JP3590818B2 - Anti-vibration device - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an anti-vibration device that is installed on a leg of various devices and that prevents vibration of the device from being transmitted to a building or the like.
[0002]
[Prior art]
The vibration isolator is generally composed of a base (1), an upper plate (4) and an elastic body (6). An upper plate (4) implanted perpendicularly to the base (1) is bolted (12). ) Is attached loosely. The base (1) is fixed to the floor (15), the upper plate (4) is attached to the load (13), and the load (13) is carried by the elastic body (6). The upper plate (4) moves with the load (13) and is damped by the elastic force of the elastic body (6).
As shown in FIG. 7, the bolt (12) is fixed to the base (1) and stands upright, and the bolt (12) fixed and erected on the base (1) is attached to the upper plate (4). The upper plate (4) can be moved in a certain range in the horizontal direction in a normal state.
[0003]
A nut (12a) is attached to the tip of the bolt (12), and a vertical clearance (K) is provided between the nut (12a) and the upper plate (4). 4) can move vertically in the range of the clearance (K). Thereby, the upper plate (4) can move in three directions of XYZ within the range of the clearance (K) in the horizontal direction and the vertical direction.
[0004]
By the way, when a shocking vibration such as an earthquake is transmitted, a displacement equal to or more than the clearance (K) occurs in any one or all of the three directions of XYZ. In this case, the nut (12a) and the upper plate The bolt (12) collides with the stupid hole in which the bolt (12) of (4) is inserted, and further displacement is prevented from being applied to the elastic body (6).
[0005]
In the conventional example, since the bolt (12) is erected on the base (1) in a cantilever state with its base welded or fitted and fixed, when an excessive impact force such as an earthquake is applied, impact bending is performed. It may bend from the base by the moment. Therefore, it is necessary to completely weld or fit and fix the bolt as thick as possible to the base (1), and there is a problem that it takes a lot of processing time.
Also, on the base (1) side, a base (1) having a strength not to be defeated by the bolt (12) must be prepared because a thick thing is used for the bolt (12) as described above. As described above, there is a problem that the members must be enlarged.
[0006]
Further, since the bolts (12) are erected and fixed at the four corners of the base (1), assembly and adjustment are required at four places, which is troublesome, and there is a problem that simplification of the assembly work is difficult. there were.
[0007]
[Problems to be solved by the invention]
The problem to be solved by the present invention is to develop an anti-vibration device that does not require unnecessarily large members and is easy to assemble and adjust.
[0008]
The anti-vibration device according to claim 1 is described as “a rectangular base (1), and a base-side side wall erected on the base (1) symmetrically in an open state at an obtuse angle in a U shape and an inverted U shape. 2), a base side through hole (3) drilled in the base side wall (2), an upper plate (4) disposed on the base (1), and a lower surface of the upper plate (4). And an upper plate side wall (5) constituted by a short side and a long side, an upper plate side through hole (8) formed in the upper plate side wall (5), and a base (1). An elastic body (6) for carrying loads disposed between the upper plate (4) and the base-side through hole (2) and the upper plate-side through hole (8), and at least one of the through holes is penetrated. hole (2) in the vibration damping device is constructed out with through rod (7) of small diameter (8), the long side to fit the inclined piece on both sides (2a) of the base sidewall (2) The upper plate side wall (5) is formed in a chevron, and the upper plate side wall (5) is The tapered washer (9) is also welded together. "
[0009]
According to this, the elastic body (6) is disposed in the base (1), the upper plate (4) is fitted to the base (1) from above with a gap (K), and the insertion bar (7) is attached to the base (1). Since the assembly can be performed only by inserting the through holes (3) and the upper plate side holes (8), the assembly becomes very simple. Further, when an impact load such as an earthquake is applied to the vibration isolator (A) and a displacement larger than the gap (K) occurs, the base-side through hole ( 3) comes into contact with the insertion bar (7) and stops, but both ends of the insertion bar (7) are fixed to the upper plate side wall (5) and are supported at both ends. Is not an impact bending moment but a shear force is applied. Therefore, the strength required to withstand the impact bending moment is not required as much as the conventional example, and a member smaller than the conventional example is sufficient.
[0010]
【Example】
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments. The base (1) has a rectangular plate shape, and has an elongated hole (11a) formed at the center of the end thereof, and circular mounting holes (11b) formed at four corners of the base (1). The upper surface of the base (1), on the inside of the long hole (11a), U-shaped and reversed U-shaped base-side side wall (2) is erected on universal pair. The base side wall (2) is composed of an inner wall main body (2b) and an inclined piece (2a) bent at both sides thereof, and the inclined piece (2a) has a pair of base side through holes. (3) is drilled. The inclined piece (2a) of the base side wall (2) is opened at a slight obtuse angle to the inner wall main body (2b).
[0011]
The upper plate (4) is dish-shaped with a lower surface opening, and an upper plate side wall (5) is vertically provided around the upper plate (4). As can be seen from FIG. 3, the upper plate side wall (5) is provided on its short side in parallel with the short side of the base (1), but its long side is formed in a mountain shape. A constant gap (K) is formed between the gap (K). A plurality of load mounting holes (10) are formed on the upper surface of the upper plate (4), and legs of the load (13) are screwed into any of the load mounting holes (10). .
[0012]
An upper plate side through hole (8) is formed in the upper plate side wall (5) corresponding to the base side through hole (3), and a taper washer (9) is formed on the outer surface of the upper plate side through hole (8). ) Is welded. As can be seen from FIG. 3, the base side through hole (3) and the upper plate side through hole (8) are formed larger than the base side through hole (3). One of the taper washers (9) is thicker than the other according to the inclination of the upper plate side wall (5), and the taper washer (9) is welded to the upper plate side wall (5) to form a taper. The outer surfaces of the washer (9) are parallel to each other.
Conversely, although not shown, a tapered washer (9) is welded inside the base side through hole (3), and the upper plate side through hole (8) having a diameter larger than the base side through hole (3) is connected to the upper plate. It may be perforated in the side wall (5). In that case, an insertion bar (7) described later is fixed to the base side wall (2), and both ends of the insertion bar (7) are inserted into the upper plate side through hole (8) without contact.
[0013]
A head (7a) is formed at one end of the insertion bar (7), and a mounting nut (7b) is screwed to the other end.
[0014]
The elastic body (6) is composed of a coil spring (6a) and a covering part (6b), and the coil spring (6a) is embedded in the covering part (6b). The covering part (6b) is formed of a flexible elastic material such as rubber. It expands and contracts with the coil spring (6a). In addition, the covering part (6b) isolates the coil spring (6a) from the outside world and exhibits a rust-preventive effect. As can be seen from FIG. 1, one or more elastic bodies (6) are provided in one vibration isolator (A) (there are six in this embodiment, but the number is not limited to this, and the required number is appropriately arranged. To support the upper plate (4).
[0015]
To assemble the vibration isolator (A), an appropriate number of elastic bodies (6) are arranged in the base side wall (2) of the base (1), the upper plate (4) is covered from above, and the elastic body (6) Is compressed to make the base side through hole (3) and the upper plate side through hole (8) coincide with each other. When both coincide, the insertion bar (7) is inserted, and the mounting nut (7b) is inserted into two places. All that is required is to screw it into the tip of the bar (7) and tighten it. Therefore, the assembly is very simple.
[0016]
(Action)
The upper plate (4) is disposed above the base (1), and the base side wall (2) is fitted into the upper plate side wall (5) with a gap (K). One or more elastic bodies (6) are arranged between the base (1) and the upper plate (4), and carry a load (13). The upper plate side through hole (8) matches the base side through hole (3), and the insertion bar (7) inserted into the upper plate side through hole (8) comes into contact with the base side through hole (3). It is inserted without doing.
[0017]
The base (1) is fixed to the floor surface (15) using the long holes (11a) and the mounting holes (11b), and the upper plate (4) is fixed to the legs of the load (13). In this state, the load (13) operates, and even when vibration is transmitted from the load (13), the upper plate-side side wall (5) of the upper plate (4) and the base-side side wall (2) of the base (1) are in contact. Since the upper plate (4) is separated by the gap (K), the upper plate (4) can freely move in three directions of XYZ, that is, front and rear, right and left, and up and down together with the vibration, and the vibration is absorbed by the elastic body (6). It will be.
[0018]
Since the elastic body (6) is composed of the coil spring (6a) and the covering part (6b) as described above, even if surging due to the vibration frequency is generated in the coil spring (6a), the covering part (6b) The surging can be eliminated by the internal damping force, the increase in amplitude due to the vibration isolator (A) can be suppressed, and an extremely effective vibration isolating effect can be obtained.
[0019]
Next, when an impact load is applied to the vibration isolator (A) as in an earthquake and a displacement larger than the gap (K) occurs, a displacement in the direction perpendicular to the insertion bar (7) is transmitted to the base side. The hole (3) comes into contact with the insertion bar (7) and stops. At this time, both ends of the insertion bar (7) are supported at both ends fixed to the upper plate side wall (5), so that not the impact bending moment but the shearing force is applied to the insertion bar (7), It does not require strength as high as the conventional example. When an impact force in a direction parallel to the insertion bar (7) is applied, the inclined piece (2a) comes into surface contact with the upper plate side wall (5).
[0020]
【The invention's effect】
According to the present invention, the base and the upper plate are connected by the insertion bar inserted into the base side through hole of the base side wall and the upper plate side hole of the upper plate side wall. Is applied, only a shear force is applied to the insertion bar supported at both ends of the upper plate, and it is not necessary to make the insertion bar stronger than necessary. In addition, since this insertion bar is arranged so as to penetrate the upper plate, the required number is only two, and not only can the number of members be reduced, but also the assembly is very simple because only the insertion is required. There is an advantage that is.
[Brief description of the drawings]
1 is a plan view of an anti-vibration device according to the present invention; FIG. 2 is a front view of FIG. 1; FIG. 3 is a partially enlarged partial plan view of FIG. 1; FIG. 5: Plan view of conventional example [FIG. 6] Cross-sectional view of conventional example [Description of reference numerals]
(1) Base (2) Base side wall (3) Base side through hole (4) Upper plate (5) Upper plate side wall (6) Elastic body (7) Insertion bar (8) Upper plate side through hole

Claims (1)

A rectangular base, a base side wall erected on the base symmetrically in a state of being opened at an obtuse angle in a U shape and an inverted U shape, a base side through hole formed in the base side wall, and An upper plate disposed on the upper plate, an upper plate-side side wall vertically provided on the lower surface of the upper plate, and configured with a short side and a long side, and an upper plate-side through hole formed in the upper plate side. An elastic body for carrying a load disposed between the base and the upper plate, an insertion bar penetrated through the base-side through-hole and the upper plate-side through-hole, and having a diameter smaller than at least one of the through-holes. In the vibration isolator consisting of
The upper plate side wall on the long side is formed in a mountain shape in accordance with the inclined pieces on both sides of the base side wall, and
An anti-vibration device characterized in that a tapered washer is welded to an upper plate side wall in accordance with the inclination thereof .

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