JP7165548B2 - Seismic isolation foundation structure and its construction method - Google Patents

Description

The present invention relates to a base isolation structure including a base isolation device and base isolation foundations provided above and below the base isolation device, and a method for constructing the base isolation base.

Conventionally, a seismic isolation structure has been proposed in which seismic isolation foundations are constructed above and below a seismic isolation device.
Patent Document 1 shows a seismic isolation foundation structure B comprising a foundation slab 11, a precast concrete bed 10 installed on the foundation slab 11, and a seismic isolation device 1 installed on the precast concrete bed 10. It is In the foundation slab 11, a reinforcing bar 12 with a fixing plate is embedded, and the upper part of the reinforcing bar 12 with a fixing plate is inserted through the through hole 10c of the precast concrete board 10, but the reinforcing bar in the precast concrete board 10 Not spliced.

In Patent Document 2, a lower foundation 1, a seismic isolation device 3 installed on this lower foundation 1, a flat PCa board 10 installed on this seismic isolation device 3, and on this PCa board A seismic isolation foundation provided with a RC structure upper foundation 2 as a foundation of the building body provided in the building is shown. Anchor members 13 are embedded in the PCa board 10 , and the upper ends of the anchor members 13 are fixed to the upper foundation 2 but are not joined to the reinforcing bars of the upper foundation 2 .
In Patent Document 3, a seismic isolation device 2, a beam-to-column joint 3 on the lower layer side fixed below the seismic isolation device, and a column-to-beam joint 4 on the upper layer side fixed above the seismic isolation device 2 and a mounting structure for a seismic isolation device. The lower part of the column-to-beam joint 4 on the upper layer side is composed of a PCa member 41 . An anchor 47 fixed to a base plate 45 is embedded in the bottom surface of the PCa member 41 . The upper end of the anchor 47 is fixed to the beam-to-column joint 4, but is not joined to the reinforcing bar in the beam-to-column joint 4. As shown in FIG.

JP 2011-32759 A JP 2012-67524 A Japanese Patent No. 6359349

The present invention provides a seismic isolation foundation structure and a method of constructing the same, in which a seismic isolation device can be installed on a seismic isolation foundation with high accuracy and in a short construction period, and the seismic isolation device and the seismic isolation foundation can be firmly integrated. The challenge is to

The present inventors have proposed a seismic isolation foundation structure including a seismic isolation device and precast concrete seismic isolation foundations above and below the seismic isolation device without protruding vertical reinforcing bars from each seismic isolation foundation. Reinforcement joints connected to foundation rebars are buried inside, and the vertical rebars of the frame are inserted into the rebar joints and joined, making it easy to create a base isolation foundation made of precast concrete with high precision. Focusing on the point that it can be installed in a predetermined position, and that the lower seismic isolation foundation and the lower skeleton can be reliably joined, and the upper seismic isolation foundation and the upper skeleton can be reliably joined, the present invention was achieved. rice field.
A seismic isolation foundation structure (for example, a seismic isolation foundation structure 1 to be described later) of the first invention is a lower seismic isolation foundation (for example, a lower isolation structure to be described later) provided on a lower frame (for example, a lower frame 10 to be described later). Seismic foundation 20), a seismic isolation device (for example, a seismic isolation device 30 to be described later) installed on the lower seismic isolation foundation, and an upper seismic isolation foundation (for example, a seismic isolation device to be described later) provided on the seismic isolation device An upper base isolation foundation 40) and an upper skeleton (for example, an upper skeleton 50 described later) provided on the upper base isolation foundation, wherein the lower base isolation foundation and the Let at least one of the upper seismic isolation foundations be the target seismic isolation foundation (for example, the lower seismic isolation foundation 20 and the upper seismic isolation foundation 40 to be described later), and the frame that is in contact with the target seismic isolation foundation is the target frame (for example, the lower frame to be described later). 10, upper frame 50), the target seismic isolation foundation includes foundation reinforcing bars (for example, foundation reinforcing bars 25 and 45 to be described later) and reinforcing bar joints (for example, reinforcing bar joints 26 to be described later, 46) is buried, and vertical reinforcing bars (for example, vertical reinforcing bars 15 and 55 described later) are protruding from the surface of the target frame on the side of the target seismic isolation foundation. It is characterized by being inserted and joined to the reinforcing bar joint of the seismic foundation.

According to this invention, at least one of the lower seismic isolation foundation and the upper seismic isolation foundation is the target seismic isolation foundation, and the frame in contact with the target seismic isolation foundation is the target frame. The reinforcing bar joints joined to the foundation reinforcing bars were embedded in the target seismic isolation foundation, and the vertical reinforcing bars of the target frame were joined to these reinforcing bar joints. Therefore, since the foundation reinforcing bars of the target seismic isolation foundation and the vertical reinforcing bars of the target frame are joined via the reinforcing bar joints, the target seismic isolation foundation and the target frame can be firmly integrated.

A seismic isolation foundation structure of the second invention is characterized in that the target seismic isolation foundation is a precast concrete structure.

According to this invention, since the target seismic isolation foundation is made of precast concrete, this target seismic isolation foundation is manufactured in advance at a PC factory, and by carrying this manufactured target seismic isolation foundation to the site, A seismic isolation foundation structure can be constructed within the construction period.
In addition, by making the target base isolation foundation a precast concrete structure, the target base isolation foundation can be manufactured with high accuracy in advance at a PC factory, so the base isolation foundation structure can be constructed with high accuracy.
In addition, since the reinforcing bar joints were buried in the target seismic isolation foundation of precast concrete construction, the target seismic isolation foundation and the target frame were compared by inserting the vertical reinforcing bars of the target frame into the reinforcing bar joints of the target seismic isolation foundation. Easy to join.

A method for constructing a seismic isolation foundation structure of the third invention comprises: a lower seismic isolation foundation provided on a lower skeleton; a seismic isolation device installed on the lower seismic isolation foundation; A method for constructing a seismic isolation foundation structure comprising an upper seismic isolation foundation provided in the upper seismic isolation foundation and an upper skeleton provided on the upper seismic isolation foundation, wherein a lower skeleton having upwardly protruding vertical reinforcing bars is constructed. (for example, step S1 described later), a lower seismic isolation foundation is manufactured in advance by burying the reinforcing bar joints joined to the foundation main reinforcement, and the lower seismic isolation foundation is placed on the lower skeleton. Then, a step of inserting and joining the vertical reinforcing bars of the lower frame into the reinforcing bar joints of the lower base isolation foundation (for example, step S2 described later); and installing the base isolation device on the lower base isolation foundation. (for example, step S3 described later), and an upper seismic isolation foundation is manufactured in advance by burying the reinforcing bar joints joined to the foundation main reinforcement, and the upper seismic isolation foundation is placed on the seismic isolation device. A step of installing (for example, step S4 described later), and a step of inserting and joining vertical reinforcing bars into the reinforcing bar joints of the upper seismic isolation foundation and constructing the upper skeleton including the vertical reinforcing bars (for example, and step S5).

According to this invention, there is an effect similar to that of claim 1 described above.

According to the present invention, a seismic isolation foundation structure and a method for constructing the same are provided, in which a seismic isolation device can be installed on a seismic isolation foundation with high accuracy in a short construction period, and the seismic isolation device and the seismic isolation foundation can be firmly integrated. can provide.

1 is a side view of a seismic isolation foundation structure according to an embodiment of the present invention; FIG. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1; It is a figure which shows the bar arrangement structure of the seismic isolation foundation structure shown in FIG. FIG. 2 is an enlarged view of a portion surrounded by a dashed line B in FIG. 1; It is a flow chart of the construction procedure of the seismic isolation foundation structure. It is an explanatory diagram of the construction procedure of the seismic isolation foundation structure (No. 1, the situation of installing the lower seismic isolation foundation on the lower skeleton). It is explanatory drawing of the construction|assembly procedure of the said seismic isolation foundation structure (2, the situation which installs an upper seismic isolation foundation on a seismic isolation apparatus).

The present invention provides a seismic isolation base structure including a seismic isolation device and precast concrete seismic isolation foundations above and below the seismic isolation device, and a construction method for the seismic isolation base structure.
In this embodiment, the reinforcing bar joints joined to the foundation reinforcing bars are embedded in the lower seismic isolation foundation and the upper seismic isolation foundation, and the vertical reinforcing bars of the lower frame and the upper frame are inserted into the reinforcing bar joints and joined. . According to this embodiment, by inserting and joining the vertical reinforcing bars of each frame into the reinforcing bar joints of each seismic isolation foundation, each base isolation foundation and each frame are integrated. There is no interference between the reinforcing bars that are installed and the foundation reinforcing bars that are arranged on each seismic isolation foundation, and they can be joined relatively easily and firmly. In addition, since the precast concrete seismic isolation foundation is not provided with protruding reinforcing bars, a plurality of seismic isolation foundations can be loaded on the carrier of a transport truck, and can be efficiently transported from the PC factory to the construction site.
An embodiment of the present invention will be described below with reference to the drawings.
FIG. 1 is a side view of a seismic isolation foundation structure 1 according to one embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line AA of FIG. FIG. 3 is a diagram showing the bar arrangement structure of the seismic isolation foundation structure 1. As shown in FIG. FIG. 4 is an enlarged view of a portion surrounded by broken line B in FIG.
The seismic isolation foundation structure 1 includes a lower seismic isolation foundation 20 provided on a lower skeleton 10, a seismic isolation device 30 provided on the lower seismic isolation foundation 20, and a seismic isolation device 30 provided on the base isolation device 30. An upper seismic isolation foundation 40 and an upper skeleton 50 provided on the upper seismic isolation foundation 40 are provided.

The lower frame 10 is made of reinforced concrete, and as shown in FIG. ing. A floor slab 13 is constructed at the upper end of the lower frame 10 .
Reinforcing bars 14 are arranged and embedded in the lower frame 10 . A part of this reinforcing bar 14 is a vertical reinforcing bar 15 protruding upward from the upper surface of the lower skeleton 10 (see FIGS. 3 and 4).

The lower seismic isolation foundation 20 is a rectangular precast concrete structure in plan view, and a grout layer 16 is formed between the lower seismic isolation foundation 20 and the lower frame 10 .
As shown in FIG. 4 , a lower base plate 21 is driven into the central portion of the upper surface of the lower seismic isolation foundation 20 . The lower base plate 21 is provided with female threaded portions 22 annularly at predetermined intervals, and anchor bolts 23 fixed to the lower seismic isolation foundation 20 are screwed to the lower ends of the female threaded portions 22 . ing. The base plate 21 is also provided with anchor members 24 fixed to the lower seismic isolation foundation 20 .
Further, foundation reinforcing bars 25 and reinforcing bar joints 26 joined to the basic reinforcing bars 25 are embedded in the lower outer peripheral portion of the lower seismic isolation foundation 20 . A lower end surface of the reinforcing bar joint portion 26 is exposed to the lower surface of the lower base isolation foundation 20 . The reinforcing bar joints 26 embedded in the outer peripheral portion of the lower base isolation foundation 20 are joined to all the lower end portions of the foundation reinforcing bars 25 arranged in the lower base isolation foundation 20 in a basket shape.
The vertical reinforcing bars 15 of the lower skeleton 10 are joined to the reinforcing bar joints 26 of the lower seismic isolation foundation 20 . The vertical reinforcing bar 15 is joined to the reinforcing bar joint section 26 by inserting the vertical reinforcing bar 15 into the reinforcing bar joint section 26 and filling the reinforcing bar joint section 26 with a non-shrinkable grout material through the injection hose 27 in this state.

The seismic isolation device 30 supports the upper seismic isolation foundation 40 horizontally movably with respect to the lower seismic isolation foundation 20 .
The seismic isolation device 30 includes a laminated rubber 31 , a lower flange 32 positioned below the laminated rubber 31 , and an upper flange 33 positioned above the laminated rubber 31 .
The laminated rubber 31 is formed by alternately laminating steel plates and rubber.
The upper and lower flanges 32 and 33 are provided with bolt insertion holes 34 for inserting bolts at predetermined intervals along the periphery.
The lower flange 32 abuts the lower base plate 21 . The lower flange 32 is fixed to the lower base plate 21 of the lower seismic isolation foundation 20 by inserting the bolt 35 through the bolt insertion hole 34 of the lower flange 32 and screwing it into the female screw portion 22 .

The upper seismic isolation foundation 40 is a rectangular precast concrete structure in plan view, and has the same structure as the lower seismic isolation foundation 20 .
An upper base plate 41 is driven into the center of the lower surface of the upper seismic isolation foundation 40 . The upper base plate 41 is provided with female threaded portions 42 in an annular shape at predetermined intervals, and anchor bolts fixed to the upper seismic isolation base 40 are screwed to the lower ends of the female threaded portions 42 . there is The base plate 41 is also provided with anchor members 44 fixed to the upper seismic isolation foundation 40 .
Further, as shown in FIG. 3 , foundation reinforcing bars 45 and reinforcing bar joints 46 joined to the foundation reinforcing bars 45 are embedded in the upper outer peripheral portion of the upper seismic isolation foundation 40 . The upper end surface of the reinforcing bar joint portion 46 is exposed on the upper surface of the upper seismic isolation foundation 40 . The reinforcing bar joint portion 46 embedded in the outer peripheral portion of the upper base isolation foundation 40 is, like the reinforcing bar joint portion 26 of the lower base isolation foundation 20, the foundation reinforcing bars 45 arranged in a basket shape within the upper base isolation foundation 40. All upper ends are joined.
The upper flange 33 of the seismic isolation device 30 is in contact with the upper base plate 41 . The upper base plate 41 of the upper seismic isolation foundation 40 is fixed to the upper flange 33 by inserting the bolt 35 through the bolt insertion hole 34 of the upper flange 33 and screwing it into the female screw portion 42 .

Returning to FIG. 1, the upper frame 50 is made of reinforced concrete and is constructed at the column-to-beam joints between the lower ends of the steel columns 51 and the four steel beams 52 joined to the lower ends of the steel columns 51. there is A floor slab 53 is constructed at the upper end of the upper skeleton 50 .
As shown in FIG. 3 , reinforcing bars 54 are arranged and embedded in the upper skeleton 50 . A vertical reinforcing bar 55 extending in the vertical direction is inserted and joined to the reinforcing bar joint portion 46 of the upper base isolation foundation 40 , and the vertical reinforcing bar 55 is a part of the reinforcing bar 54 of the upper skeleton 50 .
A grout layer 56 is formed between the upper seismic isolation foundation 40 and the upper skeleton 50 .

(Construction method of seismic isolation foundation structure)
The procedure for constructing the seismic isolation foundation structure 1 will be described below with reference to the flowchart of FIG.
In step S1, as shown in FIG. 6, the lower skeleton 10 is constructed at the column-to-beam joint between the steel frame column 11 and the steel frame beam 12. As shown in FIG. A vertical reinforcing bar 15 protrudes upward from the upper surface of the lower frame 10 .

In step S<b>2 , the lower seismic isolation foundation 20 is installed on the lower skeleton 10 .
Specifically, as shown in FIG. 6, the lower seismic isolation base 20 is manufactured in advance at a PC factory and carried to the site. Next, the lower seismic isolation foundation 20 is lifted by a lifting machine (not shown) and placed on the lower skeleton 10 . At this time, the height and levelness of the lower base isolation foundation 20 are adjusted while inserting the vertical reinforcing bars 15 of the lower skeleton 10 into the reinforcing bar joints 26 of the lower base isolation foundation 20 . Next, a non-shrinkable grout material is filled into the reinforcing bar joint portion 26 through the injection hose 27 to join the vertical reinforcing bar 15 to the reinforcing bar joint portion 26 (see FIG. 4). In addition, a grout layer 16 is formed by filling a gap between the lower seismic isolation foundation 20 and the lower skeleton 10 with a grout material.

In step S3, the seismic isolation device 30 is installed on the lower seismic isolation base 20 as shown in FIG.
Specifically, the seismic isolation device 30 is lifted by a lifting machine (not shown) and placed on the lower seismic isolation foundation 20 . Next, bolts 35 are attached to fix the lower flange 32 of the seismic isolation device 30 to the lower base plate 21 of the lower seismic isolation foundation 20 .

In step S<b>4 , the upper base isolation foundation 40 is installed on the base isolation device 30 .
Specifically, as shown in FIG. 7, the upper seismic isolation foundation 40 is manufactured in advance at a PC factory and carried to the site. Next, the upper seismic isolation foundation 40 is lifted by a lifting machine (not shown) and placed on the seismic isolation device 30 . Next, the bolts 35 are attached to fix the upper base plate 41 of the upper seismic isolation base 40 to the upper flange 33 of the seismic isolation device 30 . Note that the precast concrete lower seismic isolation foundation 20 and upper seismic isolation foundation 40 may be manufactured not only at the PC factory but also within the site site (site PC).

In step S<b>5 , the upper skeleton 50 is constructed on the upper seismic isolation foundation 40 .
Specifically, a steel column 51 is erected on the upper seismic isolation foundation 40, and four steel beams 52 are joined to the lower ends of the steel columns 51. As shown in FIG. Next, the vertical reinforcing bars 55 are inserted and joined to the reinforcing bar joints 46 of the upper seismic isolation foundation 40 , and the reinforcing bars 54 of the upper skeleton 50 are arranged including the vertical reinforcing bars 55 . After that, the formwork for the upper skeleton 50 is erected and concrete is cast. Also, a grout layer 56 is formed by filling a gap between the upper seismic isolation foundation 40 and the upper skeleton 50 with a grout material.
As described above, since the grout layers 16 and 56 are provided between the lower skeleton 10 and the lower seismic isolation foundation 20 and between the upper seismic isolation foundation 40 and the upper skeleton 50, respectively, concrete is placed on site. The frames 10 and 50 constructed by the method and the seismic isolation bases 20 and 40 made of precast concrete can be joined while performing positioning adjustment.

According to this embodiment, there are the following effects.
(1) Reinforcement joints 26 joined to foundation rebars 25 were embedded in the lower seismic isolation foundation 20 , and vertical rebars 15 projecting from the lower skeleton 10 were joined to the rebar joints 26 . Also, reinforcing bar joints 46 joined to foundation reinforcing bars 45 were embedded in the upper seismic isolation foundation 40 , and vertical reinforcing bars 55 embedded in the upper skeleton 50 were joined to the reinforcing bar joints 46 . Therefore, since the foundation reinforcing bars 25, 45 of the seismic isolation foundations 20, 40 and the vertical reinforcing bars 15, 55 of the frames 10, 50 are joined via the reinforcing bar joints 46, the seismic isolation foundations 20, 40 and the frames 10, 50 can be firmly integrated.

(2) Since the lower seismic isolation foundation 20 and the upper seismic isolation foundation 40 are made of precast concrete, these seismic isolation foundations 20 and 40 are manufactured in advance at a PC factory, and the manufactured seismic isolation foundations 20 and 40 are installed. By carrying it to the site, the seismic isolation foundation structure 1 can be constructed in a short construction period.
Further, by making the base isolation foundations 20 and 40 of precast concrete construction, the base isolation foundations 20 and 40 can be manufactured with high accuracy in advance at a PC factory, so the base isolation structure 1 can be constructed with high accuracy.
In addition, since the reinforcement joints 26 and 46 are embedded in the seismic isolation foundations 20 and 40 made of precast concrete, the vertical reinforcement bars 15 and 55 of the frames 10 and 50 are inserted into the reinforcement joints 26 and 46 of the seismic isolation foundation 20. Thus, the seismic isolation foundations 20, 40 and the frames 10, 50 can be joined relatively easily.

(3) The reinforcing bar joints 26 , 46 are arranged on the outer periphery of the seismic isolation bases 20 , 40 and joined to the vertical reinforcing bars 15 , 55 of the frames 10 , 50 . Therefore, since reinforcing bars extending in the vertical direction are not arranged in the central portions of the seismic isolation foundations 20 and 40, the steel columns 11 and 51 can be extended to the vicinity of the seismic isolation device 30 of the frames 10 and 50, The joint strength and rigidity of the joint portion between the lower seismic isolation foundation 20 and the lower skeleton 10 and the joint portion between the upper seismic isolation foundation 40 and the upper skeleton 50 can be increased.

It should be noted that the present invention is not limited to the above-described embodiments, and includes modifications, improvements, etc. within the scope of achieving the object of the present invention.
In this embodiment, both the lower base isolation foundation 20 and the upper base isolation foundation 40 are made of precast concrete. It is also possible to use a concrete structure and the other to be a cast-in-place concrete structure.
Further, in the present embodiment, the reinforcing bar joints 26, 46 embedded in the outer peripheral portions of the seismic isolation foundations 20, 40 are joined to all the tips of the foundation reinforcing bars 25, 45 of the seismic isolation foundations 20, 40. However, if the horizontal resistance of the reinforcing bar joints exceeds the horizontal force borne by the seismic isolation device 30, the reinforcing bar joints are provided only at the four corners of each base isolation foundation 20, 40, and each base isolation base 20 , 40 may be fixed in the seismic isolation foundations 20, 40 without providing a reinforcement joint part in particular.
Further, in the present embodiment, the lower frame 10, the lower seismic isolation foundation 20, the seismic isolation device 30, the upper seismic isolation foundation 40, and the upper frame 50 were constructed or installed in this order, but this is not the only option. Inside, the upper and lower precast concrete seismic isolation foundations 20 and 40 and the seismic isolation device 30 are joined to manufacture a seismic isolation foundation unit, and the seismic isolation foundation unit is installed on the lower frame 10 at the site. may be installed, and the upper skeleton 50 may be joined on the seismic isolation base unit to construct a seismic isolation base structure.

DESCRIPTION OF SYMBOLS 1... Base isolation foundation structure 10... Lower frame 11... Steel column 12... Steel beam 13... Floor slab 14... Reinforcing bar 15... Vertical reinforcing bar 16... Grout layer 20... Lower base isolation foundation 21... Lower base plate 22... Female screw part 23... Anchor BOLT 24 Anchor member 25 Foundation reinforcing bar 26 Rebar joint 27 Injection hose 30 Seismic isolation device 31 Laminated rubber 32 Lower flange 33 Upper flange 34 Bolt insertion hole 35 Bolt 40 Upper base isolation foundation 41 ... Upper base plate 42 ... Female screw part 44 ... Anchor member 45 ... Foundation reinforcing bar 46 ... Reinforcement joint part 50 ... Upper skeleton 51 ... Steel column 52 ... Steel beam 53 ... Floor slab 54 ... Reinforcing bar 55 ... Vertical reinforcing bar 56 ... Grout layer

Claims (2)

A lower seismic isolation foundation installed on the lower frame, a seismic isolation device installed on the lower seismic isolation foundation, an upper seismic isolation foundation installed on the seismic isolation device, and the upper seismic isolation A seismic isolation foundation structure comprising an upper frame provided on the foundation,
When at least one of the lower base isolation foundation and the upper base isolation foundation is set as the target base isolation foundation, and the frame in contact with the target base isolation base is set as the target frame,
The target seismic isolation foundation is made of precast concrete, and is embedded with foundation reinforcing bars arranged in a basket shape and reinforcing bar joints joined to the tips of all the foundation reinforcing bars,
A vertical reinforcing bar is protrudingly provided on the surface of the target frame on the target seismic isolation foundation side,
The reinforcing bar joint of the target seismic isolation foundation is provided at a position away from the anchor bolt for fixing the seismic isolation device to the target seismic isolation foundation in plan view, and in a state in which the vertical reinforcing bar is inserted, A seismic isolation foundation structure characterized by being filled and joined with grout material. A lower seismic isolation foundation installed on the lower frame, a seismic isolation device installed on the lower seismic isolation foundation, an upper seismic isolation foundation installed on the seismic isolation device, and the upper seismic isolation A method for constructing a seismic isolation foundation structure comprising an upper frame provided on a foundation,
constructing a lower skeleton having vertical rebars projecting upward;
Reinforcing bars that are preliminarily joined to the cage-shaped foundation reinforcing bars and the lower ends of all of the foundation reinforcing bars and that are provided at positions apart from the anchor bolts for fixing the base isolation device to the lower base isolation foundation in a plan view. A lower seismic isolation foundation made of precast concrete is manufactured by burying joints, the lower seismic isolation foundation is placed on the lower frame, and the vertical reinforcing bars of the lower frame are used as reinforcing bars of the lower seismic isolation foundation. a step of inserting the grout material into the joint portion and joining the rebar joint portion of the lower seismic isolation foundation by filling the grout material ;
installing the seismic isolation device on the lower seismic isolation foundation;
Reinforcing bars that are joined in advance to the basket-shaped foundation reinforcing bars and the upper ends of all of the foundation reinforcing bars and that are provided in a position apart from anchor bolts for fixing the seismic isolation device to the upper seismic isolation foundation in a plan view. A step of burying joints to fabricate an upper seismic isolation foundation made of precast concrete , and installing the upper seismic isolation foundation on top of the seismic isolation device;
A method for constructing a seismic isolation foundation structure, comprising: inserting vertical reinforcing bars into reinforcing bar joints of the upper base isolation foundation, and constructing the upper skeleton including the vertical reinforcing bars.

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