Patent ID: 7798477
Filing Date: 2010-09-21
Classification: F16F

Abstract:
1. A hydraulically damped mounting device having: a first anchor part; a second anchor part in the form of a hollow sleeve containing the first anchor part, such that the first anchor part extends axially of the sleeve; first and second resilient walls interconnecting the first and second anchor parts, the first and second resilient walls being spaced apart so as to define an enclosed space within the sleeve extending circumferentially around the first anchor part and axially bounded by the first and second resilient walls; first and second deformable walls, each extending axially from the first and second resilient walls at circumferentially spaced locations, so as to divide the enclosed space into first and second chambers for hydraulic fluid; a passageway interconnecting the first and second chambers, the passageway being for flow of hydraulic fluid therethrough; wherein the deformable walls each have at least one flexible flap extending radially therefrom to a free end that forms an abutting un-bonded contact with one of the second anchor part or the first anchor part; wherein the deformable walls have an abutment surface parallel to the longitudinal axis of the sleeve, which abutment surface contacts a corresponding the at least one flap when the fluid pressure is below a predetermined fluid pressure; and at least one support device extending between each flap and a part of the deformable wall adjacent to the at least one flap, wherein each at least one support device is adapted to resist deformation of the corresponding flap below a pre-determined fluid pressure differential between the first and second chambers and thereby to maintain the free end of that corresponding flap in said abutting unbonded contact with the respective first or second anchor parts, and wherein each at least one support device is adapted to permit deformation of the corresponding flap when the pressure differential between the first and second chambers is above said pre-determined fluid pressure to thereby form a fluid bypass route between said first and second chambers around said corresponding flap, wherein each at least one support device is further adapted to permit fluid flow in only one direction between the first and second chambers so that the at least one flap extending from the first deformable wall will deform to permit fluid flow from the first chamber to the second chamber when the pre-determined pressure differential is greater in the first chamber than in the second chamber and the at least one flap extending from the second deformable wall will deform to permit fluid flow from the second chamber to the first chamber only when the pre-determined pressure differential is greater in the second chamber than in the first chamber.