JP2003097621A - Friction damper - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a friction damper which is capable of reducing a friction face to a small area and simultaneously capable of effectively dampening vibration. SOLUTION: The friction damper is pivotally connected so that a first link 1 and a second link 2 push and combine respective friction faces with each other by tightening force of a bolt 6, and is configured so that the first link 1 and the second link 2 dampen the vibration by slidably frictional resistance of the friction faces between each other when they relatively rotatably displace around axis of the bolt 6 as a center.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a friction damper.

[0002]

2. Description of the Related Art For example, there is a friction damper as one of damping devices used in combination with a seismic isolation device for structures such as buildings. As such a friction damper, for example,
The first link and the second link are pivotally connected by the spring force of the spring so as to press their friction surfaces against each other.
There is provided a rotary friction damper configured to damp vibrations by sliding frictional resistance between the friction surfaces when the first and second links are relatively rotationally displaced about the pivot shaft.

[0003]

However, in this rotary damper, since the damping force is to be secured by pressing the friction surfaces against each other by the spring force of the spring, the pressing force between the friction surfaces is increased. There is a limit to increase the friction coefficient, and therefore there is a problem that the area of the friction surface must be increased.

The present invention is directed to the rotary friction damper as described above, and it is an object of the present invention to provide a friction damper capable of reducing the area of the friction surface and yet effectively damping the vibration. It is an issue.

[0005]

SUMMARY OF THE INVENTION In the above-mentioned problems, the first link and the second link are pivotally connected so as to press their friction surfaces against each other by the tightening force of the bolts.
The friction damper is characterized in that vibrations are damped by the sliding frictional resistance between the friction surfaces when the link is relatively rotationally displaced about the bolt shaft.

In this friction damper, the friction surfaces of the first and second links are pressed against each other by the tightening force of the bolts, not by the spring force of the spring, so that the friction surfaces can be pressed with a strong force. Therefore, the area of the friction surface can be reduced, and yet the vibration can be effectively damped by the high friction force.

Moreover, the frictional force, that is, the damping force can be adjusted over a wide range of high and low depending on the tightening condition of the bolt.

In this friction damper, the friction surface of the first link and the friction surface of the second link are respectively spaced from the bolt in the radial direction, and the spacing between the bolt and each friction surface is the same. It is preferable that a space holding means for holding is provided.

In this friction damper, since the friction surface is provided at a distance from the bolt in the radial direction, it is possible to concentrate the friction force in a region distant from the bolt in the radial direction. It is possible to increase the rotational moment when the relative rotational displacement occurs, and obtain a large damping force. Moreover, since the gap holding means for holding the above-mentioned gap between the bolt and each friction surface is provided, it is possible to prevent the friction surface from being inadvertently approached to the bolt side.

In this case, the distance maintaining means is a spacer ring fitted to the outer circumference of the bolt between the first link and the second link, and the friction surface of the first link is the first friction slide. And the friction surface of the second link is formed of a second friction sliding ring, and
The second friction sliding ring is placed in a superposed state and fitted on the outer peripheral side of the spacer ring, and both friction sliding rings are sandwiched between both links by tightening the bolts, and each link in the bolt tightened state is The frictional force between the frictional sliding rings is set to be larger than the frictional force between the frictional sliding rings, whereby the first link and the first frictional sliding ring, and the second link and the first link. It is preferable that the two friction sliding rings each integrally move during relative rotational displacement of the first and second links so that the friction sliding rings frictionally slide with each other.

In this friction damper, the frictional force between each link and each frictional sliding ring in the bolt tightened state is set to be larger than the frictional force between the frictional sliding rings. Only by carrying out the steps, each link and each friction sliding ring are integrated with each other, and the friction sliding rings are frictionally slid with each other, which facilitates the production.

Moreover, since the distance between each friction slide ring and the bolt is held by the spacer ring interposed between the friction slide ring and the bolt, the friction slide ring is unintentionally attached to the bolt. It will not be bolted at an approaching position and will not be integrated with the link, and the friction sliding ring and the bolt can be assembled with an appropriate interval, and the interval is also appropriate during relative rotation of the link. It can hold anything. As for the spacing maintaining means, when assembling the friction damper, it suffices to dispose the spacer ring between the first link and the second link so that the bolt can pass therethrough. Can be easily incorporated.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the drawings.

In the rotary friction damper 5 of the embodiment shown in FIG. 1 (a), the first, second, third and fourth links 1, 2, 3 and 4 are assembled in a square shape when seen in a plane. , A pantograph type in which those ends are pivotally connected so as to be rotationally displaceable.

Each of the links 1, 2, 3, 4 is made of a plate such as a steel plate, and the first link 1 and the second link 2 are pivotally connected to each other so as to be capable of relative rotational displacement. ing.

That is, as shown in FIG. 1B, two first links 1 and three second links 2 are prepared, and their end portions make the second link 2 the outermost side. In this way, they are alternately arranged in the vertical direction, and are tightened by bolts 6 and nuts 7 to be pivotally connected. By tightening the bolt 6, the friction surface of the first link 1 and the friction surface of the second link 2 are pressed against each other, and the first and second links 1 and 2 are attached to the bolt 6
The vibration is damped by the sliding frictional resistance between the frictional surfaces during relative rotational displacement around the axis. Since the same links 2 and 2 are overlapped on the outermost side, the bolt 6 does not loosen even if the first link 1 and the second link 2 are relatively rotationally displaced. The nut 7 may be a double nut.

In this embodiment, the first and second links 1,
Each friction surface 2 is formed by using first and second friction sliding rings 8 and 9, as shown in FIGS. That is, these two friction sliding rings 8 and 9 are vertically stacked and are arranged between the first link 1 and the second link 2, and the bolts 6 are attached to the friction sliding rings 8 and 9.
, And the bolt 6 is tightened and sandwiched between the first link 1 and the second link 2 in a pinched state.

In this sandwiched state, the frictional force between the first link 1 and the first frictional sliding ring 8 is set to be larger than the frictional force between the frictional sliding rings 8 and 9. The second link 2 and the second friction sliding ring 9
The frictional force between and is also set to be larger than the frictional force between the friction sliding rings 8 and 9, whereby the first
Link 1, first friction slide ring 8 and second link 2
The second friction sliding ring 9 and the second friction sliding ring 9 integrally move during relative rotational displacement of the first and second links 1 and 2, so that the friction sliding rings 8 and 9 frictionally slide with each other. ing.

That is, the friction sliding rings 8 and 9 which are separate from the links 1 and 2 are integrated with the links 1 and 2 only by tightening the bolts 6, and the friction surfaces of the links 1 and 2 are integrated. Are formed. The first and second friction sliding rings 8 and 9 may be composed of the same parts, in which case the types of parts can be reduced.

Further, the inner diameter of the first and second friction sliding rings 8 and 9 is set to be larger than the outer diameter of the rod portion of the bolt 6, and the friction sliding in the bolt tightened state. The rings 8 and 9 are adapted to frictionally slide in a region spaced from the bolt 6 radially outward.

A spacer ring 10 is used to maintain this distance. This spacer ring 10
Has an inner diameter dimension that fits snugly into the outer circumference of the rod portion of the bolt 6, and an outer diameter dimension that fits snugly into the inner circumference portions of the friction slide rings 8 and 9. The thickness dimension thereof is designed to be smaller than the total thickness dimension of the upper and lower friction sliding rings 8 and 9 and larger than the thickness dimension of either of the friction sliding rings 8 and 9. This spacer ring 10 is provided between the first and second links 1 and 2,
It is arranged between the rod portion of the bolt 6 and the friction slide rings 8 and 9, and the friction slide rings 8 and 9 are the spacer rings 10.
The bolt 6 is tightened with a predetermined distance from the rod portion of the bolt 6 to the outside of the radial line.

Such a pivot joint structure has end pivot joints between the third link 3 and the fourth link 4, end joint pivots between the second link 2 and the third link 3, and the first link. 1 and 4th link 4
It has been adopted in the end pivot joint.

At the end joints of the second link 2 and the third link 3, as shown in FIG. 1, a pair of bearing plates 13 and 13 project from the substructure 11 of the building such as a foundation, and The ends of the second link 2 and the third link 3 are sandwiched between the plates 13 and 13, and the whole is fastened with a bolt 6, and a pair of friction sliding rings 8 is also provided between the bearing plate 13 and the second link 2. , 9 and spacer ring 10
Is included. Also, the first link 1 and the fourth link 4
In the end pivotal part of, the pair of bearing plates 14, 14 project from the superstructure 12 of the building, and the bearing plates 14, 14 sandwich the ends of the first link 1 and the fourth link 4, The whole is tightened with bolts 6, and a pair of friction slide rings 8 and 9 and a spacer ring 10 are also inserted between the bearing plate 14 and the fourth link 4.
As a result, the lower structural part 11 and the upper structural part 12 of the building are connected by the friction damper 5.

In the friction damper 5, when the seismic isolation device (not shown) provided in the building vibrates in the horizontal direction as shown in FIG. 4 (a), the first, second, and
The third and fourth links 1, 2, 3 and 4 are bolts 6 of the connecting portion.
Relative rotation displacement is performed around the axis, and the vibration is damped by the frictional sliding resistance of the friction surface at each pivotal portion at that time. At each pivotal part, the friction surfaces are pressed against each other by tightening the bolts, so it is possible to press the friction surfaces together with a very strong force, so even if the friction surface area is small, the vibration It is effectively damped by the high frictional force. That is, instead of pressing the friction surfaces by the spring force of the spring, by tightening the bolts, the friction surfaces are pressed against each other.
A very large damping force can be obtained with a small friction surface. As shown in FIG. 4B, by installing the friction damper 5 so as to work in two horizontal directions, it is possible to effectively damp any horizontal vibration.

In this embodiment, since the friction surface is formed in the region spaced from the bolt 6 in the radial direction, the frictional force is concentrated in the region spaced from the bolt 6 in the radial direction, The rotational moment when the links 1, 2, 3, 4 are relatively rotationally displaced can be increased, and a large damping force can be obtained. Moreover, in the present embodiment, the friction surface is formed by the friction slide rings 8 and 9, and the friction slide rings 8 and 9 and the rod portion of the bolt 6 are bolted while the spacer ring 10 maintains a gap. Therefore, the friction surface does not approach the bolt 6 side and is not bolted, and a large damping force can be reliably obtained by the relative rotational displacement of the links 1, 2, 3, 4.

Further, in this embodiment, the friction surface of the link is formed by a friction sliding ring which is separate from the link, and the link and the friction sliding ring are connected to each other in the bolt tightened state. Since the frictional force is integrated by setting the frictional force larger than the frictional force between the friction sliding rings, the link and the friction sliding ring can be integrated by simply tightening the bolt 6. Therefore, the link and the friction sliding ring can be easily integrated and released from each other, and the friction sliding ring can be easily replaced.

Moreover, since the friction sliding rings 8 and 9 are positioned by the spacer ring 10 when tightening the bolts, the friction sliding rings 8 and 9 are arranged on the outer peripheral side of the spacer ring 10 as shown in FIG. Mating and linking these
It can be assembled by simply disposing it between the two and tightening the bolt 6 by passing it through the links 1 and 2 and the spacer ring 10, and the assembly of the pivot portion can be easily performed.

Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications can be made without departing from the spirit of the invention. For example, in the above-described embodiment, the case where the four links 1, 2, 3, 4 are configured as a pantograph-type friction damper that is formed into a square when viewed on a plane is shown, but two links are viewed on a plane. It may be configured as a friction damper that is assembled by being connected in a square shape, an X shape, a T shape, or the like. Further, in the above-described embodiment, the case where the friction surface is formed by using the friction sliding rings 8 and 9 is shown. However, the links may be directly tightened with bolts so that the links are directly friction slid. Good. Further, in the above-described embodiment, the friction damper used in combination with the seismic isolation device used in the building is targeted, but the friction damper of the present invention is not limited to the case of damping the vibration of the building, and various structures. It can be used to damp the vibration of, and is not premised on the combination with the seismic isolation device. Further, in the above embodiment,
Although the case where the link is rotationally displaced in the horizontal plane with the bolt axis oriented vertically is shown, the configuration may be such that the bolt axis is oriented horizontally and the link is rotationally displaced in the vertical plane, and the direction is not limited.

[0029]

As described above, according to the present invention, the area of the friction surface can be reduced in the rotary friction damper, and the vibration can be effectively damped.

[Brief description of drawings]

FIG. 1A is a plan view showing a friction damper of an embodiment, and FIG. 1B is a side view of the same.

FIG. 2 is an enlarged view of a pivotal connecting portion of the link. FIG. 2A is a side view, FIG. 2B is a sectional side view, FIG. 2C is a sectional plan view, and FIG. FIG.

FIG. 3 is an exploded sectional side view of a pivotal portion.

FIG. 4A is a plan view showing the movement of the friction damper during vibration, and FIG. 4B is a plan view showing an installation example.

[Explanation of symbols]

1 ... 1st link 2 ... second link 5 ... Friction damper 6 ... bolt 8 ... 1st friction sliding ring 9 ... Second friction sliding ring 10 ... Spacer ring

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Takashi Inoue             6-6 Sakyo 6-2, Nara, Nara Stock Association             Inside Yamato Research Institute (72) Inventor Hitoshi Yamashita             6-6 Sakyo 6-2, Nara, Nara Stock Association             Inside Yamato Research Institute F-term (reference) 2E001 DG02 FA24 FA29 FA71 GA59                       GA62 HB02 KA01 LA01                 3J048 AA04 AC01 AD02 BG06 CB21                       DA04 EA38                 3J066 AA26 CA06

Claims (3)

[Claims] 1. A first link and a second link are pivotally connected so as to press their friction surfaces against each other by a tightening force of a bolt, and the first and second links are relatively rotationally displaced about the bolt shaft. A friction damper characterized in that vibration is damped by a sliding frictional resistance between the friction surfaces when the friction damper is moved. 2. The friction surface of the first link and the friction surface of the second link are provided at intervals in the radial direction from the bolt, and maintain the interval between the bolt and each friction surface. The friction damper according to claim 1, further comprising a space holding means. 3. The spacing means comprises a spacer ring fitted to the outer circumference of the bolt between the first link and the second link, and the friction surface of the first link is the first friction sliding ring. While being formed, the friction surface of the second link is formed by the second friction sliding ring, and these first and second friction sliding rings are superposed and fitted on the outer peripheral side of the spacer ring. Both friction sliding rings are sandwiched between both links by tightening the bolts, and the friction force between each link and each friction sliding ring in this bolt tightened state is larger than the friction force between the friction sliding rings. So that the first link and the first friction sliding ring, and the second link and the second friction sliding ring, respectively, are integrated during relative rotational displacement of the first and second links. Moving and friction sliding ring The friction damper according to claim 2, wherein the friction dampers slide against each other.