KR102210751B1 - 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 is a lower plate mounted on the alternating portions of the sound barrier bridge; A rail mounted on the lower plate; It relates to a negative reaction force control and expansion and absorption device for a soundproof wall bridge comprising; a top plate which is slid on the rail and mounted on one end of the lower surface of the girder of the soundproof wall bridge.

Description

(Negative reaction control and displacement absorb device for noise barrier of bridges, girder using the same), negative reaction control and displacement absorb device for noise barrier of bridges, girder using the same and construction method thereof}

The present invention is easy to construct and control the side reaction force that may be generated in the girder in the soundproof wall bridge, and at the same time, it is possible to absorb the displacement caused by the expansion and contraction that may occur in the girder by temperature change, etc. It relates to an absorption device, a negative reaction force control for a soundproof wall bridge, and a soundproof wall bridge girder equipped with an expansion and contraction absorption device, and a construction method thereof.

A soundproof wall bridge is a bridge that is installed to install a soundproof wall when it is difficult to install a soundproof wall on an existing bridge. In general, a U-shaped receiving part is formed on the abutment and the upper part of the bridge pier, and a girder is installed on the bridge by installing a bridge device in the receiving part. It has a configuration such that a sound insulation wall is installed on the upper surface of the girder.

However, in the case of such a soundproof wall bridge, there is a problem that the girder may be pulled out as a negative reaction force acts on the girder due to wind load acting on the soundproof wall, and the expansion and contraction in the bridge axis direction due to temperature, etc. must be considered, but the soundproof wall is installed directly on the girder. Accordingly, there is a problem that it is not easy to install a conventional expansion device.

As an example of the existing technology, Korean Patent Application Laid-Open No. 10-2016-0033561 discloses "In the bridge substructure for installing a soundproof wall on an existing bridge, a U-shaped recess is formed on an abutment of the bridge and an upper portion of the pier, and the U-shaped concave Characterized in that a seating device is installed on the upper portion of the unit, a girder is inserted and installed on the seating unit, elastic rubber pads are installed on both sides of the upper portion of the U-shaped recess, and a soundproof wall foundation including a slab is installed on the upper surface of the girder. The bridge substructure for installing soundproof walls on existing bridges is proposed.

However, even in the case of the above technology, there is a problem in that it is not possible to expect sufficient resistance of the negative reaction force that can be applied to the girder by the sound insulation wall, as well as any correction for the expansion and contraction caused by temperature or the like in the throttling direction.

Republic of Korea Patent Publication No. 10-2016-0033561

Accordingly, the present invention was conceived to solve the problems of the prior art as described above, and the effect of resistance to side reaction force and elasticity absorption can be simultaneously manifested while being easy to construct. It is intended to provide a soundproof wall bridge girder equipped with a device, a negative reaction force control for a soundproof wall bridge, and a new construction absorption device, and a construction method thereof.

The negative reaction force control and expansion absorption device for a soundproof wall bridge of the present invention comprises: a lower plate mounted on alternating portions of both ends of the soundproof wall bridge; A rail mounted on the lower plate; It characterized in that it comprises a; slide on the rail and mounted on one end of the girder of the soundproof wall bridge.

As an example, the lower plate is composed of a lower plate base plate fastened to the upper surface of the alternating part, and a fastening part protruding integrally with the lower plate base plate and having a fastening hole formed therein, the upper plate being fastened to the lower surface of the girder Consisting of a base plate and an upper plate slide part protruding integrally with the upper plate base plate and having a slide hole formed therein, the rail is a lower rail slid and fastened to the fastening hole and an upper rail slid from the upper plate slide part It characterized in that it consists of.

As an example, the lower plate is fastened to the upper surface of the alternating part, 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 part protruding integrally with the upper plate base plate and having a slide hole formed therein. , The rail is characterized in that it is composed of a lower rail fixed to the lower plate and an upper rail slid in the upper slide portion.

As an example, the upper plate finish plate is fastened to both ends of the upper plate slide part so that the upper rail controls the slide in the upper plate slide part.

On the other hand, the present invention also discloses a girder for a soundproof wall bridge to which the negative reaction force control and expansion and absorption device for the soundproof wall bridge are mounted.

Meanwhile, the method of constructing a girder for a soundproof wall bridge, in which a negative reaction force control and a new construction absorption device for a soundproof wall bridge of the present invention is mounted, includes the steps of mounting a lower plate on the upper surface of the alternating portion of the soundproof wall bridge and mounting the upper plate on the lower surface of the girder (S10); Mounting a girder on the upper part of the alternating portion so that the lower plate and the upper plate face each other (S20); Inserting a rail into the lower plate and the upper plate (S30); And fixing the rail inserted in the lower plate (S40).

As described above, the present invention has the advantage of improving structural integrity by controlling the negative reaction force added to the girder by the soundproof wall in the soundproof wall bridge and correcting the expansion and contraction in the bridge axis direction while promoting ease of construction. .

1 and 2 are cross-sectional views showing the device of the present invention.
Figure 3 is a perspective view showing a sound barrier bridge to which the present invention is applied.
4A and 4B are perspective views illustrating a state in which the present invention shown in FIG. 1 is installed on a pier and an abutment, respectively.
Figure 5 is a block diagram showing the construction method of the present invention.
6a to 6c are schematic views showing the construction method of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described.

The negative reaction force control and expansion absorption device 100 for a soundproof wall bridge of the present invention includes a lower plate 110 mounted on the alternating portions of the soundproof wall bridge as shown in FIGS. 1 and 2; A rail 130 mounted on the lower plate 110; Characterized in that it comprises a; slide on the rail 130 and mounted on one end of the girder of the soundproof wall bridge.

That is, the present invention is a lower plate 110 mounted on the alternating portions 2 of the soundproof wall bridge and the upper plate 120 mounted on one end of the girder 3 on which the soundproof wall 4 is installed as shown in FIG. Each of the rails 130 is fixed to improve resistance to negative reaction forces caused by wind loads acting on the sound insulation wall 4, and the upper plate 120 integrated with the girder 3 slides from the rail 130. Therefore, it is possible to absorb (correct) the expansion and contraction (displacement) in the throttling direction.

First of all, the soundproof wall bridge is constructed on both sides of the existing bridge (a), as shown in FIG. 3, and is a bridge that allows the soundproofing wall (4) to be installed on the upper surface rather than the bridge through which vehicles pass. It can be composed of a girder (3) and a girder between the abutment (2) and the abutment (2) between the abutment (2) and the abutment (2) and the pier (1) and the pier (1) at both ends. 3) The soundproof wall 4 on the top is used as a basic configuration, and the basic configuration is a known technology and detailed description thereof is omitted. In a soundproof wall bridge having such a configuration, the negative reaction force control and expansion absorption device 100 for a soundproof wall bridge of the present invention is configured between the abutment 2 and the girder 3, and as mentioned above, the abutment ( It is to control the negative reaction force while fixing the girder (3) to 2), and to allow the girder (3) to slide in the abutment (2) so that it can absorb the expansion and contraction in the throttling direction.

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

Referring to the first embodiment according to FIG. 1, the device 100 of the present embodiment includes a lower plate 110 that is fastened to an upper surface of the alternating part 2, and the lower plate base plate 111. ) And formed integrally with a fastening part 112 having a fastening hole 113 formed therein, and the top plate 120 includes a top plate base plate 121 fastened to the bottom surface of the girder 3, and the It is formed integrally with the upper plate base plate 121 and is composed of an upper plate slide part 122 having a slide hole 123 formed therein, and the rail 130 is a lower part which is slid and fastened to the fastening hole 113 It is characterized in that it is composed of a rail 131 and an upper rail 132 slid in the slide hole 123.

The lower plate 110 is formed to protrude integrally with the flat lower plate base plate 111 and the lower plate base plate 111 fastened to the upper surface of the alternating part 2, and a fastening hole 113 is formed therein. As shown in the drawing, the lower plate base plate 111 may be fastened to the upper surface of the alternating part 2, but is not limited thereto.

The fastening part 112 has a fastening hole 113 formed therein, and the fastening hole 113 is configured in an inverted "T" shape so that the lower rail 131 is formed in the same inverted "T" shape. It is to enable fastening by a slide through the fastening hole 113.

The upper plate 120 is formed to protrude integrally with the upper plate base plate 121 fastened to the lower surface of the girder 3 and the upper plate base plate 121 and has a slide hole 123 formed therein ( 122) bar, in the case of fastening the upper base plate 121 to the lower surface of the girder 3, an anchor may be used as shown in the drawing, but is not limited thereto.

The upper slide portion 122 has a slide hole 123 formed therein, and the slide hole 123 has an upper rail 132 configured in a "T" shape in the same way. The slide is made in a state inserted in the slide hole 123.

As shown in FIG. 1, the upper plate 120 should be configured longer in the throttling direction than the lower plate 110, but the rail 130 is fixed by a slide in the lower plate 110, whereas the upper plate 120 In ), this is because the top plate 120 must slide in the direction of the axle while riding the rail 130.

As mentioned above, the rail 130 is composed of a lower rail 131 and an upper rail 132, and both ends are configured in an inverted "T" shape and a "T" shape, and each fastening hole 113 The slide is inserted into the slide hole 123 to fix the lower plate 110 and the upper plate 120 in the rail 130 and simultaneously slide the upper plate 120.

On the inner periphery of the upper part of the slide hole 123 and the upper surface of the upper rail 132, a backing plate 123-1 made of various materials such as PETE and stainless steel is configured to facilitate sliding and to improve resistance to abrasion. A buffer plate 123-2 is formed at the inner periphery of the lower end of the slide hole 123 so that the upper rail 132 continuously contacts the inner periphery of the lower end of the slide hole 123 during the sliding process and improves fatigue resistance due to impact. It is desirable to do.

Referring to the second embodiment based on FIG. 2, the device 100 of the present embodiment has the same configuration as the device 100 of the first embodiment, the upper plate 120, and the rail 130, but the structure of the lower plate 110 is Different from that, the lower plate 110 of the present embodiment has a flat plate shape and is fastened to the upper surface of the alternating portion 2, and the rail 130 is fixed to the lower plate 110 by welding or the like.

In the case of this embodiment, as in the first embodiment, the lower plate 2 is fixed to the alternating part 2 and the upper plate 120 is fixed to the girder 3, and then the girder 3 to which the upper plate 120 is fixed. Mounting so as to face the lower plate 2 of the shifting part 2, inserting the rail 130 into the slide hole 123 of the upper plate 120, and then inserting the lower surface of the rail 130 into the lower plate 2 It is to be fixed by welding or the like. In the case of this embodiment, unlike the first embodiment, a fixing process such as welding is added, but there is an advantage in that the construction time can be further shortened by reducing errors.

Hereinafter, an example in which the device 100 of the present invention is mounted will be described based on FIGS. 4A and 4B, and the device 100 of the present invention will be described based on the device 100 of the first embodiment.

As shown in Figure 4a, the pier part (1) has a coping part (11) formed on the upper surface of the column, and one end or both ends of the girder (3) constructed in the direction of the bridge axis by forming a multi-span is the pier part (1) To be accommodated and restrained in the coping portion 11 of. An example in which the girder 3 is accommodated and constrained in the pier part 1 in this way is shown in FIG. 4A, and the coping part 11 has a stiffening rod 12 exposed from the inside to the upper surface. Although the reference number is not shown in the girder 3, an insertion hole into which the stiffening rod 12 can be inserted is configured so that the stiffening rod 12 penetrates through the insertion hole of the girder 3 3) is mounted on the coping part 11 and the stiffening rod 12 exposed to the upper surface of the girder 3 is fixed with an acupressure plate, although the reference number is not shown.

In this way, the girder 3 stiffened to the pier part 1 can be expanded and contracted in the throttle direction due to temperature change, etc.. In order to absorb the displacement caused by this expansion, the apparatus 100 of the present invention is attached to both abutment parts 2 One end of the girder 3 as a medium is to be fastened as seen above.

That is, as shown in FIG. 4B, in the case of the alternating part 2, the coping part 21 is formed, and the coping part 21 and one end of the girder 3 are fixed through the apparatus 100 of the present invention, thereby preventing the negative reaction force. It is to be able to control the pulling force that can be applied to the girder (3), and to prevent the displacement of the girder (3) from being restricted in the throttling direction.

An elastic pad 22 may be further configured so that the girder 3 is stably mounted on the coping portions 11 and 21.

Meanwhile, the present invention also discloses a construction method of the negative reaction force control and expansion and absorption device 100 for the soundproof wall bridge, and the construction method of the present invention includes a lower plate on the upper surface of the alternating part of the soundproof wall bridge as shown in FIG. Mounting and mounting the upper plate on the lower surface of the girder (S10); Mounting a girder on the upper part of the alternating portion so that the lower plate and the upper plate face each other (S20); Inserting a rail into the lower plate and the upper plate (S30); And fixing the rail inserted in the lower plate (S40).

First, it has a step (S10) of mounting the lower plate 110 on the upper surface of the alternating portion 2 of the soundproof wall bridge and the upper plate 120 on the lower surface of the girder (3). Mounting of the lower plate 110 to the alternating portion 2 and the upper plate 120 to the girder 3 may be performed by various known methods such as anchors, as mentioned above.

Then, a step (S20) of mounting the girder 3 on the upper part of the alternating part 2 so that the lower plate 110 and the upper plate 120 face each other.

As shown in Fig. 6a, the upper plate 120 is mounted on the upper surface of the alternating part 2 on which the lower plate 110 is mounted, but the girder 3 is mounted so that the lower plate 110 and the upper plate 120 face each other. The opposite means that the fastening holes 113 of the lower plate 110 and the slide holes 123 of the upper plate 120 face each other, so that the fastening holes 113 and the slide holes of the rail 130 in the next step (S30). It is to make it easy to insert into (123).

In the drawing, although it is expressed based on the device 100 of the embodiment shown in FIG. 1, in the case of the embodiment shown in FIG. 2, although not shown in the drawing, the slide hole 123 of the upper plate 120 is mutually Mounting so as to face the rail 130 in the next step (S30) to be inserted only in the slide hole 123 from the upper surface of the lower plate 110. In this respect, in the case of steps S20 and S30, the device shown in FIG. In the case of (100), the construction is easier and there is an advantage of reducing construction errors.

Next, as mentioned above, a bar having a step (S30) of inserting the rail 130 into the lower plate 110 and the upper plate 120 is provided. As shown in FIG. 6B, the fastening hole of the lower plate 110 ( The lower rail 131 and the upper rail 132 of the rail 130 are respectively inserted into the slide hole 123 of the 113 and the upper plate 120.

Finally, a step (S40) of fixing the rail 130 inserted into the lower plate 110 is performed.

As shown in FIG. 6C, the lower plate finish plate 114 is fastened to both ends of the fastening part 112 so that the lower rail 131 is fixed to the fastening part 112. That is, the lower plate finish plate 114 is fastened to both ends of the fastening part 112 while the lower rail 131 is inserted into the fastening hole 113 of the fastening part 112 to fix the lower rail 131 It is to let.

In addition, in this step (S40), as shown in FIG. 6C, the top plate finish plates 124 are fastened to both ends of the top slide part 122 so that the upper rail 132 controls the slide in the top slide part 122. . That is, the upper plate finishing plate 124 is fastened to both ends of the upper plate slide part 122 in a state in which the upper rail 132 is inserted into the slide hole 123 of the upper plate slide part 122, and the upper rail 132 It is to control the amount of slide of the upper plate 120 in and to prevent separation of the upper plate 120 from the upper rail 132.

In FIG. 6C, the device 100 of the embodiment shown in FIG. 1 is shown, but in the case of the device 100 shown in FIG. 2, fastening the top plate finish plate 124 to both ends of the top slide part 122 is the same. The rail 130 inserted into the lower plate 110 is fixed by attaching the lower plate 110 and the lower surface of the rail 130 by welding or the like, so that the rail 130 is fixed to the lower plate 110.

It will be appreciated by those skilled in the art through the above description that various changes and modifications can be made without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be determined by the claims.

1: bridge part 2: shift department
3: Girder 4: Soundproof wall
110: lower plate 111: lower plate base plate
112: fastening part 113: fastening hole
120: top plate 121: top plate base plate
122: upper slide part 123: slide hole
130: rail 131: lower rail
132: upper rail

Claims (6)

It is mounted on the alternating parts of both ends of the soundproof wall bridge, and is formed integrally with the lower base plate and the lower base plate which is fastened to the upper surface of the abutment in a flat plate shape, or the upper surface of the abutment, and has an inverted "T" shape inside. A lower plate composed of a fastening portion in which a fastening hole of a shape is formed;
Mounted to face the lower plate at one end of the girder of the soundproof wall bridge, the upper plate base plate fastened to the lower surface of the girder and the upper plate base plate are integrally protruded, and a "T"-shaped slide hole is formed therein. A top plate composed of a top slide portion;
A rail fixed to the upper surface of the lower plate or having a shape corresponding to the fastening hole and inserted into the fastening hole, and a rail having a shape corresponding to the top slide part and inserted from the upper slide part; And
Including; a coping portion for accommodating one or both ends of the girder installed in the bridge axis direction on the upper surface of the pillar in the pier or abutment,
The coping part has an elastic pad at a position where the girder is mounted, and the upper plate is longer than the lower plate in a throttling direction so that the rail is fixed by a slide at the lower plate, while the upper plate rides the rail on the upper plate. To slide in the direction, an upper inner periphery of the slide hole and a backing plate are formed on the upper surface of the upper rail, and a buffer plate is formed at the lower inner periphery of the slide hole,
The upper plate integrated with the girder controls the pulling force that can be applied to the girder due to the negative reaction force in the rail, and can absorb the displacement caused by the expansion and contraction generated in the direction of the bridge axis by sliding on the rail, and both ends of the soundproof wall bridge As the lower plate mounted on the abutment and the upper plate mounted on one end of the girder installed on the upper side of the girder are fixed by rails, the negative reaction force caused by the conduction moment generated by the horizontal load acting on the soundproof wall bridge is applied to the lower surface of the girder. It is transmitted to the bottom through the upper plate, rail, and lower plate to be installed to resist negative reaction force caused by horizontal load,
In the girder of the soundproof wall bridge, the upper plate and the lower plate secure a gap greater than the height of the rail so that the rail can be inserted between the upper plate and the lower plate, and when the lower plate is mounted on the upper surface of the alternating part of the soundproof wall bridge, After attaching the upper plate to the upper surface of the alternating part on which the lower plate is mounted, the girder on which the upper plate is mounted is placed so that the lower plate and the upper plate face each other, and then the slide hole of the lower plate and the upper plate or the fastening hole of the lower plate The lower rail and the upper rail of the rail are respectively inserted and installed in the slide hole of the upper plate, and the lower plate is fixed to the lower rail, or the lower plate finish plate is fastened to both ends of the fastening part so that the lower rail is fixed to the fastening part. And, in the state where the upper rail is inserted into the slide hole of the upper slide part, the upper plate finish plates are fastened to both ends of the upper plate slide part to prevent separation of the upper plate from the upper plate part, and the upper rail controls the slide in the upper plate slide part. While, the negative reaction force control and expansion and absorption device for a soundproof wall bridge, characterized in that to resist the negative reaction force caused by the wind load by the rail.
delete delete delete A soundproof wall bridge girder equipped with the negative reaction force control and expansion absorption device for the soundproof wall bridge of claim 1. delete

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