JPS6145131A - Resilient supporting device - Google Patents

Abstract

PURPOSE:To produce an excellent vibration insulating effect and to enable enough absorption of vibration in a direction extending right angles with an axis, by a method wherein sealing ability of a partition ring part, dividing a fluid chamber axially formed in a resilient body 3, is increased. CONSTITUTION:A resilient body 3 is located between an inner cylinder 1 and an outer cylinder 2, an annular fluid chamber 4 is axially formed at the interior of the resilient body, and the fluid chamber 4 is divided into 2 chambers by a partition ring 5. The partition ring 5 is provided at both sides and its outer peripheral part with seal rings 6. The partition ring serves to ensure sealing between a positioning ring 9, engaged with the outer peripheral surface of the inner cylinder, and a spacer ring 8, and limit the flow of fluid between the divided fluid chambers 4 only to a communicating passage 10, resulting in improvement of a vibration insulating effect. Further, the partition ring 5 is also movable in a direction extending orthogonal to an axis, and this enables provision of flexibility enough to allow sufficient absorption of vibration in a direction extending orthogonal to an axis.

Description

DETAILED DESCRIPTION OF THE INVENTION <Field of Industrial Application> The present invention relates to an elastic support device useful for use in suspensions for vehicles such as automobiles.

<Prior Art> A rigid inner cylinder member connected to one support member and an outer cylinder located radially outward of the inner cylinder member and connected to the other member are connected via an elastic body. Elastic support devices that are concentrically integrated and have a damping effect in the direction perpendicular to the axis have been proposed and put into practical use. Furthermore, many proposals have been made in which two fluid chambers are provided in the direction perpendicular to the axis inside one elastic body and communicated through an orifice to improve the damping effect in the direction perpendicular to the axis.

However, there has been no elastic support device that has a structure in which a fluid chamber is provided in the axial direction within an elastic body and the fluid chambers are divided by a partition ring, which is the object of the present invention. Developed and first filed a patent application in 1984-401.
It was proposed by No. 40. This elastic support device is designed to change vibration damping characteristics and obtain a good vibration damping effect by communicating two divided fluid chambers through a communication hole provided in a partition ring.

<Problems to be Solved by the Invention> However, when such an elastic support device is used, the fluid does not move only from the communication hole of the partition ring provided as an orifice, and the gap between the partition ring and the spacer ring Also, fluid moves from the gap between the partition ring and the positioning ring, which changes the vibration damping characteristics required of the elastic support device, and the good vibration damping effect is somewhat reduced.

<Means for Solving the Problems> The elastic bushing according to the present invention provides a high-performance elastic bushing that allows comfortable running in all areas.

Its structural feature is an elastic support device that has a damping effect in the axial direction via an elastic body (3) between the inner cylinder (1) and the outer cylinder (2), and the fluid inside the elastic body is disposed within the circumference. The fluid chamber (4) is sealed by going around the outer cylinder (2), and is movable in the axial direction and perpendicular direction to the outer cylinder (2). and a positioning ring (9) (9) having a flange portion facing each other via the seal ring (6) on its side end surface and fitted to the outer circumferential surface of the inner cylinder. The fluid chamber is divided into two fluid chambers, and the two fluid chambers are communicated with each other by a predetermined communication path. Here 1 elastic body (3)
Specifically, the rigid ring A (11) has a sealing layer of an elastic material on the outer periphery of the inner cylinder (1) and the inner periphery of the outer cylinder;
An annular elastic body is arranged between the rigid ring B (12), and the elastic bodies (3) (3) are arranged at both ends of the inner cylinder, and the inner cylinder (1) and the outer cylinder (2) are arranged. ), the elastic body (3) (3) forms a fluid chamber. A communication path (1o) is provided on the outer periphery of the spacer ring, and both ends of the communication path have introduction portions (13) leading to the liquid chamber, or between the outer periphery and the positioning ring (9). It was decided that it would be formed by a groove provided on the inner surface of the Furthermore, a separate elastic body was provided on the outer peripheral surface of the outer cylinder (2) to create a double elastic structure.

With the above structure, the effect of the seal ring (6) provided on the outer periphery and side end face of the partition ring allows fluid to move only from the communication path between the divided fluid chambers. The effect of installing the partition ring is that when a small amplitude is applied in the axial direction between the outer cylinder and the inner cylinder, there is not much attenuation, but when a large amplitude is applied, a large attenuation occurs. The aim is to ensure that these characteristics can be obtained. Furthermore, by providing an appropriate gap between the inner peripheral surface of the partition ring and the positioning ring, the partition ring can be moved not only in the axial direction but also in the direction perpendicular to the axis. By doing this, it was possible to obtain enough softness to absorb vibrations without depending on the rigidity of the partition ring in the direction perpendicular to the axis.

<Example> Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a longitudinal sectional view of a first embodiment of the elastic support device of the present invention. 2nd @ is an AA phase optical cross-sectional view in FIG. 1. 3 and 4 are sectional views of main parts of the second and third embodiments.

As seen in these figures, the present invention relates to an elastic support device having a damping effect in the axial direction via an elastic body (3) between an inner cylinder (1) and an outer cylinder (2). A fluid chamber (
4) is formed. The fluid chamber (4) is divided into two chambers by a partition ring (5). The partition ring (5) has a structure that is movable relative to the outer cylinder (2) in the axial direction and in the direction perpendicular to the axis.

The elastic body (3) is a rigid ring A (
11), a ring-shaped elastic body is arranged between the rigid ring B (12), and the elastic body (3) is arranged at both ends of the inner cylinder, and the inner cylinder (1) and the outer cylinder Cylinder (2), elastic body (3)
(3) forms a fluid chamber. What is characteristic here is the structure in which a seal ring (6) is arranged on the outer periphery and side end face of the partition ring. This seal ring (6)
The partition ring (5) and spacer ring (8)
) or the gap between the partition ring (5) and the positioning ring (
9) becomes impossible to move fluid through the gap.

In FIGS. 1 and 2 of the first embodiment, the communication passage (10) that communicates the fluid chamber (4) (4) for fluid movement connects the elastic body (3) and the outer cylinder (2). It is provided on the outer periphery of a spacer ring (8) provided between the two. In addition, a fluid chamber (4) divided into two chambers by a partition ring (5) (
4) is connected to the rigid ring B.
(12) An introduction part (13) is provided on the outer periphery of the spacer ring (8) disposed between the two, and both ends of the communication part are provided with introduction parts (13) leading to the liquid chamber. As an example, in the second embodiment shown in FIG. 3, the communication portion (10) is provided in the positioning ring (8). Furthermore, as shown in FIG. 4, the communication portion (10) can also be provided on the outer periphery of the inner cylinder (1).

As shown in the figure, the elastic support device described above has a double structure in which a separate outer elastic body (7) is arranged around the outer circumference of the outer cylinder (2) and is attached to an engine mount, etc. If the elastic body (7) is provided with ears (14) that also serve as stoppers, the vibration damping performance will be further improved. Further, if iron is fitted into an aluminum outer cylinder, there is a risk of electrolytic corrosion, but since the outer elastic layer (7) is interposed therebetween, electrolytic corrosion can be prevented.

<Effects of the Invention> Since the elastic support device of the present invention has the above structure,
During normal driving, it has low damping and excellent vibration transmission characteristics, and when an excessive impact is applied, it has large damping and excellent vibration absorption performance.

In addition to the above-mentioned features, the device is elastically deflectable in the axial direction, perpendicular to the axis, and to some extent in the twisting direction. In addition, fitting is possible by providing an outer elastic body on the outer part of the outer cylinder. Furthermore, it has become a product with excellent performance in terms of rust prevention effect.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view of a first embodiment of the elastic support device of the present invention. FIG. 2 is a sectional view taken along line AA in FIG. 3 and 4 are sectional views of main parts of the second and third embodiments. (1) Inner cylinder (2) Outer cylinder (3) Elastic body (4) Fluid chamber (5) Partition ring (6) Seal ring (7) Outer elastic body
(8) Spacer ring (9) Positioning ring
(10) Communication part (11) Rigid ring A (12) Rigid ring B (13) Introduction part (14) Ear part first
figure

Claims (1)

[Scope of Claims] 1. An elastic support device having a damping effect in the axial direction via an elastic body (3) between an inner cylinder (1) and an outer cylinder (2), wherein a fluid is provided in the elastic body in a circumferential direction. A fluid chamber (
4), an annular partition ring (5) movable in the axial direction and perpendicular direction to the outer cylinder (2), and having a seal ring (6) arranged on the side surface and outer circumference; The side end face has a flange portion facing each other via the seal ring (6), and is divided into two fluid chambers by a positioning ring (9) (9) fitted to the outer circumferential surface of the inner cylinder, and is arranged in a predetermined connection. An elastic support device characterized in that the two fluid chambers are communicated with each other by a passage (10). 2. The elastic body (3) is a rigid ring A (11) having a sealing layer of elastic body on the outer circumference of the inner cylinder (1) and the inner circumference of the outer cylinder.
, an annular elastic body is arranged between the rigid rings B (12), and the elastic bodies (3) (3) are arranged at both ends of the inner cylinder, so that the inner cylinder (1) and the outer cylinder ( 2) The elastic support device according to claim 1, wherein a fluid chamber is formed by the elastic body (3) (3). 3. A communication path (10) that communicates the fluid chambers (4) (4) separated into two chambers by a partition ring (5) etc. is provided between the rigid rings B (12) (12), which is approximately the same as the rigid ring B. 2. The elastic support device according to claim 1, wherein the spacer ring (8) is provided on the outer periphery of the spacer ring (8), and further includes introduction portions (13) at both ends of the communicating path leading to the liquid chamber. 4 Fluid chamber divided into two chambers by a partition ring (4)
2. The elastic support device according to claim 1, wherein the communication path (10) that communicates with the inner cylinder (1) is formed by a groove provided in the outer circumference of the inner cylinder (1) and the inner surface of the positioning ring (9). 5. The elastic support device according to claim 1, wherein the outer cylinder (2) is provided with an outer elastic body (7) on its outer peripheral surface.