JPH0625561Y2 - Seismic isolation isolators - Google Patents

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial field of application) The present invention relates to a seismic isolation isolator that supports middle- and high-rise buildings to reduce vibration caused by an earthquake.

(Prior Art) Recently, in order to reduce vibration of middle and high-rise buildings due to an earthquake, a technique of supporting the building itself with a seismic isolation isolator made of a rubber-like elastic body has been studied.

Such seismic isolation isolators support the building itself and should not be damaged during any disaster.

However, since the main part of the seismic isolation isolator is made of rubber-like elastic material, it may be burnt out in case of fire.

Although a flame-retardant rubber is known, it cannot be used as a rubber-like elastic body of a seismic isolation isolator because its properties as a rubber-like elastic body are inferior to those of a general compounding rubber-like elastic body.

(Problems to be solved by the invention) As described above, the seismic isolation isolator is made of a rubber-like elastic material, so in the event of a fire, it may be burnt out. When an isolator is manufactured, there is a problem that the properties as a rubber-like elastic body are inferior to those of a commonly-used rubber-like elastic body, and the characteristics are deteriorated at high temperature.

An object of the present invention is to provide a seismic isolation isolator having excellent fire resistance.

[Structure of the Invention] (Means for Solving the Problems) That is, the seismic isolation isolator of the present invention has a rubber-like elastic body interposed between the upper and lower support plates, and the side surface of the rubber-like elastic body is flame-retardant. It is characterized by being covered with a bellows made of rubber.

The flame-retardant rubber used in the present invention needs to maintain the elongation and proper strength required for the seismic isolation isolator to be displaced in the shearing direction.

The flame-retardant rubber, natural rubber, SBR, non-halogen rubber such as EP rubber, aluminum hydroxide (A (OH) ₃ ),
A mixture of non-halogen flame retardants such as magnesium hydroxide (Mg (OH) ₂ ) is suitable. If necessary, a composite system of red phosphorus powder and an inorganic flame retardant can also be used.

Examples of such flame-retardant formulations include the following formulations.

EPDM (ethylene-propylenediene terpolymer) 100 parts by weight ZnO 5 〃 l (OH) ₃ or Mg (OH) ₂ 100 parts by weight Stearic acid 1 〃 Softening agent 20 〃 Dicumyl peroxide 3 〃 P, P'- Dibenzoylquinone 1 〃 · Dioxime (DQ) carbon black 2 〃 With the above composition, a non-halogen flame retardant rubber having the following physical properties can be obtained.

Breaking strength 0.5 to 0.6 kg / mm ² Elongation at break 300 to 450% Hardness 60 to 65 Oxygen index 29 Note that l (OH) ₃ or Mg (OH) ₂ has uniform physical properties by using the surface treatment type. Thus, a product having excellent water resistance and mechanical properties can be obtained. Further, by varying the amount of the above composition, it is possible to obtain one having an oxygen index of 30 or more.

Further, although the bellows may be molded with a flame-retardant rubber alone, it is better to mold the flame-retardant rubber on the outer periphery of the bellows using a flame-retardant core material such as Kynol. .

Further, in the present invention, not only is the bellows simply covered on the outer periphery of the rubber-like elastic body, but also a gap between the rubber-like elastic body and the bellows is filled with an appropriate flame retardant or non-combustible heat insulating material. Good.

Examples of such flame retardants or fillers include the following, alone or in combination of two or more.

Non-halogen flame retardant powder such as A (OH) ₃ and Mg (OH) ₂ .

A paste in which a non-halogen flame retardant such as A (OH) ₃ and Mg (OH) ₂ is dispersed in a medium such as silicone oil or ethylene glycol that does not affect the base rubber.

A non-halogen flame retardant such as A (OH) ₃ and Mg (OH) ₂ is blended with a non-halogen polymer at a high concentration to form fine pellets or beads.

Kynol (trade name), ceramic fibers, and other flame-retardant or non-flammable fibers.

(Function) Since the seismic isolation isolator of the present invention covers the side surface of the rubber-like elastic body with the bellows made of flame-retardant rubber, it protects the rubber-like elastic body from high temperature and flame at the time of fire and acts as a seismic isolation isolator. Prevent the function of the equipment from being deteriorated or lost.

(Example) Next, the Example of this invention is described.

In FIG. 1, metal support plates 2 and 2 are fixed on the upper and lower sides of a cylindrical rubber-like elastic body 1 by vulcanization adhesion or bolting.

A bellows 3 made of an extremely flame-retardant rubber in which a non-halogen flame retardant is mixed with a non-halogen rubber is covered on the outer periphery of the rubber-like elastic body 1 in a stretched state, and a hook metal fitting 4 provided above and below is provided. Is engaged and fixed to the locking fitting 5 of the support plate 2. 3a is a core material made of non-combustible fiber.

As shown in FIG. 2, the bellows of this embodiment is stretched to have a large outer diameter, and is covered on the outer periphery of the rubber-like elastic body 1, and then the locking metal fittings 4 and 5 are locked to each other.

Further, in the seismic isolation isolator of this embodiment, the outer periphery of the rubber-like elastic body 1 is covered with the extremely flame-retardant bellows 3, and the void 6 is formed between the rubber-like elastic body 1 and the bellows 3. Also, the rubber-like elastic body 1 is less likely to deteriorate due to a high temperature during a fire.

FIG. 3 shows another embodiment of the present invention.

The seismic isolation isolator of this embodiment is the same as that of the embodiment shown in FIG. 1 except that the space between the rubber-like elastic body 1 and the bellows 3 is filled with the above-mentioned flame retardant and noncombustible fiber 7. Since it has the same structure as that of the embodiment shown in FIG.

In the seismic isolation isolator of this embodiment, the rubber-like elastic body 1 is used.
Since the flame retardant and noncombustible fiber 7 are filled in the space between the bellows and the bellows 3, excellent fire resistance can be obtained due to the endothermic effect of the flame retardant material in the case of fire, and excellent heat insulation can be obtained by the noncombustible fiber. Therefore, the rubber-like elastic body 1 is not deteriorated by the high temperature at the time of fire.

[Effect of the Invention] As described above, the seismic isolation isolator of the present invention is
Since the side surface of the rubber-like elastic body is covered with a bellows made of flame-retardant rubber, it protects the rubber-like elastic body from high temperature and fire in the event of a fire and is excellent without damaging the original characteristics as a seismic isolation isolator. Shows fire resistance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 to FIG. 3 are sectional views showing an embodiment of the present invention. 1 ... Rubber-like elastic body 2 ... Metal support plate 3 ... Bellows 3a ... Core material 4, 5 ... Locking metal fitting 7 ... Flame retardant and non-combustible fiber

Claims (1)

[Scope of utility model registration request] 1. A seismic isolation isolator, characterized in that a rubber-like elastic body is interposed between upper and lower support plates, and a side surface of the rubber-like elastic body is covered with a bellows made of flame-retardant rubber.