JPS62148775A - Vibrationproof structure of structure - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a vibration isolation structure for structures such as buildings, structures, and workpieces.

(Prior art) Most of the conventional structures are pillars (α) as shown in Fig. 7.
, a truss structure consisting of beams (b+, brace fc), or a rigid frame structure consisting of columns f, z) and beams (b+) as shown in Figure 8, which improve the damping properties of the structure itself. No improvements were made.

(Problems to be Solved by the Invention) In the conventional truss structure and rigid frame structure, the damping property of the structure is the damping property of the structural material itself, and in the bolt joint structure, the damping property due to bolt slipping of the joint part. I could only hope so.

Therefore, the vibration response of the structure during an earthquake becomes large, and there is a limit in terms of rational and economical design.

(Means for Solving All Problems) The present invention was proposed in view of the above-mentioned circumstances. The vibration isolation structure of a structure is characterized by providing a damping device in all or a part of the remaining part, and the purpose thereof is to The vibration response of the structure is reduced, and the design of the structure is structurally rational and economical.

(Function) Since the present invention is configured as in the previous WeL7,
When vibrations occur in the relic (under the arm), the structure of the structure shifts, resulting in a quadrilateral structure consisting of a pair of tangentially adjacent columns and vertically adjacent beams. The diagonal length increases or decreases, so that vibrations are absorbed by the damping devices incorporated in the diagonally arranged braces, reducing the vibrations of the entire structure.

(Effects of the Invention) According to the present invention, when a structure begins to vibrate due to earthquake motion, the vibration energy caused by the earthquake is absorbed by the damping device, so that the earthquake response of the structure can be reduced.

Therefore, according to the present invention, the number of cross sections of the structural members can be reduced, making it possible to design a structurally rational and economical structure.

(Example) Embodiments of the present invention, fully illustrated, will be described below.

In Fig. 1, (1) is a column, (2) is a beam, and a pair of braces ( A portion (B) with high horizontal rigidity arranged in a 31ki shape (Al is arranged at both ends, and a portion (B) in which a brace (4) incorporating a damping device (5) is arranged in the middle) is arranged.

FIG. 7 shows the oil damper that constitutes the entire damping device;
A piston (5C) having an orifice (5b)'(r) is slidably fitted into the cylinder (5a).
5α) is filled with damper oil (5d).

The cylinder (5α) and the piston (5c) are respectively connected to the columns and beam nodes of the quadrilateral frame and the lower exterior of the brace (4), and the piston (5c)
) tries to move vertically, the cylinder (5a)
The damper oil (5d) inside the orifice <5b) '(
The damping effect is exerted during this movement.

Note that as the damping device (5), in addition to the oil damper described above, a damping device using friction, etc., or one having an arbitrary structure can be used.

Therefore, the structure may be subject to vibrations during an earthquake, etc.
When the structure is displaced to the right as shown in the figure, the distance between the lower left end and the upper right end of the quadrilateral frame formed by the pillars (1) and beams (2) in the middle part (B) increases. The distance between the upper left end and the lower right end of the frame increases from 11 in the normal state shown in FIG.
When the structure is displaced to the left as shown in Fig. 4, the distance between the lower left end and the lower right end of the quadrilateral frame in the middle portion (Bl) decreases from 11 to l. , the distance between the upper left end and the lower right end increases from 12 to R.

In this way, as the structure vibrates, the distance 11.132 in the diagonal direction of the quadrilateral frame consisting of columns (1) and beams (2) in the middle part (Bl) constantly changes, and as a result, the distance in the diagonal direction Vibration energy is absorbed by a damping device (5) incorporated in the directional braces (4), reducing the seismic response of the structure itself.

FIG. 5 shows another embodiment of the invention, - twin braces (
3) is arranged in a keyaki shape with high horizontal rigidity (Al is arranged in the middle part of the structure, and the part (B) where the brace (4) in which the damping device (5) is installed is (Both ends of the structure are arranged to 1.

FIG. 6 shows a further embodiment of the invention, in which - a horizontally rigid part (Al
and a portion (Bl) where the brace (4) in which the damping device (5) is incorporated are arranged alternately.

In addition, in the part having the braces (4) in which the damping device (5) is incorporated, the braces (4) do not necessarily need to be arranged in a crossed manner, as shown in Figs. 5 and 6. may be placed in only one direction.

Furthermore, the brace (4) incorporating the damping device (5) does not need to be placed in all the spans without braces, and as shown in Fig. The part (
C) may be present.

Furthermore, the brace (4) incorporating the damping device (5) need not be placed over the entire height of the structure, but may be placed in each partition or only on the upper floors where it is most effective.

In any of the above-mentioned implementations, static horizontal forces are resisted by braces.

Although the present invention has been described above with reference to embodiments, the present invention is, of course, not limited to such embodiments, and may be modified and segmented from various types of pieces 1 without departing from the spirit of the present invention. It is.

[Brief explanation of drawings]

Fig. 1 is a front view showing one embodiment of the vibration isolation structure for a structure according to the present invention, Figs. 2 to 4 are explanatory views of its operation, and Figs. Each actual journey example shows the front view,
FIG. 7 is a longitudinal sectional view of the damping device, and FIGS. 8 and 9 are front views of the conventional structure, respectively. (1)...Column, (2)...Beam, (3)...
- Brace, (4)... Brace incorporating a damping device, (5)... Damping device. Sub-Agent Patent Attorney Shige Okamoto Two people outside the text Figure 1 Figure 2 A BA A BA Figure 8 Figure 9

Claims (1)

[Claims] In the frame of the structure, a part with high horizontal rigidity is provided that is stiffened by one or more braces, and all or part of the remaining part is provided with a brace incorporating a damping device. A vibration-proof structure for a structure characterized by: