JP6184705B2 - Multi-function anti-vibration mount - Google Patents

Description

  The present invention relates to a multifunction anti-vibration mount that performs both vibration isolation of a vibrating device and protection of the device during an earthquake.

The following Patent Document 1 describes a vibration isolator and can absorb vibrations of equipment.
The following Patent Document 2 describes an anti-vibration rubber device for earthquake resistance, and it is proposed to protect various devices against earthquakes.

JP 2008-157406 A JP-A-2005-76787

Conventional vibration isolator and anti-vibration anti-vibration rubber device both absorb small vibrations of ordinary equipment and absorb large vibrations during an earthquake with the same rubber material.
However, the normal vibration associated with the driving of the device is relatively weak and continues. On the other hand, vibrations in earthquakes can be very strong and intense. When absorbing the normal micro-vibration of the equipment, it must be an elastic body with anti-vibration characteristics. And in order to absorb a comparatively weak vibration effectively, it must have a large elastic deformation with respect to a load. However, such a microvibration compatible rubber is damaged by a strong earthquake, and the device may fall over at the time of the earthquake.

Next, when a strong anti-vibration rubber for earthquakes is attached to a device, it is not possible to sufficiently absorb the fine vibrations of a normal device. Therefore, noise is emitted.
Therefore, an object of the present invention is to solve these various problems simultaneously.

The present invention according to claim 1 has a columnar main body (1) made of a rubber material, and a heavy load vibration isolator (a pair of screwed bodies (2) and (3) embedded in both axial ends thereof ( 4) and
A small load vibration isolator (5) made of a cylindrical elastic body coaxially fitted on the outside in the radial direction of the large load vibration isolator (4);
A first plate (7) in which the lower ends of both vibration isolators (4) and (5) are seated on the upper surface, and a hole (6) is provided on the axis of the heavy load anti-vibration body (4);
The lower end of the heavy load vibration isolator (4) is connected to the first plate (7) through the screwed body (2), the fastener, and the hole (6) on the lower end side of the heavy load vibration isolator (4). First fastening means (8) screwed and fastened to,
A second plate (10) having a lower surface in contact with the upper end of the small load vibration isolator (5) and a hole (9) provided on the axis of the large load vibration isolator (4);
The upper end of the heavy load vibration isolator (4) is connected to the second plate (10) through the screwed body (3), the fastener, and the hole (9) on the upper end side of the heavy load vibration isolator (4). A second fastening means (11) screwed and fastened to,
The lower surface of the first plate (7) is fixed to the base (12), the third plate (16) is attached to the upper surface of the second plate (10), and the device (13 is attached to the upper surface of the third plate (16). ) Is fixed,
For small vibration loads in a certain range, only the small load vibration isolator (5) is elastically deformed,
It is a multi-function vibration isolating mount configured so that the heavy load vibration isolator (4) is elastically deformed against a large vibration load.

The present invention according to claim 2 is the multifunction anti-vibration mount according to claim 1,
A pair of screwed bodies (2) and (3) of the heavy-duty vibration isolator (4) are nuts, and a multi-function vibration isolator mount in which a bolt (14) is fastened as a fastener to both nuts. .
The present invention according to claim 3 has a columnar main body (1) made of a rubber material , and a heavy load vibration isolator (a pair of screwed bodies (2) (3) embedded at both ends in the axial direction. 4) and
A small load vibration isolator (5) made of a cylindrical elastic body coaxially fitted on the outside in the radial direction of the large load vibration isolator (4);
A first plate (7) in which the lower ends of both vibration isolators (4) and (5) are seated on the upper surface, and a hole (6) is provided on the axis of the heavy load anti-vibration body (4);
The lower end of the heavy load vibration isolator (4) is connected to the first plate (7) through the screwed body (2), the fastener, and the hole (6) on the lower end side of the heavy load vibration isolator (4). First fastening means (8) screwed and fastened to,
A second plate (10) having a lower surface in contact with the upper end of the small load vibration isolator (5) and a hole (9) provided on the axis of the large load vibration isolator (4);
The upper end of the heavy load vibration isolator (4) is connected to the second plate (10) through the screwed body (3), the fastener, and the hole (9) on the upper end side of the heavy load vibration isolator (4). A second fastening means (11) screwed and fastened to,
A pair of screwed bodies (2) and (3) of the large load vibration isolator (4) are each made of nuts, and bolts (14) are fastened to both nuts as fasteners,
The lower surface of the first plate (7) is fixed to the base (12), the device (13) is fixed to the upper surface of the second plate (10),
For small vibration loads in a certain range, only the small load vibration isolator (5) is elastically deformed,
It is a multi-function vibration isolating mount configured so that the heavy load vibration isolator (4) is elastically deformed against a large vibration load .

According to a fourth aspect of the present invention, in the multifunction vibration-proof mount according to the second or third aspect,
The hole (6) of the first plate (7) is formed as a stepped hole that shrinks upward, and the hole (9) of the second plate (10) is formed as a stepped hole that shrinks downward, Multi-function type anti-vibration system in which the head (14a) of the bolt (14) is seated on the stepped portion and the end face of the head (14a) does not protrude from the surface of each plate (7) (10) Mount .
The present invention according to claim 5 is the multifunction anti-vibration mount according to claim 4,
The upper surface of the head (14a) of the bolt (14) on the second plate (10) side is at a position lower than the upper surface of the second plate (10) by a height H, and the second plate (10) is at its height. This is a multi-function anti-vibration mount configured to be able to move downward with the height H as a limit .

According to a sixth aspect of the present invention, in the multifunction type vibration-proof mount according to any one of the first to fifth aspects,
The small load vibration isolator (5) is a multi-function vibration isolator mount comprising a cylindrical coil spring (5b) and a cylindrical rubber (5a) in which the coil spring (5b) is embedded .
A seventh aspect of the present invention is the multifunction vibration-proof mount according to any one of the first to fifth aspects,
The small load vibration isolator (5) is a multi-function vibration isolator mount comprising a cylindrical coil spring (5a) .

In the multi-function vibration isolating mount of the present invention, only a small load vibration isolator 5 is elastically deformed for a small vibration load within a certain range,
The large load vibration isolator 4 is configured to be elastically deformed against a large vibration load such as an earthquake.
Therefore, the vibration generated from the device can be effectively absorbed by the characteristics of only the small load vibration isolator 5, and noise can be eliminated. And the heavy load anti-vibration body 4 absorbs it with respect to the roll of an earthquake, and a vertical shake, and it can prevent the bad influence to the apparatus by an earthquake.
That is, the vibration of the device 13 is absorbed by the small load vibration isolator 5, and the shaking of the earthquake is absorbed by the heavy load vibration isolator 4, thereby preventing the device 13 from being overturned or damaged.
When the third plate 16 is attached to the upper surface of the second plate 10, the anti-vibration bodies 4 and 5 can be protected with a simple structure, and a long-life multifunction anti-vibration mount can be provided.
As in the invention described in claim 2 or claim 3, a pair of nuts 2 and 3 are embedded at both ends of the heavy load vibration isolator 4, and each of the plates 7 and 10 is connected to the nuts via bolts 14. When the fastening means 8 and 11 with the load vibration isolator 4 are configured, a compact multifunction anti-vibration mount can be provided with a simple structure.

As in the fourth aspect of the present invention, the holes 6 and 9 of the plates 7 and 10 are stepped, and the heads 14a of the bolts 14 are seated there, and the end surfaces of the heads 14a are arranged on the plates 7 and 10 respectively. When configured so as not to protrude from the surface of 10, it is possible to provide an easy-to-handle multifunction anti-vibration mount that can be easily installed on the base 12 and mounted on the device 13.
As in the fifth aspect of the present invention, the upper surface of the head 14a of the bolt 14 on the second plate 10 side is at a position lower than the upper surface of the second plate 10 by a height H, and the second plate 10 is at its height. When configured to be able to move downward with the height H as a limit, small vibrations can be effectively absorbed with a simple structure.
When the low load vibration isolator 5 is constituted by the cylindrical coil spring 5b and the cylindrical rubber 5a in which the coil spring 5b is embedded as in the invention described in claim 6 , the resonance generated in the coil spring 5b. Can be absorbed by the cylindrical rubber 5a. Further, the vibration of the device can be effectively absorbed by the interaction between the coil spring 5b and the cylindrical rubber 5a. Further, the cylindrical rubber 5a protects the coil spring 5b and has a spring rust prevention effect.
When the small load vibration isolator 5 is a cylindrical coil spring 5b as in the invention described in claim 7 , a multifunctional vibration isolating mount having a simpler structure can be provided.

The disassembled perspective view of the multifunction type vibration proof mount of this invention. It is a principal part longitudinal cross-sectional view which shows the assembly state, and is II-II arrow line view of FIG. III-III arrow line view of FIG. IV-IV arrow line view of FIG. The VV arrow directional view of FIG. The principal part longitudinal cross-sectional view which shows the other Example of the multifunction type vibration proof mount of this invention. The principal part longitudinal cross-sectional view which shows further another Example of the multifunction type vibration proof mount of this invention.

Next, embodiments of the present invention will be described with reference to the drawings.
FIGS. 1 to 5 show a first embodiment of the present invention. As shown in FIGS. 1 and 2, the multi-function vibration isolating mount 15 has a third plate 16, a second plate 10 and a heavy load vibration isolating from above. It has a body 4, a small load vibration isolator 5 and a first plate 7.
A small load vibration isolator 5 is fitted concentrically on the outside of the large load vibration isolator 4, and a second plate 10 and a first plate 7 are arranged above and below them. The heavy load vibration isolator 4 has a columnar main body 1 made of a rubber material, and a pair of screwed bodies 2 and 3 are embedded at both ends in the axial direction. The screw bodies 2 and 3 are made of nuts in this example. Instead, a bolt may be embedded (FIG. 6).

Next, the small load vibration isolator 5 includes a cylindrical rubber 5a formed in a cylindrical shape and a coil spring 5b embedded therein. As shown in FIG. 1, the cylindrical rubber 5a in this example has four concave stripes. And the coil spring 5b is arrange | positioned so that this recess may be touched.
The small load vibration isolator 5 is formed by forming four ridges on the outer periphery of a cylindrical mold inserted inside by 90 ° apart in the circumferential direction, and forming a cylindrical mold on the outer side thereof. , And a coil spring 5b is inserted between both molds, and the coil spring 5b is positioned on the ridges of the mold. And the low load vibration isolator 5 can be formed by filling a rubber material between both molds.
An inner flange portion is provided on the inner periphery of the lower end of the small load vibration isolator 5, and is positioned on the outer flange portion on the outer periphery of the lower end of the heavy load vibration isolator 4.
An outer flange portion is also formed at the upper end of the heavy load vibration isolator 4.

Next, the 1st plate 7 is formed in the rectangle in this example, and the hole 6 is provided in the center. The hole 6 is formed in a stepped shape that shrinks upward. Bolt holes are formed at the four corners of the first plate 7.
Next, the second plate 10 is formed in a substantially square shape, and one side thereof is equal to the short side of the first plate 7. A hole 9 is provided in the center of the second plate 10 and is formed in a stepped shape that shrinks downward. Further, bolt holes are formed in the four corners of the second plate 10. Further, a small bolt hole is formed in the middle part of each side.
Next, the third plate 16 is attached to the upper surface of the second plate 10. Bolt holes are drilled at the four corners, and bolt holes smaller than the bolt holes are formed in the middle portions of the sides. It has been drilled. The bolt holes on each side are stepped downward.

(Assembly method)
Next, a method for assembling the multifunction vibration-proof mount of the present invention will be described.
As an example, the large load vibration isolator 4 is inserted into the small load vibration isolator 5 and placed at the center of the first plate 7. Then, the bolt 14 is inserted from below the first plate 7, and is screwed to the inner screw of the screwed body 2 on the lower side of the heavy load vibration isolator 4. At the same time, the second plate 10 is placed on the upper surface of the small load vibration isolator 5, and the bolt 14 is screwed onto the screw body 3 on the upper side of the large load vibration isolator 4.
Next, the third plate 16 is placed on the upper surface of the second plate 10, and bolts 20 are inserted into the third plate 16 and screwed to the internal screws of the second plate 10.
In this way, the multi-functional vibration-proof mount of the present invention is completed.

(how to use)
FIG. 2 is a vertical cross-sectional view of a main part in which four multifunction anti-vibration mounts of the present invention are used (the other three are omitted) and the device 13 is attached to the base 12.
In this example, four multifunction vibration-proof mounts 15 are arranged at the four corners or the like according to the size of the device 13. At this time, an anchor bolt 17 is projected from the base 12 and a bolt hole of the first plate 7 is inserted therein. Then, the first plate 7 is fixed to the base 12 by the nut 18. An anchor nut can be used instead of the anchor bolt, and the bolt can be screwed thereto. Next, the bolt holes of the device 13 and the bolt holes of the second plate 10 and the third plate 16 are aligned, and the bolts 19 are fastened and fixed therebetween.
Such attachment is performed at the four corners of the device 13 to complete the attachment of the multifunction vibration-proof mount of the present invention.
Thus, since the upper and lower plates 10 and 7 fixed to the equipment 13 and the base 12 and the heavy load vibration isolator 4 are fastened by the upper and lower fastening means 8 and 11, the equipment in the event of an earthquake. There is no risk of 13 falling.

At this time, as shown in FIG. 2, a height H exists between the upper end surface of the head portion 14 a of the bolt 14 attached to the second plate 10 and the lower surface of the third plate 16.
The lower surface of the head 14a of the bolt 14 is seated on the inner flange portion of the stepped hole of the hole 9. Further, the upper surface of the head portion 14 a of the bolt 14 on the first plate 7 side is seated on the inner flange portion of the stepped hole of the hole 6. A tool insertion recess 14b is formed at the center of each head 14a of each bolt 14, and a tool is fitted therein and the bolt 14 is screwed.

(Function)
When a motor, a pump, or the like is installed on the base 12 by using a plurality of vibration-proof mounts as the device 13 and the device 13 is driven, vibration is generated along with the drive. The vibration is transmitted mainly as a slight vertical movement of the second plate 10. As the second plate 10 moves up and down, the small load vibration isolator 5 expands and contracts. At this time, a height H is formed between the head 14a of the upper bolt 14 and the third plate 16, and the height H decreases as the second plate 10 moves downward. The vertical vibration of the device 13 is absorbed by the axial expansion and contraction of the small load vibration isolator 5.
It should be noted that relatively small lateral vibration from the device 13 is absorbed mainly by slight movement of the light-weight vibration isolator 5 in the horizontal direction.

Next, when a large roll occurs due to an earthquake or the like, the second plate 10 moves in the horizontal direction, and the bolt 14 held on the second plate 10 moves in the horizontal direction. Then, the heavy-duty vibration isolator 4 screwed to the bolt 14 is deformed, so that most of the roll is absorbed. At the same time, the roll is slightly absorbed by the light load isolator 5.
Next, when the large pitching due to the earthquake exceeds the height H between the head 14 a of the bolt 14 and the third plate 16, most of the pitching is also absorbed by the heavy load vibration isolator 4. At the same time, it is absorbed a little by the small load vibration isolator 5.
In this way, the small load vibration isolator 5 absorbs the vibration mainly for the small vibration accompanying the driving of the device 13, and the large load vibration isolator for the large pitch and roll caused by the earthquake. 4 absorbs it.

Next, FIG. 6 is a longitudinal sectional view of an essential part of the second embodiment of the present invention. This example is different from the embodiment of FIG. It is a point embedded in the body 4. The second fastening means 11 is formed by the nut 18 and its bolt.
Next, FIG. 7 is a longitudinal sectional view of an essential part of the third embodiment of the present invention. This example is different from the embodiment of FIG. 2 in that the small load vibration isolator 5 is formed only by the coil spring 5b. It is. In this example, the structure can be made simpler, and the conditions of various devices can be quickly met.

1 Body 2, 3 Screwed body 4 Heavy load vibration isolator 5 Light load vibration isolator
5a Tubular rubber
5b Coil spring 6 hole 7 1st plate

8 First fastening means 9 Hole
10 Second plate
11 Second fastening means
12 base
13 Equipment
14 volts
14a head
14b Tool insertion recess

15 Multi-function anti-vibration mount
16 Third plate
17 Anchor bolt
18 nuts
19 volts
20 Volts H Height

Claims (7)

A heavy-duty vibration isolator (4) having a columnar main body (1) made of a rubber material and having a pair of screwed bodies (2) (3) embedded at both ends in the axial direction;
A small load vibration isolator (5) made of a cylindrical elastic body coaxially fitted on the outside in the radial direction of the large load vibration isolator (4);
A first plate (7) in which the lower ends of both vibration isolators (4) and (5) are seated on the upper surface, and a hole (6) is provided on the axis of the heavy load anti-vibration body (4);
The lower end of the heavy load vibration isolator (4) is connected to the first plate (7) through the screwed body (2), the fastener, and the hole (6) on the lower end side of the heavy load vibration isolator (4). First fastening means (8) screwed and fastened to,
A second plate (10) having a lower surface in contact with the upper end of the small load vibration isolator (5) and a hole (9) provided on the axis of the large load vibration isolator (4);
The upper end of the heavy load vibration isolator (4) is connected to the second plate (10) through the screwed body (3), the fastener, and the hole (9) on the upper end side of the heavy load vibration isolator (4). A second fastening means (11) screwed and fastened to,
The lower surface of the first plate (7) is fixed to the base (12), the third plate (16) is attached to the upper surface of the second plate (10), and the device (13 is attached to the upper surface of the third plate (16). ) Is fixed,
For small vibration loads in a certain range, only the small load vibration isolator (5) is elastically deformed,
Multi-function anti-vibration mount configured to elastically deform the heavy load anti-vibration body (4) for large vibration loads. The multifunction anti-vibration mount according to claim 1 ,
A multi-function vibration-proof mount in which the pair of screwed bodies (2) and (3) of the heavy-duty vibration isolator (4) are each made of nuts, and bolts (14) are fastened to both nuts as fasteners. A heavy-duty vibration isolator (4) having a columnar main body (1) made of a rubber material and having a pair of screwed bodies (2) (3) embedded at both ends in the axial direction;
A small load vibration isolator (5) made of a cylindrical elastic body coaxially fitted on the outside in the radial direction of the large load vibration isolator (4);
A first plate (7) in which the lower ends of both vibration isolators (4) and (5) are seated on the upper surface, and a hole (6) is provided on the axis of the heavy load anti-vibration body (4);
The lower end of the heavy load vibration isolator (4) is connected to the first plate (7) through the screwed body (2), the fastener, and the hole (6) on the lower end side of the heavy load vibration isolator (4). First fastening means (8) screwed and fastened to,
A second plate (10) having a lower surface in contact with the upper end of the small load vibration isolator (5) and a hole (9) provided on the axis of the large load vibration isolator (4);
The upper end of the heavy load vibration isolator (4) is connected to the second plate (10) through the screwed body (3), the fastener, and the hole (9) on the upper end side of the heavy load vibration isolator (4). A second fastening means (11) screwed and fastened to,
A pair of screwed bodies (2) and (3) of the large load vibration isolator (4) are each made of nuts, and bolts (14) are fastened to both nuts as fasteners,
The lower surface of the first plate (7) is fixed to the base (12), the device (13) is fixed to the upper surface of the second plate (10),
For small vibration loads in a certain range, only the small load vibration isolator (5) is elastically deformed,
Multi-function anti-vibration mount configured to elastically deform the heavy load anti-vibration body (4) for large vibration loads. In the multifunction type anti-vibration mount according to claim 2 or claim 3 ,
The hole (6) of the first plate (7) is formed as a stepped hole that shrinks upward, and the hole (9) of the second plate (10) is formed as a stepped hole that shrinks downward, Multi-function type anti-vibration system in which the head (14a) of the bolt (14) is seated on the stepped portion and the end face of the head (14a) does not protrude from the surface of each plate (7) (10) mount. The multifunction anti-vibration mount according to claim 4 ,
The upper surface of the head (14a) of the bolt (14) on the second plate (10) side is at a position lower than the upper surface of the second plate (10) by a height H, and the second plate (10) is at its height. Multi-function anti-vibration mount configured to be able to move down to a height of H. In the multifunction type vibration isolating mount according to any one of claims 1 to 5 ,
The multifunction anti-vibration mount in which the small load vibration isolator (5) includes a cylindrical coil spring (5b) and a cylindrical rubber (5a) in which the coil spring (5b) is embedded. In the multifunction type vibration isolating mount according to any one of claims 1 to 5 ,
A multi-function vibration-proof mount in which the small load vibration-proof body (5) comprises a cylindrical coil spring (5a).

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