JPH0625485B2 - Installation and replacement method of isolator for seismic isolation structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention collects and installs an isolator for a seismic isolation structure without damaging the upper and lower structures.
The present invention relates to a method for installing and replacing isolators for seismic isolation structures.

(Problems to be solved by the invention) With a seismic isolation structure that uses laminated rubber bearings as an isolator, it is necessary to collect the isolator when performing inspections on the aged isolator in addition to the tests for confirming durability. However, conventionally, the recovery work that anticipates a test or inspection has not been emphasized, and therefore the recovery of the isolator is performed in a state where the entire upper structure is lifted by the jack and is supported, which requires a large-scale work. When only some of the isolators are to be collected, it is sufficient to install a jack around them, but since the distance between the upper and lower structures is constant, there is a sacrifice to partially destroy at least one of the isolators and structures. Will be seen.

Also, in the latter method, the new isolator to be replaced is installed in a stress-free state, but due to the non-linear characteristics of the vertical rigidity of the laminated rubber bearing, the isolator will have a vertical dip when supporting the upper structure. After replacement, the stress due to the vertical loading of the superstructure skeleton at each isolator position will fluctuate, resulting in stress redistribution in the structure.

The present invention has been made focusing on various problems associated with the collection of isolators, and is intended to propose a method for solving these problems.

(Means for Solving Problems) In the present invention, a replacement joint is interposed between the isolator and the upper structure or the lower structure without damaging either the isolator or the structure. Prevents redistribution of stress to the upper structure by recovering the isolator and installing it under the same pressure as the pressure acting on the old isolator on the new isolator to be replaced. .

Horizontal plates are connected to the upper and lower ends of the isolator for connecting the upper structure and the lower structure, and a replacement joint formed by assembling the plates is connected to either one of the horizontal plates. The isolator is installed on the lower structure, and the isolator is collected and a new isolator is installed while the upper structure constructed on the isolator is used.

The existing old isolator supports the upper structure with a jack, and with the distance between the upper structure and the lower structure kept, it is recovered together with the replacement joint leaving the horizontal plate. A new isolator is connected to the remaining horizontal plate, and a new replacement joint is installed on the other horizontal plate of the new isolator. On the new isolator side of the new replacement joint, there is connected a resin injecting plate which faces the other horizontal plate of the new isolator so as to surround the other horizontal plate and which is fitted with the horizontal plate.

Resin is injected between the resin injection plate of the new replacement joint and the horizontal plate of the new isolator facing it, and the injection pressure causes the new isolator to have a vertical pressure equivalent to the pressure acting on the old isolator. Added in direction.

The replacement joint is interposed between the isolator and the upper structure or the lower structure, so that the replacement joint is simply cut and the isolator is recovered and the new isolator is maintained while keeping the distance between the upper structure and the lower structure. The installation work can be performed, and it is not necessary to raise the entire upper structure by jacking, and neither the isolator nor the structure is damaged.

In addition, by introducing a pressure equivalent to the pressure of the old isolator into the new isolator, the new isolator supports the upper structure, so that there is no vertical subsidence, and the stress of the upper structure skeleton due to the subsidence Variations are avoided and stress redistribution is prevented.

After pressurizing the new isolator, the jack is removed and the isolator replacement work is completed.

(Example) The present invention will be described below with reference to the drawings illustrating an example.

The present invention installs an isolator 1 connected to a replacement joint 2 constructed by assembling plates as shown in FIG.
This is the direction in which the isolator 1 is recovered and the new isolator 1'is installed while the upper structure A constructed above is used. In the embodiment, the replacement joint 2 is arranged between the isolator 1 and the upper structure A, but it may be arranged between the isolator 1 and the lower structure 7.

The upper structure A is provided at the upper and lower ends of the isolator 1, respectively.
The upper horizontal plate 3 and the lower horizontal plate 4 for connecting the lower structure 7 and the lower structure 7 are detachably connected.

The replacement joint 2 is a plate as shown in FIG.
In the case of an embodiment constructed by assembling 2a and arranged between the upper structure A and the upper structure A, for example, as shown in FIG. 1, a bolt or the like is attached to the bottom plate 6 joined to the base of the pillar 5 of the upper structure A. Are joined by.

The isolator 1 is joined to the replacement joint 2 in the upper horizontal plate 3, or in the lower horizontal plate 4, and in the other horizontal plate, in the case of the lower horizontal plate 4 in the embodiment an anchor bolt to the lower structure 7, for example a concrete foundation. Fixed by 8.

The replacement joint 2 is cut at an intermediate portion when the isolator 1 is collected, and the upper horizontal plate 3 of the isolator 1 is cut.
At the same time, the isolator 1 is removed from the upper structure A, and the isolator 1 is recovered leaving the lower horizontal plate 4.

A new isolator 1'is newly installed on the lower horizontal plate 4, and a new replacement joint 2'is installed between the new isolator 1'and the upper structure A.

As shown in FIG. 3, a new replacement joint 2'is provided on the isolator 1 side, and in the case of the embodiment, the upper horizontal plate 3 is opposed to and surrounded by the lower horizontal plate 3 for resin injection into which the upper horizontal plate 3 is fitted. The plate 9 is connected, the resin is injected between the resin injecting plate 9 and the upper horizontal plate 3 after the connection with the new isolator 1 ′, and the new isolator 1 ′ acts on the old isolator 1 in the vertical direction. It is pressurized until it becomes equal to.

From cutting the replacement joint 2 to the new isolator 1
The work up to the pressurization is carried out with the upper structure A supported by the jack 10 and the distance between the upper structure A and the lower structure 7 maintained.

Here, the construction procedure from installation of the isolator 1 to collection and installation of the new isolator 1'will be described with reference to FIG.

First, the lower horizontal plate 4 is fixed to the lower structure 7 by the anchor bolts 8 (I), the isolator 1 is installed on the lower horizontal plate 4 (II), and then the replacement joint 2 is connected on the isolator 1 ( III), construct superstructure A (IV). Up to this point, the process of installing the isolator 1 is premised on recovery.

Prior to the recovery of the isolator 1, a jack 10 is installed between the upper structure A and the lower structure 7 around the isolator 1 (V), and the jack 10 supports the load of the upper structure A during the replacement work of the isolator 1. .

Next, the replacement joint 2 is cut at an intermediate portion to divide it into the upper structure A side and the isolator 1 side (VI), and after collecting each with the upper horizontal plate 3 (VII), the isolator 1 is moved to the lower horizontal plate. Separate from 4 and collect (VIII).

Then, install the new isolator 1'on the lower horizontal plate 4
(IX), a new replacement joint 2'is connected thereto (X), and resin is injected between the resin injection plate 9 and the upper horizontal plate 3 (XI). Old isolator 1 is added to new isolator 1'by injection of resin.
When a pressure equivalent to the pressure acting on the valve is applied, the valve is locked (XII), the jack 10 is removed, and the replacement work of the isolator 1 is completed.

Although the example in which the replacement joit 2 is installed on the side of the upper structure A has been described here, the same procedure can be applied to the case where it is installed on the side of the lower structure 7.

(Effects of the Invention) The present invention is as described above. Since the isolator is installed with the replacement joint interposed between the upper structure and the lower structure, the upper structure can be simply cut. Keep the distance between the object and the substructure,
It is possible to recover the isolator and install a new isolator while keeping the upper structure in use, and there is no need to raise the entire upper structure with a jack.
Further, it is possible to avoid a situation where the isolator damages any structure.

In addition, the new isolator is installed under a pressure equivalent to that of the old isolator, so the new isolator does not sink vertically below because it supports the upper structure. It is possible to avoid the fluctuation of the stress of the above and prevent the redistribution of the stress and the uneven settlement of the upper structure due to the redistribution of the stress.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing an installation state of an isolator between upper and lower structures, FIG. 2 is a perspective view showing a switching joint, and FIG. 3 is a pressurization state after installation of a new isolator. A vertical cross-sectional view and FIGS. 4A to 4I are schematic diagrams showing a procedure from installation of an isolator to installation of a new isolator. A ... Upper structure, 1 ... Isolator, 1 '... New isolator, 2 ... Replacement joint, 2' ...
New replacement joint, 3 ... upper horizontal plate,
4 ... Lower horizontal plate, 5 ... Pillar, 6 ... Bottom plate, 7 ... Lower structure, 8 ... Anchor bolt, 9 ...
… Resin injection plate, 10… Jack.

Front page continuation (72) Inventor Masayoshi Ikenaga 1632 Ishikawa, Fujisawa-shi, Kanagawa OILES Industrial Corporation Fujisawa Dormitory

Claims (1)

[Claims] 1. An isolator in which a replacement joint constructed by assembling plates is connected to a horizontal plate at an upper end or a lower end is installed on a lower structure, and an upper structure constructed on this isolator is used. This is a construction method in which the above isolator is recovered and a new isolator is installed in the state of being used for the construction.With the upper structure supported by a jack, the replacement joint and the isolator are removed leaving the horizontal plate, and then the new isolator Connected to the other horizontal plate of the new isolator, facing the other horizontal plate of the new isolator and surrounding it, and connecting a new replacement joint with the resin injection plate to which the horizontal plate fits to the other horizontal plate of the new isolator. Installed on the plate, the resin injection plate and the new isolator Installation of an isolator for seismic isolation structure consisting of the steps of injecting resin between the two horizontal plates, pressurizing the new isolator to the same pressure as the isolator before replacement, and then removing the jack.・ Replacement method.