Seismic isolator

Abstract

A seismic isolator is provided in a building and maintains the horizontalness of the building. The isolator includes a foundation base plate in contact with the ground surface, and a foundation top plate on which a building is mounted, the foundation base plate and the foundation top plate being in intimate contact with each other leaving no space and being individually directly formed with a curved surface symmetrically facing each other; and a spherical body positioned at the center of the curved surfaces, when the foundation base plate moves as a result of horizontal vibrations caused by an earthquake, the spherical body rotates and rolls along the curved surfaces to raise the foundation top plate; thereby the vibrations are hindered from being transmitted to the foundation top plate to perform seismic-isolation action on the building; and after the earthquake subsides, the spherical body returns to the center of the curved surfaces.

Claims

1. A seismic isolator which is provided in a building and maintains the horizontalness of the building, said seismic isolator comprising: a foundation base plate arranged in contact with the ground surface, and a foundation top plate on which a building is mounted, a whole continuous surface of the foundation base plate and a whole continuous bottom surface of the foundation top plate being in direct contact with each other leaving no space therebetween, at least one curved surface formed in a surface of the foundation base plate completely surrounded by the continuous surface of the foundation base plate symmetrically facing a curved surface in the bottom of the foundation top plate completely surrounded by the continuous bottom surface of the foundation top plate; and a spherical body positioned at the center of the curved surfaces, wherein, when the foundation base plate moves as a result of horizontal vibrations caused by an earthquake, the spherical body rotates and rolls along the curved surfaces to raise the foundation top plate; thereby the vibrations are hindered from being transmitted to the foundation top plate to perform seismic-isolation action on the building; and after the earthquake subsides, the spherical body returns to the center of the curved surfaces.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a partial sectional view showing a seismic isolator according to the present invention.

(2) FIG. 2 is a plan view of a building provided with the seismic isolator according to the present invention.

(3) FIG. 3 is a sectional view seen along the b-b line of FIG. 2.

MODE FOR CARRYING OUT THE INVENTION

(4) FIG. 1 is a partial sectional view (seen along the a-a line of FIG. 2) showing a seismic isolator A according to an embodiment of the present invention. Reference character B denotes a building; reference numeral 1 denotes a foundation base plate (such as reinforced concrete); 2, a foundation top plate (such as reinforced concrete); 3, 3, a curved surface (which is directly formed in each of the foundation base plate 1 and the foundation top plate 2, or alternatively, which may be shaped out of an iron sheet, a rigid synthetic resin or the like and attached thereto); 4, a floor; 5, a subfloor; 6, a support timber; and 7, a spherical body (e.g., a steel ball). The single spherical body 7 is provided between the curved surfaces 3 and 3.

(5) As shown in the plan view of FIG. 2, the seismic isolator A according to the embodiment of the present invention is provided, in this example, in the four corners of the building B, and the four seismic isolators A maintain the horizontalness of the building B. Specifically, the seismic isolator A is configured, as shown in FIG. 1, such that the foundation base plate 1 arranged in contact with the ground surface and the foundation top plate 2 on which the building B is mounted are in intimate contact with each other and are individually directly formed with the curved surface 3, 3 symmetrically facing each other, and such that the single spherical body 7 is positioned at the center of the curved surface 3, 3. According to the configuration, at an ordinary time, the foundation top plate 2 will not move by its own weight with respect to the foundation base plate 1. When an earthquake causes the ground to move up and down to trigger horizontal vibrations, if the foundation base plate 1 horizontally moves, then the spherical body 7 rotates and rolls along the curved surfaces 3 and 3 to raise the foundation top plate 2. This hinders the horizontal vibrations from being transmitted to the foundation top plate 2, that is to say, to the building B mounted thereon to perform seismic-isolation action on the building B. In other words, even if the horizontal vibrations are in any directions over an angle of 360, the spherical body 7 smoothly rotates and rolls along the curved surfaces 3 and 3 to hinder the seismic motion from being directly transmitted to the side of the foundation top plate 2, thereby performing seismic-isolation action on the building B. After the seismic motion has subsided, the spherical body 7 will certainly return to the center of the curved surfaces 3 and 3.

INDUSTRIAL APPLICABILITY

(6) After a great earthquake has occurred, the earthquake will be frequently followed by aftershocks. On all such occasions, the seismic isolator according to the present invention is perfectly reliable because it operates absolutely certainly at all times. The seismic isolator has an entirely mechanical configuration, and thereby, it is certainly operable and is producible at a lower cost, in other words, economical. Further, the number of the seismic isolators according to the present invention is variable, and in accordance with the size of a building, may be increased or decreased so that the whole building can be kept horizontal.

(7) Still further, the seismic isolators stay unmoved against vibrations caused by winds, thereby dispensing with measures to cope with the wind vibrations.

DESCRIPTION OF THE SYMBOLS

(8) A: seismic isolator B: building 1: foundation base plate 2: foundation top plate 3, 3: curved surface 4: floor 5: subfloor 6: support timber 7: spherical body