JPH0756191B2 - Vibration suppression device for structures - Google Patents

Description

TECHNICAL FIELD The present invention relates to a vibration suppressing device for a structure, which suppresses vibration caused in a structure by an earthquake, wind, or the like.

“Conventional technology and its problems” In recent years, construction and civil engineering structures have become larger and of various types due to factors such as the development of high-strength materials, the progress of machining technology, and the development of structural analysis technology using computers. In addition to being made lightweight and lightweight, it has a structure that is highly flexible against external forces. In such a lightweight and flexible structure, its natural frequency is low and its internal vibration damping tends to be small, so that various unexpected vibrations may occur due to the influence of external forces such as earthquakes and winds. Can occur. In particular, as described above, as the size of the structure increases, the amplitude of the vibration excited by the external force also increases, and this vibration gives an uncomfortable feeling to the person living inside the structure, and There was even a fear of applying a stress exceeding the permissible range to the frame.

Therefore, the inventor of the present application has filed Japanese Patent Application No. 60-241045
-101764) in the specification, at a predetermined position of the structure,
Vibration suppression capable of suppressing the vibration of the structure by providing a tank for storing a liquid vibrating in the same cycle as the inherent vibration cycle of the structure and with a required phase difference A device is proposed to solve the above problems.

By the way, this vibration suppressing device suppresses the vibration of the structure by vibrating the liquid in the tank in the same vibration cycle as the structure and with a required phase difference,
As a result of the amplitude of the structure being suppressed by the action of the vibration suppressing device, the vibration suppressing device may act as a vibrator on the contrary. Normally, the liquid in the tank is configured so that its vibration is damped due to collision with the wall surface of the tank or viscosity of the liquid itself, but it is appropriate depending on the structure of the structure and the scale of the vibration suppression device. The realization of a means capable of damping the vibration of liquid has been a subject for study.

In view of the above problems, the present invention was developed by previously developing the vibration suppressing device proposed by the inventor of the present application, and provides a vibration suppressing device capable of easily damping the vibration of liquid in a tank. With the goal.

"Means for Solving Problems" The present invention is to store a liquid vibrating in the same natural vibration cycle as the natural vibration cycle of the structure inside a tank provided in the structure, A vibration suppressing device for a structure, which has a space above the liquid surface of the liquid in a stationary state to allow vibration of the liquid, and a damping member for adjusting vibration damping of the liquid is provided inside the tank. The damping member is a flexible floating rod-shaped body that is planted on the bottom surface of the tank. It is preferable that the rod-shaped body is branched.

"Embodiment" Hereinafter, embodiments of the present invention will be described with reference to the drawings. Figs. 1 to 3 are views showing a vibration suppressing device according to a first embodiment of the present invention. In the figure, reference numeral 1 is a vibration suppressing device, and the vibration suppressing device 1 is installed on the roof of a high-rise building (structure) 2 which is said to be most effective against vibrations caused by wind.

The vibration suppressing device 1 includes a support base 3 having a laminated structure of an elastic body such as rubber and a steel plate, a tank 4 placed on the support base 3, and a liquid 5 stored in the tank 4. It is composed of

The tank 4 is a cylindrical tank for storing drinking water of the building 2, water for fire prevention, water for cooling and heating equipment, and the like, and has an open upper part. The liquid 5 is
By appropriately adjusting the liquid level height (H shown in FIG. 3) and the like according to the specific gravity, the inside of the tank 4 under the condition that the natural vibration cycle is the same as the natural vibration cycle of the building 2. The tank 4 has a space for allowing the vibration of the liquid 5 above the liquid surface of the liquid 5 in a stationary state. The amount of the liquid 5 stored in the tank 4 is adjusted so that the mass of the liquid 5 is within the range of 1/50 to 1/100 of the mass of the building.

Further, on the bottom surface of the tank 4, a plurality of rod-shaped bodies (damping members) 6 for damping the vibration of the liquid 5 inside the tank 4 are planted upward. The rod-shaped body 6 is formed by molding a flexible and buoyant material such as plastics into a substantially rod shape. The rod-shaped bodies 6 are arranged on the bottom surface of the tank 4 at substantially equal intervals.

Here, the material forming the rod-shaped body 6 is not limited as long as it is a material having flexibility and buoyancy like the plastics, and may be appropriately selected from known materials. From the viewpoint of increasing the flow resistance with respect to No. 5, it is preferable that the material has a strong bending resistance. Further, even if the material itself has buoyancy but is not flexible, for example, wood or the like, if the flexibility is added by processing this into a fibrous shape and then weaving it into a rod shape, the rod-shaped body 6 Can be used as The number and scale of the rod-shaped bodies 6 may be appropriately determined depending on the storage amount of the liquid 5 stored in the tank 4 and the physical property value of the liquid 5.

In addition, the tank 4 is preferably formed of a material (for example, plastic) that is not corroded even during long-term use, and similarly, the liquid 5 is a viscous liquid (for example, oil) that hardly evaporates even during long-term use. It is preferable. However, the materials of the tank 4 and the liquid 5 may be appropriately determined depending on the construction conditions and the like, and are not limited to the above materials.

Next, the operation of the vibration suppressing device 1 having the above configuration will be described.

A vibration system including the building 2 and the vibration suppression device 1 has a fourth structure.
The vibration model can be approximated and simplified as shown in the figure. This vibration model includes a vibration system A (a vibration model of the building 2) in which an object 9A having a mass M ₀ is supported via a spring 8A having a spring constant K ₀ and a dashpot 10A having a damping rate h ₀ ,
Spring 8B with spring constant K ₁ and dashpot 10B with damping rate h ₁
A vibration system B in which an object 9B having a mass M ₁ is supported via
This is a model in which (a vibration model of the liquid 5 in the vibration suppression device 1) is connected in series.

In such a vibration model, when the vibration system A starts to vibrate due to an external force such as an earthquake or wind applied to the object 9A, the vibration system B starts to vibrate with a phase delay of 1/4 cycle. By matching the natural vibration periods of A and B, the vibration of the vibration system A can be suppressed.

Here, since the object 9B has a mass of about 2% of the object 9A,
The natural vibration period T ₀ of the building 2 is almost uniquely determined by the mass M ₀ and the spring constant K ₀ determined from the viewpoint of structural design. Therefore, the natural vibration period of the vibration suppressing device 1, that is, the liquid 5 stored in each tank 4
The size and capacity of the tank 4 and the storage amount of the liquid 5 may be set so that the natural vibration period T ₁ of the tank 2 matches the natural vibration period T ₀ of the building 2. The behavior of the liquid 5 stored in the tank 4 can be analyzed as follows. Here, the natural vibration period of each vibration system A and B is given by the following equation.

Therefore, for the vibration system A, the natural vibration period can be obtained by substituting each variable into the above equation. However, for the vibration system B, the mass M of the liquid 5 in the tank 4 does not directly become the mass M ₂ that acts as a vibration body, and therefore some theoretical analysis is required.

According to the Hausner theory that holds for the behavior of the stored liquid in the storage tank, the free water effective mass (mass acting as a vibrating body) M ₂ that can move in the tank 4 is given by the following equation.

However, H: distance from the bottom of the tank 4 to the water surface R: radius of the tank 4 M: mass of the liquid 5 actually stored in the tank 4 Also, natural vibration of the liquid 5 in the tank 4 The number ω (so-called natural frequency of sloshing) is given by the following equation.

Further, from the natural frequency ω obtained by the equation (3), the natural vibration period T ₁ of the liquid 5 in the tank 4 is obtained by the following equation.

Then, the liquid 5 in the tank 4 obtained by the above formula (4)
Between the natural vibration period T ₁ of the first vibration system and the natural vibration period T ₀ of the first vibration system A such that T ₀ = T ₁ (5) holds, The size of the tank 4 and the storage amount of the liquid 5 may be set.

As a result of the simulation performed by the present inventor, the ratio of the effective mass M ₂ of the liquid 5 and the mass M ₀ of the building 2 to be damped is M ₂ / M ₀ = 1/50 to 1/100 ... It has been found that an effective vibration suppressing effect is exhibited by setting (6). That is, the effective mass M ₂ is the mass M _{0 of the} building 2.
If it is less than 1/100 of the
When it is / 50 or more, the influence of the liquid mass on the structural design of the building 2 becomes large, and it may be necessary to design the structure of the building 2 again. Therefore, set the ratio as in the formula (6) above. It becomes necessary to do.

As described above, according to the vibration suppressing device 1 of this embodiment, it is possible to suppress the vibration excited in the building 2 by an external force such as an earthquake or wind. Here, since the rod-shaped body 6 is disposed inside the tank 4 of the vibration suppressing device 1, when the liquid 5 vibrates in the tank 4 due to the vibration of the building 2, the rod-shaped body 6 is replaced by the liquid 5. Is bent and moved along with the movement of. At this time, the rod-shaped body 6 becomes a flow resistance to the liquid 5, and the moving energy of the fluid 5 is consumed by the energy for bending and moving the rod-shaped body 6, whereby the vibration of the liquid 5 is attenuated. Therefore, since the vibration of the liquid 5 is rapidly damped by the rod-shaped body 6, the vibration of the building 2 is damped and at the same time the vibration of the vibration damping device 1 itself is damped. Therefore, the vibration of the building 2 can be damped more efficiently without acting as an exciter on the building 2.

"Modified Embodiments of the Invention" The structural vibration suppressing device of the present invention is not limited in details to the above-described embodiments, and various modified examples are possible. Less than,
A modified embodiment of the present invention will be described with reference to the drawings.

FIG. 5 is a diagram showing a vibration suppressing device for structures according to a second embodiment of the present invention. In the following description, the same components as those in the first embodiment will be designated by the same reference numerals and the description thereof will be omitted. In this embodiment, a large number of branches 7, 7, ... Are formed in the rod-shaped body 6 planted on the bottom surface of the tank 4 of the vibration suppressing device 1, and as a result, the rod-shaped body 6 is formed.
It looks like aquatic plants and seaweed. Therefore, in this embodiment, as in the first embodiment, the building 2
Is damped by the vibration of the liquid 5 stored in the tank 4, and the vibration of the liquid 5 itself is damped by the rod-shaped body 6. In particular, in this embodiment, since the rod-shaped body 6 has a structure in which a large number of branches 7, 7, ... Are formed, the flow resistance to the liquid 5 is further strengthened, and therefore the vibration of the liquid 5 is more efficient. Can be attenuated.

It should be noted that the mounting position of the rod-shaped body 6 is arbitrary as described above, and may be appropriately determined in consideration of the shape of the tank 4, installation conditions, and the like. Similarly, the overall shape of the rod-shaped body 6 is arbitrary, and may be appropriately determined in consideration of the shape of the tank 4, installation conditions, and the like.

Furthermore, the shape of the tank 4 may be changed to various shapes such as a rectangular parallelepiped shape, a spherical shape, and a plane elliptical shape depending on the shape of the building 2 and the installation conditions. In this case, the theory may be appropriately changed, and the dimensions of the tank, the storage depth of the liquid, and the like may be set based on the formula corresponding to the shape. Here, when the tank 4 is made of a steel plate, the durability of the tank 4 itself can be increased by mixing an anticorrosive agent in the liquid 5.

Note that the structure vibration suppression device of the present invention is not limited to the building to which the application is applied as in the above embodiment, and can be suitably used for other suspension bridges, towers, and other construction / civil engineering structures. Of course.

"Effects of the Invention" As described in detail above, according to the present invention, a tank is provided at a predetermined position of a structure, and within the tank, at the same natural vibration cycle as the natural vibration cycle of the structure, And,
In a vibration suppressing device for a structure, which stores a liquid vibrating with a natural phase of a structure and a required phase difference, and a damping member for adjusting the vibration damping of the liquid is provided inside the tank, Since the damping member is composed of a flexible buoyant rod-shaped body that is planted on the bottom surface of the tank, when the liquid vibrates in the tank due to the vibration of the structure,
This rod-shaped body becomes a flow resistance to the liquid, and the moving energy of the fluid is consumed by the energy for bending and moving the rod-shaped body, whereby the vibration of the liquid is attenuated. Therefore, since the vibration of the liquid is damped by the rod-shaped body, the vibration of the structure is damped, and at the same time, the vibration of the vibration suppression device itself is damped. Therefore, the vibration suppression device acts like a vibration exciter on the structure. Never do. Therefore, according to the present invention, it is possible to realize the vibration suppressing device capable of easily damping the vibration of the liquid in the tank.

[Brief description of drawings]

1 to 3 are views showing a structure vibration suppressing apparatus according to a first embodiment of the present invention, and FIG. 1 is a schematic view showing a state of being installed on the roof of a building, and FIG. The figure is a plan view,
FIG. 3 is a sectional view taken along the line III-III ′ in FIG.
FIG. 5 is a schematic view showing a vibration model of a structure and a vibration suppressing device, and FIG. 5 is a sectional view showing a structure vibration suppressing device according to a second embodiment of the present invention. 1 ... Vibration suppressor, 2 ... Building (structure), 4 ...
Tank, 5 ... Liquid, 6 ... Rod-shaped body (damping member).

Claims (2)

[Claims] 1. A liquid tank vibrating in a natural vibration cycle identical to the natural vibration cycle of the structure is stored in a tank provided in the structure, and the tank has a liquid level of the liquid in a stationary state. A vibration suppressing device for a structure, which has a space for allowing vibration of liquid above and a damping member for adjusting vibration damping of the liquid is provided inside the tank, wherein the damping member is A vibration suppressing device for a structure, which is a flexible floating rod-shaped body planted on a bottom surface of a tank. 2. The vibration suppressing device for a structure according to claim 1, wherein the rod-shaped body is branched.