier wall bridge; (S20) placing a girder at an upper portion of the alternating portion so that the lower plate and the upper plate face each other; Inserting a rail into the lower plate and the upper plate (S30); And fixing the rail inserted in the lower plate (S40).

INDUSTRIAL APPLICABILITY As described above, the present invention has an advantage of improving the structural integrity by controlling the negative reaction force applied to the girder by the sound barrier wall and correcting the elongation and contraction in the throttling direction in the sound barrier wall bridge while facilitating the construction .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 and Fig. 2 are sectional views showing a device of the present invention. Fig.
3 is a perspective view showing a sound barrier wall bridge to which the present invention is applied.
FIGS. 4A and 4B are perspective views showing a state in which the present invention shown in FIG. 1 is installed in a bridge portion and an alternate portion, respectively. FIG.
5 is a block diagram showing a construction method of the present invention;
6A to 6C are schematic views showing a construction method of the present invention.

Hereinafter, preferred embodiments of the present invention will be described.

1 and 2, the auxiliary reaction force control and expansion / contraction absorbing apparatus 100 for a sound barrier wall bridge according to the present invention includes a lower plate 110 mounted on both ends of a sound barrier wall bridge, A rail 130 mounted on the lower plate 110; And an upper plate 120 slidable on the rail 130 and mounted on a lower surface of the girder of the bridge for a sound barrier wall.

That is, as shown in FIG. 3, the present invention is characterized in that the upper plate 120 mounted on the lower surface of one end of the girder 3 where the soundproof wall 4 is installed on the upper portion and the lower plate 110 mounted on the alternating- So that the upper plate 120 integrated with the girder 3 is slid on the rails 130. The rail 130 is fixed by the rails 130 to improve the resistance to adverse reaction force due to the wind load acting on the sound barrier 4, (Displacement) can be absorbed (corrected) in the throttling direction.

As shown in FIG. 3, the soundproof wall bridges are constructed on both sides of the existing bridge (a). The soundproof wall bridges are not bridges that pass through the vehicle but are constructed to be installed on the upper surface of the wall. Between the alternating portion 2 and the alternating portion 2 at both ends and between the bridge portion 1 and the alternating portion 2 and the bridge portion 1 and the bridge portion 1 between the girder 3 and the girder 3) An upper part of the soundproof wall 4 has a basic structure. The basic structure of the soundproof wall 4 is well known in the art and will not be described in detail. The anti-rebound control and expansion / contraction absorbing apparatus 100 for a soundproof wall bridge according to the present invention is constructed between the alternating section 2 and the girder 3 in such a construction as described above, 2 so as to allow the girder 3 to slide on the alternating section 2 so as to absorb the elongation and contraction in the throttling direction.

In the present invention, as shown in FIGS. 1 and 2, two embodiments are shown.

1, the apparatus 100 of the present embodiment is characterized in that the lower plate 110 includes a lower plate base plate 111 fastened to the upper surface of the alternating portion 2, The upper plate 120 includes an upper plate base plate 121 fastened to a lower surface of the girder 3, And a top plate slide part 122 formed integrally with the upper plate base plate 121 and having a slide hole 123 formed therein. The rail 130 is slidably inserted into the fastening hole 113, And an upper rail 132 which is slidable in the slide hole 123.

The lower plate 110 includes a lower plate base plate 111 and a lower plate base plate 111 which are integrally formed with the lower plate base plate 111 and are fastened to the upper surface of the alternating portion 2, As shown in the drawing, the lower plate base plate 111 can be fastened to the upper surface of the alternating portion 2 by using an anchor, but the present invention is not limited thereto.

The fastening part 112 has a fastening hole 113 formed therein and the fastening hole 113 is formed in an inverted T shape so that the lower rail 131 is formed in a reverse T shape, So that the fastening hole 113 can be fastened by sliding.

The upper plate 120 includes an upper plate base plate 121 fastened to a lower surface of the girder 3 and an upper plate slide portion formed integrally with the upper plate base plate 121 and having a slide hole 123 formed therein 122, and anchor may be used for fastening the upper plate base plate 121 to the lower surface of the girder 3, but the present invention is not limited thereto.

A slide hole 123 is formed in the upper plate slide part 122. The slide hole 123 is formed in a T shape so that the upper rail 132 is formed in a T- And the slide is inserted in the slide hole 123.

1, the upper plate 120 is longer than the lower plate 110 in the direction of the throttle. The rail 130 is fixed by a slide in the lower plate 110, while the upper plate 120 The upper plate 120 must be slid in the direction of the throttle on the rail 130.

As described above, the rail 130 includes a lower rail 131 and an upper rail 132. The rail 130 is formed in a reverse T shape and a T shape, And the lower plate 110 and the upper plate 120 are fixed by the rail 130 and the upper plate 120 is slid.

An upper end surface of the slide hole 123 and an upper surface of the upper rail 132 are made of various materials such as PETE and stainless steel to improve the resistance to abrasion while facilitating sliding, It is preferable that a buffer plate is formed on the inner periphery of the lower end so that the upper rail 132 can improve the fatigue resistance due to continuous contact and impact on the inner periphery of the lower end of the slide hole 123 during the sliding process.

2, the device 100 of the present embodiment has the same structure as the device 100 of the first embodiment, the top plate 120 and the rail 130, but the structure of the bottom plate 110 is The lower plate 110 of the present embodiment is formed in a flat plate shape and fastened to the upper surface of the alternating portion 2 so that the rail 130 is fixed to the lower plate 110 by welding or the like.

The lower plate 2 is fixed to the alternating portion 2 and the upper plate 120 is fixed to the girder 3 in the same manner as in the first embodiment and then the girder 3 to which the upper plate 120 is fixed The rail 130 is inserted into the slide hole 123 of the upper plate 120 and then the lower surface of the rail 130 is inserted into the lower plate 2 And fixed by welding or the like. In this embodiment, unlike the first embodiment, although fixing process such as welding is added, there is an advantage that air can be further shortened by reducing errors in construction.

Hereinafter, an apparatus 100 of the present invention will be described with reference to FIGS. 4A and 4B. The apparatus 100 of the present invention will be described based on the apparatus 100 of the first embodiment.

4A, the bridge portion 1 is provided with a capping portion 11 on the upper surface of the column. One end or both ends of the girder 3, To be confined to the coping portion (11). 4a shows an example in which the girder 3 is constrained to the bridge portion 1 so that a steel bar 12 exposed from the inside to the top is formed in the coping portion 111, The girder 3 is provided with an insertion hole into which the steel bar 12 can be inserted so that the steel bar 12 passes through the insertion hole of the girder 3, And the steel rods 12 exposed on the upper surface of the girder 3 are fixed to the girder 3 by means of a platen, though not shown.

In this way, the girder 3 which has been tightened in the pierced portion 1 can be stretched or contracted in the direction of the throttle due to temperature change or the like. In order to absorb the displacement due to such expansion and contraction, So that one end of the girder 3 is fastened as described above.

4b, the coping portion 21 is also formed in the alternate portion 2 so that the one end of the coping portion 21 and the girder 3 are fixed through the apparatus 100 of the present invention, So that the displacement of the girder 3 is not constrained in the throttling direction.

The elastic pad 122 may be further formed on the coping portion 21 so that the girder 3 is stably mounted.

As shown in FIG. 5, the construction method of the present invention is characterized in that a bottom plate is provided on the upper surface of the alternating portion of both ends of the sound insulation wall bridge, (S10) of mounting the upper plate on the lower surface of the girder; (S20) placing a girder at an upper portion of the alternating portion so that the lower plate and the upper plate face each other; Inserting a rail into the lower plate and the upper plate (S30); And fixing the rail inserted in the lower plate (S40).

First, the lower plate 110 is mounted on the upper surface of the alternating portion 2 of the sound barrier wall bridge and the upper plate 120 is mounted on the lower surface of the girder 3 (S10). The mounting of the upper plate 120 to the lower plate 110 and the girder 3 can be performed by various known methods such as an anchor as described above.

And then placing the girder 3 above the alternating portion 2 so that the lower plate 110 and the upper plate 120 face each other.

6A, a girder 3 on which an upper plate 120 is mounted is placed on an upper surface of an alternating portion 2 on which a lower plate 110 is mounted, and the lower plate 110 and the upper plate 120 are arranged so as to face each other In the following step S30, the fastening holes 113 of the lower plate 110 and the slide holes 123 of the upper plate 120 are opposed to each other, (123).

Although the embodiment shown in FIG. 1 is based on the apparatus 100 shown in FIG. 1, in the case of the embodiment shown in FIG. 2, the slide holes 123 of the upper plate 120 are formed on the lower plate 110, The rail 130 may be inserted only into the slide hole 123 on the upper surface of the lower plate 110 in the next step S30. Therefore, in the case of steps S20 and S30, (100) is advantageous in that the construction is easier and the construction error can be reduced.

Next, as described above, there is a step (S30) of inserting the rail 130 into the lower plate 110 and the upper plate 120. As shown in FIG. 6B, And the lower rail 131 and the upper rail 132 of the rail 130 are inserted into the slide holes 123 of the upper plate 120 and the upper plate 120, respectively.

And finally fixing the rail 130 inserted in the lower plate 110 (S40).

The lower rail 131 is fixed to the coupling portion 112 by fastening the lower plate finishing plate 114 to both ends of the coupling portion 112 as shown in FIG. The lower plate finishing plate 114 is fastened to both ends of the coupling part 112 in a state where the lower rail 131 is inserted into the coupling hole 113 of the coupling part 112 to fix the lower rail 131 I will.

6C, the upper plate finishing plate 124 is fastened to both ends of the upper plate slide part 122 to control the slide of the upper rail 132 in the upper plate sliding part 122 (step S40) . The upper plate finishing plate 124 is fastened to both ends of the upper plate slide part 122 in a state where the upper rail 132 is inserted into the slide hole 123 of the upper plate slide part 122, To control the amount of sliding of the upper plate 120 and prevent the upper plate 120 from being separated from the upper rail 132.

Although FIG. 6c shows the apparatus 100 of the embodiment shown in FIG. 1, in the case of the apparatus 100 shown in FIG. 2, the upper plate finishing plate 124 is fastened to both ends of the upper plate sliding portion 122 The fixing of the rail 130 inserted into the lower plate 110 causes the lower plate 110 and the lower surface of the rail 130 to be attached by welding or the like so that the rail 130 is fixed to the lower plate 110.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1: bridge portion 2: alternating portion
3: girder 4: soundproof wall
110: lower plate 111: lower plate base plate
112: fastening part 113: fastening hole
120: upper plate 121: upper plate base plate
122: upper plate slide part 123: slide hole
130: rail 131: lower rail
132: upper rail

Claims (6)

A bottom plate attached to both ends of the soundproof wall bridge;
A rail mounted on the lower plate;
An upper plate slidable on the rail and mounted on a lower surface of a girder of a bridge for a sound barrier;
And an auxiliary rebound absorber for controlling the rebound of the sound barrier wall. The method according to claim 1,
Wherein the lower plate comprises a lower plate base plate fastened to an upper surface of the alternating portion and a fastening portion formed integrally with the lower plate base plate and having fastening holes formed therein,
Wherein the upper plate comprises a top plate base plate which is fastened to the bottom surface of the girder and an upper plate slide portion integrally protruding from the top plate base plate and having a slide hole formed therein,
Wherein the rail is constituted by a lower rail slidably fixed to the coupling hole and an upper rail slidable by the upper slider. The method according to claim 1,
The lower plate is fastened to the upper surface of the alternating portion,
Wherein the upper plate comprises a top plate base plate which is fastened to the bottom surface of the girder and an upper plate slide portion integrally protruding from the top plate base plate and having a slide hole formed therein,
Wherein the rail comprises a lower rail fixed to the lower plate and an upper rail slidable on the upper plate sliding part. The method according to claim 2 or 3,
Wherein the upper plate finishing plate is fastened to both ends of the upper plate slide part to control the slide of the upper rail at the upper plate sliding part. A girder for a soundproofing bridge bridge to which a negative-reaction-force control and an expansion / contraction absorbing device for a soundproof wall bridge according to any one of claims 1 to 4 is mounted. A step (S10) of mounting a lower plate on the upper surface of the alternating portion of both sides of the sound barrier wall bridge and mounting the upper plate on the lower surface of the girder;
(S20) placing a girder at an upper portion of the alternating portion so that the lower plate and the upper plate face each other;
Inserting a rail into the lower plate and the upper plate (S30);
Fixing the rail inserted in the lower plate (S40);
And a method of constructing a girder for a bridge of a noise barrier bridge equipped with a negative reaction force control and an expansion / contraction absorbing device for a sound barrier wall bridge.

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