JP3431885B2 - Seismic isolation device for buildings - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic isolation device for a building, which is interposed between a concrete foundation having anchor bolts protruding from the surface thereof and a foundation of the building arranged above the concrete foundation.

[0002]

2. Description of the Related Art Conventionally, as a seismic isolation device of this type, as shown in, for example, Japanese Unexamined Patent Publication No. 11-62309, it is integrally formed in a cylindrical shape with an elastic material, and an insertion hole is formed in the height direction at the center. The elastic body formed, the rod-shaped body inserted through the insertion hole formed in the elastic body, the lower surface of the elastic body fixed on the lower surface of the elastic body, and the elastic body The other disk, which is fixed to the upper surface of the body and has the lower surface of the base installed on the upper surface, one shaft body that projects downward from the lower surface of one disk, and the upper disk that projects upward from the upper surface of the other disk. The other shaft inserted through the insertion hole formed on the base, the anchor bolt whose upper end is fixed to the one shaft and embedded in the foundation, and the fixing means for fixing the other shaft to the base. Those equipped are known. According to this seismic isolation device, since the rod-shaped body is provided at the center of the elastic body, it is possible to obtain the effect of preventing the elastic body from sagging during long-term use.

[0003]

However, in the above-described seismic isolation device, the displacement within the allowable range in the vertical and horizontal directions can be absorbed by the elastic body, but a large displacement exceeding the allowable range is added. However, it is difficult to prevent the collapse of the building in case of a big earthquake. The present invention is intended to solve the above problems, and an object of the present invention is to provide a seismic isolation device for a building that can cope with large vertical and horizontal displacements that cannot be handled by a rubber elastic body support.

[0004]

To achieve the above object, according to the Invention The features of construction of the invention according to the claim 1, the anchor
Bolt is embedded and the tip of the anchor bolt
Above the raised concrete foundation and above the concrete foundation
Building exemption that is interposed between the foundation of the building
It is a seismic device that is placed on a concrete foundation and
At the protruding part of the anchor bolt embedded in the cleat foundation
A first plate fixed to the concrete foundation and a first plate
Is placed opposite to the plate and is coaxial with the anchor bolt
In the protruding part of the fixing bolt that penetrates the base in the direction
Second plate fixed to the base by the first and second
It is vulcanized and bonded between the plates to open to the outside and
A car with a space in which the protrusion of the car bolt is placed.
The elastic body and the anchor bolt
No. 1 fixed to the protrusion of the plate or fixing bolt
It is fixed to either one of the two plates and the other plate is
A protrusion that protrudes in the rate direction and has an engaging hole on the protruding surface
Inserted into the engaging hole that is projected on the exit plate and the other plate
And an engaging portion that can be engaged with the engaging hole,
By engaging the engaging part with the engaging hole,
And a stopper member that limits the displacement in the horizontal direction.
Either the plate side provided with the outgoing plate portion or the engaging portion
A plate with a curved plate and a protruding plate
The other side or the engaging part is in contact with the curved convex part
There is .

In the invention according to claim 1 configured as described above , the rubber elastic body portion is provided between the first and second plates.
Are bonded by vulcanization, so the concrete base
The first and second play of the seismic isolation device due to the small shaking of the foundation
Against small vertical and horizontal displacements applied to the
Strength and durability are ensured. In addition, concrete
Due to the large shaking of the foundation, the first and second play of the seismic isolation device
For large vertical and horizontal displacement applied to the
On the other hand, the engaging portion of the stopper member engages with the engaging hole of the protruding plate portion.
To prevent further displacement mechanically
be able to. Also, on the plate side with the protruding plate
Is because the other side of the engaging part is in contact with the curved convex part,
The friction of the abutting parts can be reduced and the mutual lateral movement is smooth.
To be done .

Further, the structural feature of the invention according to claim 2 is that the tip of the anchor bolt protrudes from the surface.
A building located above the concrete foundation and the concrete foundation.
It is a seismic isolation device for buildings that is interposed between the base of the structure.
Of the anchor bolts placed on the concrete foundation.
First play fixed to the concrete foundation at the overhang
Of the anchor plate and the anchor plate.
Fixing bolts that are installed through the base in the same direction as
A second plate fixed to the base at the protrusion of the
Or fixed to one of the second plates
Project toward the other plate, and insert an engaging hole in the projecting surface.
The protruding plate part provided and the engaging hole protruding from the other plate
An engaging part that can be engaged with the engaging hole
On the base by engaging the engaging part with the engaging hole.
Stopper member with limited downward and horizontal displacement
And vulcanization between one plate side of the stopper member and the engaging part.
There is provided a rubber elastic body portion bonded .

In the invention according to claim 2 configured as described above, one plate side of the stopper member and the engaging portion.
The rubber elastic body was bonded by vulcanization
Therefore, due to the small shaking of the concrete foundation,
Vertical and horizontal directions applied to the 1st and 2nd plates
The strength and durability for small displacements are secured. It
Moreover, due to the large shaking of the concrete foundation,
Vertical and horizontal applied to the first and second plates
The engaging part of the stopper member is
Displacement further by engaging the engaging hole of the exit plate
Can be mechanically blocked .

The structural feature of the invention according to claim 3 is the seismic isolation device for a building according to claim 2.
The rubber elastic body has a laminated structure of a rubber layer and a metal plate.
There is something to do .

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a partial cross-sectional view showing a usage state of a building seismic isolation device (hereinafter referred to as a seismic isolation device) interposed between a concrete foundation and a building base, which is a reference example . 2 is a perspective view showing a projecting plate portion which is a part of a stopper member of the seismic isolation device. In addition to ordinary houses, buildings include collective housing such as shops and apartments, and the site area is 1000 m.
^The target is ² or less. Further, the foundation of a building includes, in addition to the foundation of a building by a normal construction method, a floor panel in a steel frame house, a floor base by a two-by-four construction method, and so on.

The seismic isolation device 10 comprises a first plate 11 which is a rectangular metal plate which is arranged in parallel and facing each other.
And a second plate 12 is provided. Both plates 1
Each of 1 and 12 has a through hole (not shown) at the central position. Block-shaped rubber elastic body portions 13 and 14 are adhered by vulcanization molding to both sides of the plates 11 and 12 in the longitudinal direction to elastically connect the plates 11 and 12. A protruding plate portion 16 that constitutes a stopper member 15 is disposed between the rubber elastic body portions 13 and 14 of the first plate 11. As shown in FIG. 2, the protruding plate portion 16 is formed by bending a thin metal plate, has a rectangular tubular shape, and has a through hole into which an anchor bolt 22 described later is inserted at the center of one flat plate portion 17. 17a is provided, and an engaging hole 1 through which a fixing bolt 26 to be described later is inserted with a predetermined width from one axial end to the other flat plate portion 18 that faces
8a is provided.

The seismic isolation device 10 is interposed between the concrete foundation 21 and a position near the pillar 28 of the foundation 25 of the building. An anchor bolt 22 is embedded in the concrete foundation 21, and a screw portion 22a at one end of the anchor bolt 22 projects from the concrete foundation. In the seismic isolation device 10, the first plate 11 is placed on the concrete foundation 21 and the through hole is inserted into the screw portion 22a. Further, the second plate 12 of the seismic isolation device 10 is in close contact with the lower surface of the base 25. A fixing bolt 26 penetrating the base 25 and hanging down is inserted into the through hole. The upper end of the fixing bolt 26 is fixed by a nut 27 a on the upper surface of the base 25, and the nut 2 is fixed at the position of the second plate 12.
It is fixed by 7b and extends to a position near the anchor bolt 22.

Further, the through hole 17a of the protruding plate portion 16 is inserted into the screw portion 22a, and the nut 23 is screwed into the screw portion 22a, whereby the first plate 11 and the protruding plate portion 16 are fixed to the concrete foundation 21. Fixed on top. Also,
The lower end side of the fixing bolt 26 has an engaging hole 18 of the protruding plate portion 16.
a is inserted, and at the tip through which the engagement hole 18a is inserted,
An engaging piece 26a, which is a flat plate, is fixed at a right angle to the axis. The engaging piece 26 a constitutes an engaging portion of the stopper member 15 together with the fixing bolt 26.

In the reference example constructed as described above,
The rubber elastic body portion 1 is provided between the first and second plates 11 and 12.
Since 3 and 14 are bonded by vulcanization, strength and durability are secured against small vertical and horizontal displacements applied to the seismic isolation device 10 due to small shaking of the concrete foundation 21. Furthermore, concrete foundation 21
Against a large vertical and horizontal displacement applied to the seismic isolation device 10 due to a large sway of the stopper member 15
The fixing bolt 26, which is the engaging portion of the fixing bolt 26, and the engaging piece 26 a provided at the tip of the fixing bolt 26,
By engaging a, further displacement can be mechanically prevented. As a result, large vertical displacements and horizontal displacements applied to the seismic isolation device 10 can be mechanically prevented, and thus the collapse of the building can be prevented. Further, since the stopper member 15 is provided in the space between the rubber elastic body portions 13 and 14 and does not stick out to the outside and is formed compactly, there is no sense of discomfort from the outside and the use of the building. Give a sense of security to others.

As a modified example of the reference example , as shown in FIG. 3, the stopper member is attached to the second protruding plate portion 16A.
May be attached to the plate 12 and the engaging portion 22A may extend from the anchor bolt 22 of the first plate 11.

Next, a first embodiment of the present invention will be described. In this embodiment, as shown in FIG.
As a stopper member 31 of the seismic isolation device 30, a protruding plate portion 32 fixed to the second plate 12, an anchor bolt 33 protruding from the concrete foundation 21 which is an engaging portion, and an engaging piece 33a fixed to the tip thereof. And a curved surface convex portion 34 protruding in a hemisphere shape on the surface of the protruding plate portion 32 facing the anchor bolt 33. Furthermore, with the seismic isolation device 30 mounted between the concrete foundation 21 and the base 25, the curved convex portion 34 is brought into contact with the engaging piece 33a fixed to the tip of the anchor bolt 33. The other configurations are the same as those of the seismic isolation device shown in the above reference example , and the description thereof will be omitted.

In the first embodiment having the above structure, the curved convex portion 34 provided on the projecting plate portion 32 has the anchor bolt 33.
By abutting on the engaging piece 33a fixed to the tip of the, the friction of the abutting portion can be reduced and the mutual horizontal movements can be performed smoothly, so that there is no limitation to the vertical spring ratio. , Spring characteristics suitable for horizontal direction can be obtained. Furthermore, in the curved surface convex portion 34 provided on the protruding plate portion 32,
Since the engagement piece 33a fixed to the tip of the anchor bolt 33 is in contact with the seismic isolation device 30, it is possible to prevent the rubber elastic body portion from being worn out due to long-term use.

In the above-mentioned embodiment and modification,
One end side of the engagement hole 18a of the projecting plate portion 16 that constitutes the stopper member is open, but after the fixing bolt 26 is inserted, a small piece may be fixed to the open end by welding or the like to be closed. Thereby, the stopper member can perform a stopper function against displacements in all horizontal directions.

Although the stopper members shown in the above-described embodiments and modifications are configured to use anchor bolts and fixing bolts, the stopper structure is not limited to this and various other stopper structures are possible. For example, as a stopper structure that stops displacement in one direction in the vertical and horizontal directions, U
A combination of a U-shaped member and an L-shaped member fixed to both plates 11 and 12 and a combination of a U-shaped member and a U-shaped member fixed to both plates 11 and 12 are possible. is there. Also, as a stopper structure that stops displacement in all directions in the vertical and horizontal directions, a pair of U-shaped members are fixed to both plates and combined, or a U-shaped member with holes and a steel plate with holes are split. A combination of pins and the like is possible.

Regarding the formation of these stopper structures, both members are attached to both plates in advance and they are integrally formed at the time of vulcanization molding of the rubber elastic body portion on the plate, and after the rubber elastic body portion is vulcanized on the plate. , A method of fixing both members to a plate and integrating them, a vulcanized molded product of the plate and the rubber elastic body portion, and both members are prepared separately, and both of them are used as a foundation and a concrete foundation during construction of a building. There is a method of integrating when fixing. Also, with respect to the attachment of the member to the plate, fixing by welding, fixing with bolts, pins or split pins, wires, or the like is possible, or a method of integrally forming the plate and the member at the same time is also possible. Further, the shape of the rubber elastic body portion with respect to the stopper member is not limited to the shape in which the rubber elastic body sandwiches the stopper member, but may be configured so as to surround the stopper member and open at one place. Although the structure of the stopper member will not be described one by one, it can be implemented in various forms as necessary.

Next, a second embodiment will be described. The seismic isolation device 40 of the present embodiment, as shown in FIG.
A first projecting plate portion 41 also serving as a first plate placed on the concrete foundation 21, and a second projecting plate portion 46 also serving as a second plate fixed to the base 25 of the building and projecting toward the concrete foundation 21. And a rubber elastic body portion 49 connecting between the first protruding plate portion 41 and the second protruding plate portion 46.

As shown in FIG. 7A, the first projecting plate portion 41 is a rectangular tubular body formed by bending a thin metal plate, and both side plates 42 are located at a substantially central position in the height direction. The step portion 42a is narrowed from both sides in the width direction, and the step portion 42a serves as a boundary to form a lower wide portion and an upper narrow portion. The upper side plate 43 slightly projects outward from both narrow portions. Further, a rubber thin plate 45 for slip prevention is fixed to the outer surface of the bottom plate 44 which is the first plate. The bottom plate 44 and the rubber thin plate 45 are provided with mounting holes 44a cut from one end in the longitudinal direction.

As shown in FIG. 7B, the second projecting plate portion 46 is formed by bending a thin metal plate, and has a substantially U-shape having the same width and the same length as the first projecting plate portion 41. The upper plate 4 has a character shape and is bent at a right angle to the side plates on the open end side (lower side in the drawing) of both side plates 47 and protrudes in the opposite direction.
An engaging piece 47a that can be engaged with the protruding portion of No. 3 is provided.
The first protrusion 41 and the second protrusion 46 are the first protrusion 41.
Part of the narrow portion and the upper plate 43 are inserted into the second protruding portion 46 and are arranged in parallel and opposite to each other.

A rubber elastic body portion 49 is provided by vulcanization molding between the upper plate 48 which is the second plate and the upper side plate 43 of the first protruding plate portion 41, and the rubber elastic body is formed. The first protruding plate portion 41 and the second protruding plate portion 46 are formed by the portion 49.
The spaces are elastically connected. The upper plate 48 and the rubber elastic body portion 49 have a mounting hole 48 cut from one end in the longitudinal direction.
a is provided. In the seismic isolation device 40, the upper plate 43 of the first protruding plate 41, the step portion 42a, and the side plate 4
A stopper member is configured by the narrow portion 2 and the engaging piece 47a of the second protruding plate portion 46.

In the seismic isolation device 40, the first projecting plate portion 41 is placed on the concrete foundation 21, the screw portion 22a of the anchor bolt 22 is inserted into the mounting hole 44a cut from one end in the longitudinal direction, and the nut is inserted. It is fixed to the concrete foundation 21 by screwing 23. In addition, the second protruding plate portion 4
6 is fixed to the base 25 by tightening the nut 27a on the base 25 side in a state in which the mounting hole 48a cut from one end in the longitudinal direction is engaged with the nut 27b of the fixing bolt 26 protruding from the base 25. It

In the second embodiment constructed as described above, the rubber elastic body 49 is vulcanized between the upper plate 43 of the first projecting plate 41 and the upper plate 48 of the second projecting plate 46. Since they are adhered, strength and durability are secured against small vertical and horizontal displacements applied to the seismic isolation device 40 due to small shaking of the concrete foundation 21. Further, with respect to the large vertical and horizontal displacements applied to the seismic isolation device 40 due to the large shaking of the concrete foundation 21, the upper plate 43 of the first projecting plate part 41 and the step part 42a and the side plate 42 which constitute the stopper member. By engaging the engaging piece 47a of the second projecting plate portion 46 with the narrow portion of
Further displacement can be mechanically prevented. As a result, it is possible to mechanically prevent large vertical and horizontal displacements applied to the seismic isolation device 40, so that the building can be prevented from collapsing. Further, in the present embodiment, the upper side plate 43 of the first protruding plate portion 41 and the second protruding plate portion 46.
By providing the rubber elastic body portion 49 between the upper plates 48,
The size of the seismic isolation device can be made smaller than that provided on both outsides of the projecting plate portion 16 constituting the stopper member.

As a modification of the second embodiment, as shown in FIG. 6, the first projecting plate portion 41 of the seismic isolation device is attached to the base 2 as shown in FIG.
Alternatively, the second projecting plate portion 46 may be fixed to the concrete foundation 21 with the anchor bolts 22 by mounting it on the fifth side.

In the second embodiment and the modified example described above, both end sides of both side plates 47 of the second projecting plate portion 46 which constitutes the stopper member are open, but the first projecting plate portion 41.
After aligning the second projecting plate portion 46 with the second projecting plate portion 46, or after the rubber elastic body portion 49 is vulcanized and molded, small pieces may be fixed to both ends of the both side plates 47 by welding or the like to be closed. Thereby, the stopper member can perform a stopper function against displacements in all horizontal directions. In addition, the second
The configuration of the stopper member shown in the embodiment and the modified example is not limited to this, as long as it can suppress large vertical and horizontal displacements applied to the seismic isolation device within a predetermined range. Good.

Further, in the first and second embodiments and the modified examples, the rubber elastic body portion may have a laminated structure in which rubber and metal plates are alternately laminated vertically. By forming the rubber elastic body portion into a laminated structure, spring characteristics suitable for the horizontal direction can be obtained without being limited by the spring ratio of the rubber elastic body in the vertical direction. Also, by having a laminated structure,
Suppression of the rubber elastic body part due to long-term use of the seismic isolation device can be suppressed.

In addition, the embodiments described above are merely examples, and various modifications may be made without departing from the spirit of the present invention.

[0030]

According to the invention of claim 1, the stopper is provided.
By engaging the engaging portion of the member with the engaging hole of the protruding plate portion,
The vertical and horizontal size of the seismic isolation device
Since it is possible to mechanically prevent such displacement,
Can be prevented from breaking. Also, the rubber elastic body is vulcanized and molded.
Because it is glued, it can be applied vertically to the seismic isolation device.
And strength and durability against small horizontal displacement
Be done. Also, the plate side provided with the protruding plate portion or the engagement
Since the other of the parts is in contact with the curved surface convex part, the contact part
Friction can be reduced, and mutual lateral movement can be performed smoothly.
Therefore, water is not limited to the vertical spring ratio.
A spring characteristic suitable for the horizontal direction can be obtained. further,
The plate side provided with the protruding plate portion or the other of the engaging portions is
Since it is in contact with the curved convex part,
It is possible to prevent the rubber elastic body part from being worn out due to use .

According to the invention of claim 2, the strike
The engaging part of the top member engages with the engaging hole of the protruding plate part.
The vertical and horizontal directions added to the seismic isolation device
Since it is possible to mechanically prevent such displacement,
Can prevent collapse. Also, the rubber elastic body part is made by vulcanization molding.
Since it is glued together, it is added vertically to the seismic isolation device.
And secures strength and durability against small horizontal displacement
To be done. Furthermore, a rubber bullet is placed between one plate side and the engaging part.
By providing the body part, the protrusion that constitutes the stopper member
The size of the seismic isolation device is larger than that provided on both the outside of the board
Can be made smaller. Also, laminated rubber elastic body
Due to the structure, it is limited to the vertical spring ratio
Can produce spring characteristics suitable for horizontal direction without
In addition, the rubber elastic body part can be
It is possible to prevent dripping (effect of the invention of claim 3) .

[Brief description of drawings]

FIG. 1 is a partial cross-sectional view schematically showing a use state of a building seismic isolation device interposed between a concrete foundation and a building base, which is a reference example of the present invention.

FIG. 2 is a perspective view schematically showing a protruding plate portion that constitutes a stopper member of the seismic isolation apparatus.

FIG. 3 is a partial cross-sectional view schematically showing a usage state of a building seismic isolation device interposed between a concrete foundation and a building base, which is a modified example.

FIG. 4 shows in detail a stopper member of the seismic isolation device according to the first embodiment.

FIG. 5 is a partial cross-sectional view schematically showing a usage state of the building seismic isolation device interposed between the concrete foundation and the building base according to the second embodiment.

FIG. 6 is a partial cross-sectional view schematically showing a usage state of a building seismic isolation device interposed between a concrete foundation and a building base as a modification.

FIG. 7 is a perspective view schematically showing a first projecting plate portion and a second projecting plate portion of the building seismic isolation device according to the second embodiment and the modification.

[Explanation of symbols]

10 ... Seismic isolation device, 11 ... First plate, 12 ... Second plate, 13, 14 ... Rubber elastic body, 15 ... Stopper member, 16 ... Projection plate portion, 18a ... Engagement hole, 21 ... Concrete foundation, 22 ... Anchor bolt, 25 ... Base, 26 ...
Fixing bolt, 26a ... Engaging piece, 30 ... Seismic isolation device, 31 ...
Stopper member, 32 ... Projecting plate part, 33 ... Anchor bolt, 33a ... Engaging piece, 34 ... Curved convex part, 40 ... Seismic isolation device, 41 ... First projecting plate part, 46 ... Second projecting plate part, 47a
... engaging piece, 48 ... upper plate, 49 ... rubber elastic body portion.

─────────────────────────────────────────────────── ─── Continuation of front page (56) Reference JP-A-10-246032 (JP, A) JP-A-11-62309 (JP, A) JP-A-10-169248 (JP, A) JP-A-2000-17891 (JP, A) S. 54-38117 (JP, Y1) (58) Fields investigated (Int.Cl. ⁷ , DB name) E04H 9/02 331

Claims (3)

(57) [Claims] 1. An anchor bolt embedded in the anchor.
A concrete foundation with the tip of the bolt protruding to the surface,
With the base of the building arranged above the concrete foundation
A seismic isolation device for a building interposed between the concrete foundation mounted on the concrete foundation.
The projection of the anchor bolt embedded in the foundation is used to
A first plate fixed to the cleat foundation, and a first plate fixed to the cleat foundation and arranged to face the first plate;
The fixing bolt installed through the base in the coaxial direction
Second plate fixed to the base by the protrusion of the belt
If, bonded by vulcanization between the first and second plates, open to the outside
And the protruding part of the anchor bolt is arranged.
A rubber elastic body portion having a hollow space, and the first protrusion fixed to the protruding portion of the anchor bolt.
The rate or the fixing portion fixed to the protruding portion of the fixing bolt
Fixed to either one of the second plates and the other
Projected toward the plate and provided with engaging holes on the projecting surface
The projecting plate portion and the engaging hole provided on the other plate so as to project.
And an engaging portion that is capable of engaging with the engaging hole.
By engaging the engaging portion with the engaging hole.
A stopper that limits the vertical and horizontal displacement of the base.
A plate member, and the plate side provided with the protruding plate portion or the inside of the engaging portion.
A curved surface convex portion is provided on either one of the
The plate side provided with or the other of the engaging portions is the curved surface convex portion
A seismic isolation device for buildings, which is in contact with a building . 2. The tip of the anchor bolt is projected on the surface.
Arranged above the concrete foundation and the concrete foundation
Seismic isolation for building that is interposed between the base of the built building
And the anchor bolt is placed on the concrete foundation.
First fixed to the concrete foundation at the projecting part of the toe
A plate, and the anchor board is disposed to face the first plate.
The fixing bolt installed through the base in the coaxial direction
Second Plate fixed to該土stand at belt protrusions
And one of the first or second plates
Is fixed and protrudes toward the other plate,
The protruding plate with the engaging hole and the protruding plate on the other plate.
So as to be inserted into the engaging hole and engageable with the engaging hole
And the engaging portion engages with the engaging hole.
This will prevent vertical and horizontal displacement of the base.
Limited stopper member, and between the one plate side of the stopper member and the engaging portion
And a rubber elastic body part vulcanized and bonded to
Seismic isolation device for buildings . 3. The rubber elastic body portion includes a rubber layer and a metal plate.
The laminated structure according to claim 2, characterized in that
Seismic isolation device for buildings .