JP2002371723A - Upper foundation structure for base-isolation building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an upper foundation structure for base-isolation device excellent in workability, facilitating the maintenance of quality, and effective for reduction in cost. SOLUTION: This foundation structure for base-isolation building 1 comprises a lower foundation structure 2 formed of lower foundation concrete 5, a base isolation device 4 placed on the upper surface of the lower foundation structure 2, and an upper foundation structural part 3 provided on the base isolation device 4. The upper foundation structural part 3 comprises a base isolation device connector 14, a connection part steel 19 that is a pedestal cylinder. A base isolation device connector body 15 is a cylinder having substantially the same diameter as the section of the connection part steel 19 to be welded to the upper part thereof and formed of the same material as the steel, so that the vertical load of an upper skeleton applied by the connection part steel 19 can be smoothly transmitted. The connection part steel 19 that is the pedestal cylinder is concentrically arranged on the upper part of the base isolation device connector 14 and connected thereto by welding.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper foundation structure of a base-isolated building which is excellent in workability and enables cost reduction.

[0002]

2. Description of the Related Art Conventionally, as a basic structure of a steel building to which a seismic isolation device 54 is applied, the structure shown in FIG. 2 is generally known. The seismic isolation device lower base plate 53 buried firmly on the upper surface of the lower foundation concrete 51 via the anchor bolts 57 and the lower flange 55 of the seismic isolation device 54 arranged on the upper surface thereof are fastened by the connection bolts 57a, The upper flange 56 of the seismic isolation device 54 and the upper substructure 52 located above the upper flange 56 are connected by connecting bolts 63a.
It is fixed by. Here, the upper substructure 52 located above the seismic isolation device 54 includes a base plate 62 on the seismic isolation device, a column receiving steel frame 58, and the column receiving steel frame 5.
8 is buried in concrete 60. The base plate 62 on the seismic isolation device 54 is placed on the upper surface of the seismic isolator 54, and the column base of the steel column 61 is further provided above the column receiving steel frame 58 fixed to the upper surface of the base plate 62 on the seismic isolation device. The connection portion steel frame 59 welded to the base portion is welded to the base plate 6 on the seismic isolation device.
2. The pillar receiving steel frame 58 and the connecting portion steel frame 59 are buried with concrete 60 so as to be integrated. The base plate 62 on the seismic isolation device is firmly embedded in the concrete 60 by the anchor bolt 63.

[0003]

However, the above-mentioned conventional upper base structure of the seismic isolation device has the following disadvantages. Since the upper foundation structure 52 has a basic configuration in which the column receiving steel frame 58 and the connection portion steel frame 59 are buried by the concrete 60, the seismic isolation device 5 is added by the weight of the concrete 60.
As the load acting on the base plate 4 increases, the connection status of the anchor bolts 63 that bury the base plate 62 on the seismic isolation device in the concrete 60 cannot be visually confirmed. In addition, before the concrete 60 is cast, when the steel column is erected on the upper part of the column receiving steel frame 58 constituting the upper foundation structure 52, the column receiving steel frame 58 has a structure sufficient to support the steel column. It is necessary to temporarily support the steel column using a temporary frame (not shown)
Poor workability.

In view of the above circumstances, an object of the present invention is to provide an upper foundation structure of a base-isolated building which is excellent in workability, easy in quality maintenance management, and effective in cost reduction.

[0005]

According to the first aspect of the present invention,
In an upper foundation structure of a base-isolated building using a base-isolation device for a base structure, a seismic-isolation device connected to an upper part of a base-isolation device provided on a lower foundation concrete, A column base cylinder fixed to the upper surface, wherein the seismic isolation device coupling body has a column base cylinder connected to an upper portion and a seismic isolation device coupling body having a cylinder having substantially the same diameter as the main body; A base plate provided at a lower part of the seismic isolation device body, and fastening means for fastening the base plate and an upper flange of the seismic isolation device on which the seismic isolation device is mounted. I have.

The invention according to claim 2 is characterized in that the outer periphery of the seismic isolator connection body is provided with upright plates radially arranged so as to connect the seismic isolator connection body and the base plate. And

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an upper foundation structure of a base-isolated building according to the present invention will be described below with reference to FIG. A base structure 1 of a base-isolated building according to the present invention includes a lower base structure 2 made of lower base concrete 5, a base-isolation device 4 mounted on an upper surface of the lower base structure 2, and a base-isolation device 4
Consists of an upper substructure 3 provided at the top of the
The upper foundation structure section 3 includes a seismic isolation device connecting body 14 and a connection portion steel frame 19 which is a column base cylinder.

The lower foundation structure 2 is formed by casting a lower foundation concrete 5, and a base plate 6 under the seismic isolation device is embedded in a surface on which the seismic isolation device 4 is mounted. . Base plate 6 under the seismic isolation device
Are provided with a plurality of holes 7 along the outer periphery. One end 8a of a long nut 8 is attached to the lower surface of the hole 7, and a bolt 10 inserted from the upper surface of the hole 7 is provided.
Will be fitted to one end 8a of the long nut as it is. Also, the other end 8b of the long nut 8
The fixing bolt 9 for fixing the base plate 6 below the seismic isolation device to the lower foundation concrete 5 is fitted.

A seismic isolation device 4 is mounted on the upper surface of the base plate 6 below the seismic isolation device. The seismic isolation device 4 used here comprises a generally cylindrical laminated rubber 11 and an upper flange 1 having a disk shape at its upper and lower ends.
2 and a lower flange 13 are provided.
The laminated rubber 11 is formed by alternately stacking iron plates and rubber sheets on a sandwich, and has a characteristic that the vertical rigidity is large but the horizontal rigidity is small.

Further, the upper flange 12 and the lower flange 13 constituting the seismic isolation device 4 are composed of a building mounted on the upper part of the seismic isolation device 4 and a lower foundation structure 2.
It is provided for connection with the wire and is made of an iron member. In the present embodiment, the lower flange 13 of the seismic isolation device 4 is provided with a fastening hole 13a having the same diameter at a position corresponding to the hole 7 provided in the seismic isolation device receiving plate 6. By inserting the bolt 10 through the fastening hole 13a and the hole 7, the seismic isolation device 4 and the lower foundation structure 2 are fastened. Also, a plurality of holes 12a are provided around the outer periphery of the upper flange of the seismic isolation device 4.

Above the seismic isolation device 4, an upper substructure 3 is formed. The upper foundation structure section 3 includes the seismic isolation device connection body 14 and a connection portion steel frame 19 which is a column base cylinder.
Further, the seismic isolation device connector 14 is composed of a seismic isolation device connector main body 15, an upright plate 16, a base plate 17, and bolts 18b and nuts 18a as fastening means. ing.

The seismic isolation device connecting body 15 is a tubular body having substantially the same diameter as the cross section of the steel frame 19 to be welded to the upper part thereof and made of the same member as the steel frame. The structure is such that the vertical load of the upper frame applied by the steel frame 19 can be smoothly transmitted.

The bottom of the main body 15 of the seismic isolation device is larger than the sectional shape of the main body 15 of the seismic isolation device, and is covered by a base plate 17 having substantially the same shape as the upper flange 12 of the seismic isolation device 4. Have been The base plate 17 is made of the same member as the seismic isolation device body 15, and a plurality of base plates 17 are provided around its outer periphery at positions corresponding to the holes 12 a provided in the upper flange 12 of the seismic isolation device 4. A hole 17a is provided. The hole 17a of the base plate 17 and the hole 12 of the upper flange 12 of the seismic isolation device 4
By inserting the bolt 18b through the nut a and fastening with the nut 18a, the seismic isolation device connection body 14 and the seismic isolation device 4 are fastened.

A plurality of upright plates 16 are provided on the side surface of the seismic isolation device connecting body 15 so as to project radially so as to connect the seismic isolation device connecting body 15 to the base plate 17. The upright plate 16 is a steel plate having its bottom fixed to the base plate 17 and attached so as to be vertically erected. The upright plate 16 is formed of the same member as the seismic isolator connection body 15. The upright plate 16 has a plurality of holes 17a provided around the outer periphery of the base plate 17.
It is provided to avoid.

On the upper part of the seismic isolation device coupling body 14 having such a structure, a connection portion steel frame 19 as a column-base cylinder is coaxially mounted and connected by welding.
Brackets 19a provided on the connection portion steel frame 19 include:
The steel beam 20 is fastened. In addition, the column base tubular body welded to the upper part of the seismic isolation device connecting body 14 has a connection part steel frame 19.
However, the present invention is not limited to this, and the column bases of the steel columns 21 constituting the upper skeleton may be directly placed coaxially on the upper part of the seismic isolation device coupling body 14 and welded.

Further, in the present embodiment, the seismic isolation device connecting body 14 and the connection portion steel frame 19 are only connected by welding, but concrete may be further poured around and embedded around the connecting member. At this time, the upright plate 16 provided on the seismic isolation device connector 14 has a function of improving the fixing strength to concrete.

According to the above-described configuration, the seismic isolation device connector 14 is formed by connecting the cross-section of the seismic isolation device connector body 15 to the connection portion steel frame 19 or the column base of the steel column 21 to be welded to the upper portion. And the like, and the bottom of the seismic isolation device coupling body 15 is larger than the cross-sectional shape of the seismic isolation device coupling body 15, and the upper portion of the seismic isolation device 4 Since the base plate 17 having substantially the same shape as the flange 12 is provided, it is possible to greatly improve the workability when the seismic isolation device connecting body 14 and the steel column 21 are built above the seismic isolation device 4. Becomes

Since it is not necessary to cast concrete in the upper foundation structure 3 of the seismic isolation building, the workability is good, the construction period is shortened, and the cost is reduced. In addition, it is possible to easily apply the skeleton construction precedent system to which the seismic isolation device 4 is attached. Also, since the upper substructure 3 is lightened, the seismic isolation device 4
And the number of constituent members of the lower foundation structure 2 can be reduced.

Further, since the upper substructure 3 is not buried in concrete, the bolts 18a for fastening the seismic isolation device 4 and the seismic isolation device coupling body 14 can be visually checked, and quality maintenance management is facilitated. At the same time, when the seismic isolation device 4 becomes obsolete, it becomes possible to easily carry out the replacement work even when the replacement becomes necessary. In addition, there is no need for a concrete formwork or a reinforcing bar to be disposed in the concrete, which leads to cost reduction and, consequently, consideration for environmental pollution.

[0020]

According to the upper base structure of the base-isolated building according to the first aspect, in the upper base structure of the base-isolated building using the base-isolated device for the base structure, the base-isolated device provided on the lower base concrete. A seismic isolation device connected to the top of the
A column base cylinder fixed to the upper surface of the seismic isolation device coupling body, wherein the seismic isolation device coupling body has a cylinder having substantially the same diameter as the column base cylinder coupled to the upper portion. A coupling device body, a base plate provided at a lower portion of the seismic isolation device coupling body, and fastening means for coupling the base plate and an upper flange of the seismic isolation device on which the seismic isolation device coupling body is mounted. Because it is constructed, it is not necessary to cast concrete on the upper foundation structure of the seismic isolation building, so the workability when building the seismic isolation device joint and the steel column above the seismic isolation device is good, It is also effective in shortening and cost reduction,
After the upper skeleton is built in advance, it is possible to easily apply the skeleton construction advanced method of attaching the seismic isolation device. Further, since the weight of the upper foundation structure is reduced, the burden on the seismic isolation device is reduced, and the number of components of the lower foundation structure can be reduced. Further, since the upper foundation structure is not buried with concrete, it becomes possible to visually check the bolts for fastening the seismic isolation device and the seismic isolation device connection body, and quality maintenance management is facilitated, and the seismic isolation device is In the case of aging, it is possible to easily carry out replacement work even when replacement becomes necessary. In addition, there is no need for concrete formwork or reinforcing bars to be placed inside the concrete, which leads to cost reduction and consequent consideration for environmental pollution.

According to the upper base structure of the seismic isolation device according to the second aspect of the present invention, the uprights are radially arranged on the outer periphery of the seismic isolation device connection body so as to connect the seismic isolation device connection body and the base plate. Since the plate is provided, the seismic isolation device itself has a sufficient strength, so that it is not necessary to cast the surroundings with concrete, and the workability can be improved.

[Brief description of the drawings]

FIG. 1 is a diagram showing details of a base structure of a base-isolated building using a base-isolation device according to the present invention.

FIG. 2 is a diagram showing details of a basic structure of a base-isolated building using a conventional base-isolation device.

[Explanation of symbols]

 Reference Signs List 1 foundation structure 2 lower foundation structure 3 upper foundation structure 4 seismic isolation device 5 lower foundation concrete 6 seismic isolation device receiving plate 7 hole 8 long nut 8a end 8b end 9 fixing bolt 10 bolt 11 laminated rubber 12 upper flange 12a hole 13 Lower Flange 13a Hole 14 Seismic Isolator Connection Body 15 Seismic Isolator Connection Body 16 Standing Plate 17 Base Plate 17a Hole 18a Nut 18b Bolt 19 Connection Steel Frame 19a Bracket 20 Steel Beam 21 Steel Column 51 Lower Foundation Concrete 52 Upper Foundation Structure Part 53 Seismic isolation device lower base plate 54 Seismic isolation device 55 Lower flange 56 Upper flange 57 Anchor bolt 57a Connection bolt 58 Pillar receiving steel frame 59 Connection steel frame 60 Concrete 61 Steel column 62 Base isolation device upper base plate 63 Anchor bolt 63a Connecting bolt

Claims (2)

[Claims] In an upper foundation structure of a base-isolated building using a base-isolation device for a base structure, a seismic-isolation device connecting body connected to an upper part of a base-isolation device provided on a lower foundation concrete; A column base cylinder fixed to an upper surface of the seismic device coupling body, wherein the seismic isolation device coupling body has a cylinder having substantially the same diameter as the column base cylinder coupled to the upper portion. A body body, a base plate provided at a lower portion of the seismic isolation device connected body, and fastening means for fastening the base plate and an upper flange of the seismic isolation device on which the seismic isolated device connection body is mounted. The upper substructure of a base-isolated building characterized by: 2. The upper foundation structure of a seismic isolation device according to claim 2, wherein the seismic isolation device connected body has an upright radially arranged on the outer periphery of the connected body to connect the base body to the base plate. The upper foundation structure of a base-isolated building, which is provided with plates.