KR20110128636A - Seismic isolation damping apparatus of bridge - Google Patents

Abstract

PURPOSE: A seismic damping device for bridge is provided to prevent vibration due to earthquake from becoming transferred to the upper part of bridge, reduce a manufacturing cost and enhance quality by enhancing the look of the bridge. CONSTITUTION: A seismic damping device(1) for bridge comprises a main body(10), an elastic body(20), a filler layer(30), a waterproof sheet(40), and a floating preventing cable(50). The main body is divided into a lower base(11) and an upper base(12). The lower base is fixed to the upper part of a pier support member. The upper base is fixed to the lower part of the pier of the bridge. The elastic body is installed in the main body, changes, absorbs and offsets vibration transferred through the pier support member. The filler layer is filled in a space between the elastic body and the main body.

Description

Seismic damping device for bridges {SEISMIC ISOLATION DAMPING APPARATUS OF BRIDGE}

The present invention relates to a damping device, and more particularly, to a damping device for a bridge for preventing vibration from being transmitted to the upper part of a bridge by installing a damping device capable of absorbing vibration and shock in a lower part of a bridge. .

Recently, due to a series of large earthquakes both at home and abroad, awareness of earthquake damage and the need for seismic design are spreading. In particular, earthquake damage of important structures such as museums, nuclear power plants, and large structures such as high-rise buildings, stadiums, and bridges is accompanied by enormous human and property damages, so it is necessary to secure sufficient seismic performance. In addition, as the remodeling of residential buildings is widely pursued, interest in the seismic reinforcement method of the constructed building before the seismic design standards are applied is gradually increasing.

If the design of a building to resist seismic forces is a general seismic design, seismic isolation separates the building from the ground and keeps the building's vibration period away from the main earthquake. Seismic control is a method of minimizing damage to buildings by efficiently dissipating input energy due to earthquakes using various damping devices.

Korea has recently been strengthening the seismic design of buildings and bridges. In early 1990, guidelines on seismic design of bridges were introduced.

1 is a view showing an example of a seismic installation of the bridge support according to the prior art, Figure 3 is a view showing the form of pile head reinforcement according to the prior art. Referring to FIG. 1, in the related art, the upper plate 210 is fixedly installed on the lower portion of the upper plate 200 of the bridge, and the lower plate 220 is fixedly installed on the upper portion of the bridge 100. Between the lower plate 220 was installed an elastic pad 230 to absorb the ground vibration. There are various forms of seismic installation of the bridge according to the prior art, but the basic configuration and principle is very similar.

Referring to FIG. 2, in the related art, the head of the pile member 111 installed in the lower portion of the pier 100 is connected to the vertical reinforcing bars 240 and then fixed with concrete, and most vibrations are pier when an earthquake occurs. It is configured to be offset by a seismic installation installed between the pier and the top plate and then transferred to the upper portion through.

However, when the seismic installation is installed on the upper part of the bridge as in the prior art, when the large horizontal force acts on the bridge due to the earthquake, there is a high possibility that the top plate is damaged, and there is a disadvantage in that a large cost is required to equip the seismic installation.

The present invention has been made to solve the problems described above, an embodiment of the present invention is to install the vibration isolation damper device in the lower part of the bridge to prevent the vibration caused by the earthquake is transmitted to the top of the bridge, manufacturing It is related to the seismic damping device for bridge which can reduce the cost and improve the appearance of the bridge to improve the quality of the emotion.

One preferred embodiment of the present invention is a bridge damping device for absorbing and offsetting the vibration is installed between the bridge pier and the bridge support member, one side is fixed to the bridge and the other side is fixed to the bridge support member by vibration The upper part is spaced apart from the lower part, and is accommodated inside the main body, and one side is fixed to the bottom of the main body and the other side is fixed to the ceiling of the main body and deformed to the left and right by vibration to offset the vibration by offsetting the upper side of the main body. It provides a damping elastic body, and the damping elastic body is installed in the interior of the main body and the filling material layer to prevent the inflow of foreign matter, such as water into the damping elastic body provided to the damping elastic body is provided with a seismic damping device for a bridge do.

According to an embodiment of the present invention as described above, first, the vibration generated by the earthquake is absorbed and canceled between the bridge and the bridge support member to prevent the top plate of the bridge from shaking or damaging, which is required for seismic installation The cost is reduced, and seismic quality of the bridge is not provided between the top plate and the bridge of the bridge exposed to the outside, thereby improving the emotional quality of the bridge.

Second, it is possible to prevent foreign substances such as water into the spaced space of the main body by the waterproof sheet installed in the main body.

Third, it is possible to prevent the upper and lower portions of the main body floating by the floating prevention cable installed in the main body.

Fourth, it is possible to improve the high performance of the main body fixed to the pier supporting member by the extended support formed in the lower portion of the main body.

1 is a cross-sectional view showing an embodiment of the seismic installation of the bridge according to the prior art,
Figure 2 is a cross-sectional view showing the shape of the pile head reinforcement according to the prior art,
3 is a state diagram used in the seismic installation according to the prior art,
Figure 4 is a front sectional view showing the seismic damping device for a bridge according to an embodiment of the present invention,
5 is a cross-sectional view showing a state in which the seismic damping device for the bridge shown in Figure 4 installed on the pile of the bridge support member,
Figure 6 is a cross-sectional view showing a state in which the seismic damping device for the bridge shown in Figure 4 installed in a shallow base structure of the bridge support member,
7 is a state diagram used in the seismic damping device for the bridge according to an embodiment of the present invention.

Figure 4 is a front sectional view showing the seismic damping device for a bridge according to an embodiment of the present invention, Figure 5 is a cross-sectional view showing a state in which the foundation seismic damping device for the bridge shown in Figure 4 installed on the pile of the bridge support member; 6 is a cross-sectional view illustrating a state in which the seismic isolating damping device for the bridge shown in FIG. 4 is installed in a shallow foundation structure among the pier supporting members.

The seismic damping device 1 for a bridge according to a preferred embodiment of the present invention includes a main body 10, a damping elastic body 20, a filler layer 30, a waterproof sheet 40, and a floating prevention cable 50.

The main body 10 is formed by separating the lower base 11 and the upper base 12 as shown in Figure 4, the lower base 11 is fixed to the upper side of the pier supporting member as shown in Figure 5 and the upper The base 12 is fixed below the pier of the bridge as shown in FIG. The damping elastic body 20 to be described later is installed inside the main body 10, and the damping elastic body 20 and the space between the damping elastic body 20 and the main body 10 in order to prevent foreign substances such as water from flowing into the damping elastic body 20. Filler layer 30 is formed.

An extended support portion 11a is formed below the lower base 11 of the main body 10 so as to surround the outer circumferential surface of the pier supporting member, and the extended support portion 11a has a pile of the main body 10. (111) serves to be firmly fixed to the pier supporting member of the form.

Damping elastic body 20 is installed in the interior of the main body 10, as shown in Figure 5 and the vibration transmitted through the bridge support member in the form of pile 111 or shallow foundation structure 112 in the event of an earthquake It absorbs and offsets by morphological changes (see FIG. 7).

The damping elastic body 20 has a lower plate 21, which is preferably bolted to the inner bottom of the lower base 11, and the lower side is fixed to the lower plate 21, as shown in Figure 4 Two reinforcing steel plates 22a are provided with an elastic body 22 spaced apart from each other, and one side is fixed to the elastic body 22 and the other side is composed of an upper plate 23 fixed to the upper base 12.

The elastic body 22 is preferably formed of a seismic rubber so as to have a shock resistance and easy to change the shape by vibration.

The filler layer 30 is filled in the space between the damping elastic body 20 and the body 10 installed in the body 10 as shown in FIG. 5 to seal the space to prevent damping elastic body 20 such as water. It prevents foreign matter from entering. The material filled in the filler layer 30 is preferably foamed urethane so as not to be damaged by deformation of the damping elastic body 20 while filling the space.

As shown in FIG. 4, the waterproof sheet 40 is fixed at one side to the lower base 11, and the other side is fixed to the upper base 12, and foreign substances such as water between the lower base 11 and the upper base 12. It serves to prevent the inflow.

The waterproof sheet 40 is preferably made of polyethylene (PE), such as elasticity itself is used synthetic resin or buffer strength reinforced plastic (Fiberg lass Reinforced Plastic) to buffer the water shock. In addition, it is also possible to use either polyethylene (PE) having high corrosion resistance or Fiber lass Reinforced Plastic having improved corrosion resistance.

As shown in FIG. 4, the floating prevention cable 50 is fixed to the lower base 11 and the other side is fixed to the upper base 12 so that the upper base 12 floats from the lower base 11. It prevents it from becoming.

7 is a state diagram used in the seismic damping device for the bridge according to an embodiment of the present invention. Hereinafter, a state of use of the seismic damping device for a bridge according to a preferred embodiment of the present invention will be described with reference to FIG. 7.

Earthquakes generated in the epicenters impact the earth's crust, and the seismic waves transmitted to the earth's crust cause vibrations in structures installed on the earth's surface. As shown in FIG. 7, when the structure of the ground surface is a pier supporting member in the form of a pile 111 or a shallow foundation structure 112, the support wave generated on the ground surface vibrates the pier supporting member. In the case of the conventional structure, as shown in FIG. 3, since the lower structure 250 and the upper structure 260 are integrally connected, the lower vibration is transmitted to the upper structure 260 as it is, and the upper structure 260 is Since the lower structure 250 is vibrated secondarily while being vibrated, there is a disadvantage in that the lower structure 250 and the upper structure 260 are fatigue-broken due to a chain reaction. In the present invention, unlike the prior art, since the vibration transmitted from the pier supporting member is canceled by the deformation of the damping elastic body 20, there is no problem as in the prior art.

Specifically, when an earthquake occurs and the ground shakes, the pier supporting members 111 and 112 embedded in the ground shake together with the ground. When the pier supporting members 111 and 112 are shaken, the damping elastic body 20 installed between the lower base 11 and the upper base 12 absorbs and offsets vibration transmitted through the pier supporting members 111 and 112 while causing horizontal elastic deformation. Since the vibration caused by the earthquake is transmitted to the bridge and its structure can be minimized.

As the present invention can be variously modified by those skilled in the art without departing from the scope of the claims, the technical protection scope of the present invention is not limited to the specific preferred embodiments described above. Do not.

1: Isolation damping device for bridge 10: Body
11: lower base 11a: extension support
12: upper base 20: damping elastic body
21: lower plate 22: elastic body
22a: reinforcing steel plate 23: the upper plate
30: filling layer 40: waterproof sheet
50: floating prevention cable 100: pier
110: pier supporting member 111: pile
112: shallow foundation structure 200: the top of the bridge
210: upper plate 220: lower plate
230: elastic pad 240: vertical reinforcing bars

Claims (6)

In the bridge isolating damping device installed between the bridge pier and the bridge support member to absorb and cancel the vibration,
A main body having one side fixed to the pier and the other side fixed to the pier supporting member, the upper body being spaced apart from the lower side by vibration;
A damping elastic body accommodated in the main body, one side of which is fixed to the bottom of the main body, and the other side of which is fixed to the ceiling of the main body and deformed to the left and right by the vibration to offset and absorb the vibration by separating the upper side of the main body; And
And a filler layer filling the space between the damping elastic body installed inside the main body and the main body to prevent foreign substances such as water from flowing into the damping elastic body.
The method of claim 1,
The base damping device for a bridge, characterized in that the waterproof sheet is installed to prevent the inflow of foreign substances such as water into the spaced space.
The method of claim 2,
The base isolation damping device for a bridge, characterized in that the floating preventing cable is installed to prevent the spaced upper and lower portions floating.
The method according to any one of claims 1 to 3,
The damping elastic body is a lower plate fixed to the bottom of the main body, one side is fixed to the upper side of the lower plate and a plurality of reinforcing steel plate is installed therein, one side is fixed to the upper side of the elastic body and the other side of the body Isolation damping device for a bridge, characterized in that consisting of the upper plate fixed to the ceiling.
The method of claim 4, wherein
The base damping device for a bridge, characterized in that the lower side of the main body is formed with an extended support extending to surround the outer peripheral surface of the bridge support member.
The method of claim 5, wherein
The filler layer is a damping device for a bridge, characterized in that formed of urethane foam.

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