JP4487498B2 - Seismic isolation structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention interposes a seismic isolation device between an upper structure such as a building, an elevated highway, a bridge or a detached house and a lower structure such as a foundation, and lower structure of the upper structure due to an earthquake, wind, etc. The present invention relates to a seismic isolation structure that restricts a large displacement relative to the.
[0002]
[Prior art]
As a seismic isolation device that prevents the vibration of the lower structure due to the earthquake from being transmitted to the upper structure, for example, a sliding seismic isolation device in which a flat sliding material is interposed between the lower structure and the upper structure, a concave spherical surface A lower rod with a sliding surface is attached to the lower structure, and an upper flange with a concave spherical sliding surface is attached to the upper structure, and a sliding body is placed between the lower rod and the upper rod. Pendulum-type sliding seismic isolation device interposed, rolling seismic isolation device with roller member or ball member interposed between lower structure and upper structure, laminated rubber between lower structure and upper structure There are known laminated rubber isolation devices and the like.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-90382
[Problems to be solved by the invention]
Lowering the rigidity of the upper structure relative to the lower structure with the seismic isolation device in order to obtain a sufficient seismic isolation effect means that the upper structure is easily moved in the horizontal direction with respect to the lower structure. When an excessively strong wind that can be accidentally generated is blown to the upper structure supported by such a seismic isolation device and the upper structure is moved largely horizontally beyond the operating range of the seismic isolation device, for example, a pendulum type In the case of the sliding seismic isolation device, the sliding body comes off between the lower arm and the upper arm, making it impossible to return to the normal state, and in addition, there is a risk of serious damage to the upper structure. Such a concern is particularly the case when an unexpected strong wind is blown on a detached house whose upper structure is relatively light, or when an earthquake with an unexpectedly large acceleration occurs.
[0005]
In addition, in pendulum-type sliding seismic isolation devices and rolling seismic isolation devices that do not have a mechanism to limit the separation of the upper arm from the lower arm in the vertical direction, if an excessively strong wind is blown onto the lightweight upper structure, The structure may rise from the lower structure, which may cause serious damage to the upper structure.
[0006]
The present invention has been made in view of the above points, and the object of the present invention is to prevent excessive horizontal displacement of the upper structure relative to the lower structure due to strong winds or earthquakes. Another object is to provide a seismic isolation structure that can prevent damage to the upper structure.
[0007]
Another object of the present invention is to prevent the vertical lift of the upper structure relative to the lower structure due to strong winds even when the seismic isolation device is used for the lightweight structure. Thus, an object of the present invention is to provide a seismic isolation structure that can prevent damage to the upper structure.
[0008]
[Means for Solving the Problems]
The seismic isolation structure according to the first aspect of the present invention is interposed between a lower structure, an upper structure, the lower structure and the upper structure, and the upper structure is relative to the lower structure. A seismic isolation device for isolating horizontal vibrations, and a restriction mechanism for restricting the relative movement of the upper structure relative to the lower structure from a certain level in a horizontal direction. A horizontal direction restricting member fixed to one of the lower structure and the upper structure and having a pair of concave curved edges, and fixed to the other of the lower structure and the upper structure and horizontally One restricting member arranged to face one concave curved edge of the direction restricting member, and the other concave curved edge of the horizontal restricting member fixed to the other of the lower structure and the upper structure And the other restricting member arranged so as to face To have.
[0009]
In the seismic isolation structure of the first aspect, a horizontal direction limiting member having a pair of concave curved edges is fixed to one of the lower structure and the upper structure, and one limiting member is one concave curve. Because the other limiting member is arranged to face the other concave curved edge so as to face the edge, and is fixed to the other one of the lower structure and the upper structure, the lower structure by strong wind or earthquake As a result of one or the other restricting member abutting the corresponding concave curved edge of the horizontal restricting member in a certain horizontal movement of the upper structure relative to the object, the relative of the upper structure to the lower structure Therefore, it is possible to prevent excessive horizontal displacement of the upper structure relative to the lower structure due to strong winds or earthquakes, and to prevent damage to the upper structure. It will be possible.
[0010]
In the seismic isolation structure according to the second aspect of the present invention, the limiting mechanism is arranged across the part of the horizontal direction limiting member that is spanned between one and the other limiting members and sandwiched between the pair of concave curved edges. The vertical direction restricting member is further provided to restrict the vertical movement of the upper structure relative to the lower structure.
[0011]
According to the seismic isolation structure of the second aspect, the vertical direction restriction member is stretched over one of the lower structure and the upper structure and the other restriction member, and Since it is arranged straddling the part sandwiched between the pair of concave curved edges of the horizontal direction restricting member fixed to one of the lower structure and the upper structure, for example, the upper part with respect to the lower structure by strong wind When the structure moves in the vertical direction, the vertical direction restricting member comes into contact with the portion sandwiched between the pair of concave curved edges of the horizontal direction restricting member. As a result, the upper structure moves more than a certain amount in the vertical direction relative to the lower structure. Therefore, the vertical lift of the upper structure relative to the lower structure due to the strong wind can be prevented, and damage to the upper structure can be prevented.
[0012]
The vertical direction restricting member is preferably a rigid plate fixed to one restricting member at one end and the other restricting member at the other end as in the seismic isolation structure of the third aspect of the present invention. However, the present invention is not limited to this, and for example, a flexible wire fixed to one limiting member at one end and the other limiting member at the other end. , May be a chain.
[0013]
Preferably, in the present invention, as in the seismic isolation structure of the fourth aspect, each of the pair of concave curved edges has an arcuate concave edge, and each of the one and the other restricting members faces each other in an arcuate shape. More preferably, each of the pair of arcuate concave edges has substantially the same radius of curvature as that of the seismic isolation structure according to the fifth aspect of the present invention. Each of the one and the other restricting members is arranged at substantially the center of the opposed arcuate concave edges, and in any case, each arcuate concave edge is preferably seismic isolation according to the sixth aspect of the present invention. Like the structure, it has a central angle of substantially 180 °. Each of the pair of concave curved edges may have an arc-shaped concave edge as described above, but the present invention is not limited to this. For example, an elliptical curved concave edge, a hyperbolic concave edge, or two It may be a second curved concave edge.
[0014]
The horizontal direction restricting member only needs to have at least a pair of concave curved edges with which one and the other restricting members come into contact with each other when the upper structure moves relative to the lower structure at a certain level in the horizontal direction. In addition to the pair of concave curved edges, as in the seismic isolation structure according to the seventh aspect of the present invention, it may further include a straight edge continuously connected to one end of each concave curved edge. In this case, such straight edges may extend in parallel to each other as in the seismic isolation structure of the eighth aspect of the present invention.
[0015]
In the present invention, as in the seismic isolation structure according to the ninth aspect of the present invention, the horizontal direction limiting member is preferably a plate-like body, and each of the one and the other limiting members is preferably a cylindrical body. It is not limited to this.
[0016]
The seismic isolation device, like the seismic isolation structure according to the tenth aspect of the present invention, is fixed to the lower structure and is fixed to the lower structure having a concave spherical sliding upper surface and the upper structure. And an upper collar having a concave spherical sliding lower surface, a convex spherical sliding lower surface and an upper collar interposed between the lower collar and the upper collar and slidably contacting the concave spherical sliding upper surface of the lower collar And a sliding body having a convex spherical sliding upper surface slidably in contact with the concave spherical sliding lower surface of the concave spherical sliding surface, and as in the seismic isolation structure of the eleventh aspect of the present invention, A lower lid fixed to the structure and having a flat planar sliding upper surface, and a flat planar sliding lower surface fixed to the upper structure and slidably contacting the flat planar sliding upper surface of the lower casing. You may have the upper arm which it had. The seismic isolation device may be a pendulum-type sliding seismic isolation device and a sliding seismic isolation device as in the tenth and eleventh aspects, but is a rolling seismic isolation device, a laminated rubber seismic isolation device, or the like. May be.
[0017]
Next, the present invention and its embodiments will be described in more detail based on preferred examples shown in the drawings. The present invention is not limited to these examples.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
1 to 5, the seismic isolation structure 1 of the present example is interposed between the lower structure 2, the upper structure 3, the lower structure 2 and the upper structure 3, and the lower structure. 4 seismic isolation devices 4 for isolating the relative horizontal H vibrations of the upper structure 3 relative to 2 and the relative horizontal movement H of the upper structure 3 relative to the lower structure 2 exceeding a certain level. And a limiting mechanism 5 that limits the movement of the upper structure 3 relative to the lower structure 2 in the vertical direction V.
[0019]
The substructure 2 is composed of foundations 12 and 13 formed on the ground 11, and two seismic isolation devices 4 are installed on the foundation 12, and the remaining two seismic isolation devices 4 are installed on the foundation 13.
[0020]
The superstructure 3 includes a pair of X-direction frames 21 and 22 that are parallel to each other, a pair of Y-direction frames 23 and 24 that are parallel to each other and bridge the X-direction frames 21 and 22, and the X-direction frames 21 and 22 22 and, for example, a detached house (not shown) constructed on the Y-direction frames 23 and 24. Each of the Y direction frames 23 and 24 is fixed to the X direction frames 21 and 22 by welding or the like at both ends thereof.
[0021]
Each seismic isolation device 4 is configured in the same manner. For example, one seismic isolation device 4 mounted on the foundation 12 of the lower structure 2 is fixed to the foundation 12 via an anchor bolt or the like. A lower rod 32 having a concave spherical sliding upper surface 31, an upper rod 34 fixed to the X-direction frame 21 of the upper structure 3 via a bolt or the like and having a concave spherical sliding lower surface 33; A convex spherical sliding lower surface 35 which is interposed between 32 and the upper collar 34 and slidably contacts the concave spherical sliding upper surface 31 of the lower collar 32 in the horizontal direction H and the concave spherical sliding of the upper collar 34. And a sliding body 37 having a convex spherical sliding upper surface 36 slidably contacting the lower surface 33 in the horizontal direction H.
[0022]
The lower rod 32 includes a rectangular lower base 41 and a disk-like member 42 fixed to the lower base 41 by welding or the like. The lower base 41 is connected to the foundation 12 via anchor bolts or the like. A concave spherical sliding upper surface 31 is formed on the upper surface of the disk-shaped member 42, and the upper rod 34 is a rectangular upper base 43 and a disk fixed to the upper base 43 by welding or the like. And the upper base 43 is fixed to the X-direction frame 21 via bolts and a mounting plate (lifting plate) 45, etc., and the bottom surface of the disc-shaped member 44 is a concave spherical slide surface. 33 is formed, and the flat sliding body 37 transmits the load of the upper structure 3 from the disk-shaped member 44 to the disk-shaped member 42.
[0023]
The limiting mechanism 5 is provided with a mounting plate (raised plate) on one of the lower structure 2 and the upper structure 3, in this example, the Y-direction frames 23 and 24 of the upper structure 3, and both end edges 51 and 52. ) A horizontal direction limiting member 57 fixed by bolts and welding via 53 and 54 and having a pair of concave curved edges 55 and 56, the other of the lower structure 2 and the upper structure 3, the book In the example, the limiting member 58 fixed to the base 12 of the lower structure 2 and arranged to face one concave curved edge 55 of the horizontal direction limiting member 57, the lower structure 2 and the upper structure 3. On the other hand, in this example, a restriction member 59 fixed to the base 13 of the lower structure 2 and arranged to face the concave curved edge 56 of the horizontal direction restriction member 57, and the restriction members 58 and 59 are hung. Passed and a pair of recesses It has and a vertical limit member 61 arranged across the site 60 in the horizontal direction restricting member 57 sandwiched by the edge 55 and 56.
[0024]
In the horizontal direction limiting member 57 made of a plate-like body, the concave curved edge 55 is an arc-shaped concave edge having a central angle of substantially 180 ° in this example, and the concave curved edge 56 is also substantially 180. It has an arcuate concave edge having a central angle of ° and substantially the same radius of curvature as the concave curved edge 55 made of an arcuate concave edge.
[0025]
Each of the restricting members 58 and 59 is made of a cylindrical body and is arranged on the center side of each of the corresponding concave curved edges 55 and 56 facing each other and approximately at the center of each of the corresponding concave curved edges 55 and 56. Has been.
[0026]
The vertical direction restricting member 61 includes a rigid columnar long member that is fixed to the restricting member 58 at one end and the restricting member 59 at the other end by welding or the like, and a portion 60 of the horizontal direction restricting member 57. The upper portion 3 of the upper structure 3 with respect to the lower structure 2 is restricted to lift in the vertical direction V by the contact of the portion 60 due to the lift of the upper structure 3 in the vertical direction V. The movement of the upper structure 3 relative to the lower structure 2 in the vertical direction V is limited.
[0027]
In the above seismic isolation structure 1, the load of the upper structure 3 is supported via each seismic isolation device 4. For example, the upper structure 3 is relatively moved by the vibration in the horizontal direction H of the ground 11 caused by the earthquake. When moved in the horizontal direction H, the relative sliding of the convex spherical sliding lower surface 35 of the sliding body 37 with respect to the concave spherical sliding upper surface 31 of the disc-shaped member 42 and the concave spherical sliding lower surface 33 of the disc-shaped member 44 are performed. As a result, the upper structure 3 is moved in the horizontal direction H relative to the lower structure 2 as shown in FIG. The vibration in the horizontal direction H due to the earthquake of the lower structure 2 is not transmitted to the upper structure 3 as it is, and the upper structure 3 is isolated from the earthquake.
[0028]
By the way, in the seismic isolation structure 1, the horizontal direction limiting member 57 having the pair of concave curved edges 55 and 56 is fixed to the upper structure 3, and the limiting member 58 is limited so as to face the concave curved edge 55. Since the member 59 is disposed so as to oppose the concave curved edge 56 and is fixed to the lower structure 2, the upper structure 3 is against the lower structure 2 due to a large earthquake or strong wind to the upper structure 3. When the moving member moves relatively in the horizontal direction H, the restricting member 59 comes into contact with the concave curved edge 56 of the horizontal restricting member 57 as shown in FIG. The above relative movement in the horizontal direction H is prevented, and therefore, an excessive displacement in the horizontal direction H relative to the lower structure 2 of the upper structure 3 due to a large earthquake is prevented. It is designed to prevent damage, etc. Even when the structure 3 moves in a relatively large horizontal direction H relative to the lower structure 2, for example, the limiting member 58 abuts against the concave curved edge 55 of the horizontal direction limiting member 57 and the upper structure 3 is moved relative to the lower structure 2. Further relative movement in the horizontal direction H is prevented.
[0029]
In the seismic isolation structure 1, the vertical direction limiting member 61 is stretched over the limiting members 58 and 59 fixed to the lower structure 2, and the horizontal direction limiting member fixed to the upper structure 3. 57, the upper structure 3 moves in the vertical direction V relative to the lower structure 2 due to the strong wind because the portion 60 is sandwiched between the pair of concave curved edges 55 and 56. Then, if the vertical structure restricting member 61 comes into contact with the portion 60 sandwiched between the pair of concave curved edges 55 and 56 of the horizontal direction restricting member 57, as a result of trying to float up, Relative movement of a certain level or more in the vertical direction is prevented, and thus the vertical structure V can be prevented from being lifted with respect to the lower structure 2 by the strong wind, and damage to the upper structure 3 can be prevented.
[0030]
In the above seismic isolation structure 1, a pendulum type slip seismic isolation device is used for each seismic isolation device 4, but instead of or together with this, as shown in FIG. 8, it is fixed to the lower structure 2. And a lower surface 72 having a flat surface-like sliding upper surface 71 and a flat surface-like sliding lower surface fixed to the upper structure 3 and slidably contacting the flat surface-like sliding upper surface 71 of the lower surface 72 in the horizontal direction H. The seismic isolation device 75 having an upper arm 74 having 73 may be used. In such a seismic isolation device 75 as a simple sliding seismic isolation device, the lower arm 72 has a lower base 76 and a lower base 76. A lower sliding member 77 fixed to the base 76 by welding or the like is provided. The lower base 76 is fixed to the foundation 12 via an anchor bolt or the like, and a flat surface is formed on the upper surface of the lower sliding member 77. A sliding upper surface 71 is formed, and the upper collar 74 includes an upper base 78 and an upper base. 8 is fixed to the X-direction frame 21 via a bolt and a mounting plate (lifting plate) 45 or the like on the upper base 78, and the upper sliding member 79 is fixed to the X-direction frame 21 by welding or the like. A flat surface-like sliding lower surface 73 is formed on the lower surface, and even in such a seismic isolation device 75, when the upper structure 3 is relatively moved in the horizontal direction H by the vibration in the horizontal direction H of the ground 11 due to the earthquake, The upper structure 3 is moved in the horizontal direction H relative to the lower structure 2 by sliding in the horizontal direction H of the flat surface sliding lower surface 73 relative to the flat surface sliding upper surface 71.
[0031]
Further, in addition to the pair of concave curved edges 55 and 56, the horizontal direction limiting member 57 includes linear edges 81 and 82 continuously connected to one end of each of the concave curved edges 55 and 56 as shown in FIG. 83 and 84, and the straight edges 81 and 82 continuously connected to one end of the concave curved edge 55 extend parallel to each other, and are continuously connected to one end of the concave curved edge 56. The straight edges 83 and 84 extend parallel to each other, and the horizontal direction restricting member 57 further provided with the straight edges 81 and 82 and 83 and 84 can obtain the same effect as described above. An excessive relative displacement in the horizontal direction H with respect to the lower structure 2 of the upper structure 3 due to a large earthquake can be reliably prevented without malfunction.
[0032]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the seismic isolation structure which can prevent the horizontal relative excessive displacement with respect to the lower structure of an upper structure with a strong wind or an earthquake, and can prevent damage of an upper structure, etc. is provided. can do.
[0033]
Further, according to the present invention, even when a seismic isolation device is used for a lightweight structure, it is possible to prevent the vertical lift of the upper structure relative to the lower structure due to strong winds. It is possible to provide a seismic isolation structure that can prevent damage to objects.
[Brief description of the drawings]
FIG. 1 is a plan view of a preferred example of an embodiment of the present invention.
2 is a cross-sectional view taken along line II-II shown in FIG.
3 is an explanatory diagram of a part of the seismic isolation structure shown in FIG. 1. FIG.
4 is an explanatory diagram of a part of the seismic isolation structure shown in FIG. 1. FIG.
5 is a cross-sectional view taken along line VV shown in FIG.
6 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
7 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
FIG. 8 is an explanatory diagram of a part of another preferred example of an embodiment of the present invention.
FIG. 9 is an explanatory diagram of a part of another preferred example of the embodiment of the present invention.
[Explanation of symbols]
1 Seismic Isolation Structure 2 Lower Structure 3 Upper Structure 4 Seismic Isolation Device 5 Limiting Mechanism

Claims (8)

A seismic isolation device interposed between the lower structure, the upper structure, and between the lower structure and the upper structure and for isolating the relative horizontal vibration of the upper structure relative to the lower structure; And a restriction mechanism that restricts a relative horizontal movement of the upper structure relative to the lower structure. The restriction mechanism is fixed to one of the lower structure and the upper structure. And a horizontal direction restricting member comprising a plate-like body having a pair of concave curved edges, and being fixed to the other of the lower structure and the upper structure and facing one concave curved edge of the horizontal direction restricting member One restricting member made of a cylindrical body arranged in this manner, and fixed to the other of the lower structure and the upper structure, and arranged to face the other concave curved edge of the horizontal restricting member the other limit member made of cylinder, whereas It has and a vertical limit member disposed across a portion of the horizontal limiting member sandwiched by a pair of concave edge with which entrained fine other restriction member, the vertical limit member has one end The horizontal direction limiting member is composed of a rigid plate-like or columnar long member fixed to one limiting member at one end and the other limiting member at the other end, and is sandwiched between a pair of concave curved edges A base-isolated structure that restricts the relative vertical movement of the upper structure relative to the lower structure by the contact of the long member disposed across the part to the part . 2. The seismic isolation structure according to claim 1, wherein each of the pair of concave curved edges has an arcuate concave edge, and each of the one and the other restricting members is disposed on a center side of the opposed arcuate concave edges. body. The pair of arcuate concave edges each have substantially the same radius of curvature, and the one and the other restricting members are respectively disposed at substantially the centers of the opposed arcuate concave edges. The seismic isolation structure described. The seismic isolation structure according to claim 2 or 3 , wherein each arcuate concave edge has a central angle of substantially 180 ° . The seismic isolation structure according to any one of claims 1 to 4, wherein the horizontal direction limiting member further includes a linear edge continuously connected to one end of each concave curved edge . The seismic isolation structure according to claim 5, wherein the straight edges continuously connected to one end of each concave curved edge extend in parallel to each other . The seismic isolation device comprises: a lower arm fixed to the lower structure and having a concave spherical sliding upper surface; an upper arm fixed to the upper structure and having a concave spherical sliding lower surface; A convex spherical surface interposed between the upper collar and slidably contacting the concave spherical sliding surface of the lower collar and a convex spherical shape slidably contacting the concave spherical sliding surface of the upper collar The seismic isolation structure according to any one of claims 1 to 6, further comprising a sliding body having a sliding upper surface . The seismic isolation device is fixed to the lower structure and has a flat sliding surface, and is fixed to the upper structure and slidably contacts the flat sliding surface of the lower structure. The seismic isolation structure according to any one of claims 1 to 6, further comprising an upper rod having a flat surface-like sliding lower surface .

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