Spring devices – Resilient shock or vibration absorber – Including energy absorbing means or feature
Reexamination Certificate
2001-06-05
2003-01-28
Lavinder, Jack (Department: 3683)
Spring devices
Resilient shock or vibration absorber
Including energy absorbing means or feature
C267S219000
Reexamination Certificate
active
06511058
ABSTRACT:
FIELD OF THE INVENTION
The present invention pertains to a hydraulically damping rubber bearing with an uncoupling element for uncoupling the damping action of the rubber bearing against forces introduced radially into the bearing with a low exciting amplitude.
BACKGROUND OF THE INVENTION
Rubber bearings are used in many different forms and for many different purposes especially in the manufacture of vehicles. They are used, e.g., in the area of the vehicle axles or also to mount the vehicle unit. The bearings usually comprise a cylindrical inner part, which is surrounded by an elastomer over at least some sections and is connected to same by vulcanization. The above-mentioned parts are finally accommodated by a likewise cylindrical outer sleeve. To support the damping action, the bearings are designed as hydraulically damping bearings for certain applications, in which case chambers for accommodating a damping agent are provided in the elastomer and these chambers are connected to one another by a channel which makes possible the circulation of the damping agent. Damping of the masses is thus brought about by the damping agent swinging to and fro in the channel.
One problem of such bearings is that their steady dynamic load leads to an undesired hardening of the bearing and consequently to the more intense transmission of the structure-borne noise into the interior space of a vehicle. Moreover, forces which are generated in the form of periodically recurring shock loads, e.g., as vibrations of low amplitude, also lead to undesired acoustic problems within certain frequency ranges. Efforts are therefore made to uncouple the damping action of the bearings against such vibrations. Providing hydraulically damping bearings with an uncoupling member or element has been known for this purpose.
A solution used for this purpose provides, among other things, for a special design of the cage enclosed in the elastomer. According to this solution, webs rising up radially extending in the axial direction, which also extend through the channel used for the circulation of the damping fluid, are provided in some sections on the outer contour of the cage. To guarantee the circulation of the fluid in this case as well, these webs are interrupted in multiple areas. An insert part which is able to flutter is inserted between the webs. The flow of the damping agent in the channel is released by the insert part when vibration-like loads of low amplitude briefly appear to achieve an immediate pressure equalization between the damping agent chambers. The pressure equalization now takes place without the flow of appreciable volume flows of the damping agent. The strip-like insert part, which extends over nearly the entire axial length of the bearing, is arranged now between the webs such that it rises up in the radial direction comparably to a rubber lip.
In particular, the markedly increased assembly effort for the bearing is to be considered to be disadvantageous in this solution. In addition, the uncoupling element requires relatively much space in light of the distance between the rubber block with the cage and the outer sleeve. The amplitudes that can be effectively uncoupled in this manner are limited to a narrow range because of the comparatively long tangential paths of the insert part moving between the webs provided on the cage.
SUMMARY AND OBJECTS OF THE INVENTION
The object of the present invention is to provide a hydraulically damping rubber bearing with an uncoupling element, which has a high level of flexibility in terms of the range of the amplitudes to be uncoupled while the bearing can be mounted in a simple manner at the same time.
According to the invention, a hydraulically damping rubber bearing is provided with an uncoupling element. The bearing has an elastomer. The uncoupling element is arranged between an essentially cylindrical inner part and a cylindrical outer sleeve and is connected to the inner part by vulcanization. The hydraulically damping rubber bearing has chambers for receiving a damping agent. The chambers are connected by at least one channel arranged in a channel carrier. The uncoupling element is provided for uncoupling the damping action caused by the circulation of the damping agent in the channel or channels against forces of low exciting amplitude introduced into the bearing. The uncoupling element is a separate component from the hydraulically damping rubber bearing, arranged in a recess in a channel carrier space of the bearing. The uncoupling element includes a frame with a membrane fixed in a freely vibrating manner in or on the frame and a radial distance is assigned to the membrane between the channel carrier and the outer sleeve of the bearing, so that a radially directed movement of the membrane is possible.
The bearing on which the present invention is based comprises, in the known manner, a cylindrical inner part, an elastomer connected to the said inner part by vulcanization, and an outer sleeve accommodating the inner part and the elastomer. To achieve the hydraulic damping action, chambers are provided in the elastomer for a damping agent, which can circulate over at least one channel, which is provided in a channel carrier and connects the chambers to one another. To accomplish the object, the uncoupling element of the bearing according to the present invention is designed as a separate component to be inserted into a recess provided for this purpose. The uncoupling element comprises a frame-like housing and a membrane fixed in a freely vibrating manner in the housing. The uncoupling element and the mount provided for the element in the channel carrier are designed such that the membrane of the component arranged in the bearing can perform a radially directed movement between the channel carrier and the outer sleeve.
The design of the bearing according to the present invention offers a number of advantages. The uncoupling element, designed as a preassembled separate component, can be mounted easily in the course of the manufacture of the bearing. At the same time, the characteristics of the bearing can be varied in a flexible manner by selecting uncoupling elements of various geometric shapes. The amount of fluid that can be uncoupled and consequently the amplitudes or frequencies of the loads occurring, which amplitudes or frequencies can be uncoupled, can be affected very easily especially by varying the thickness of the membrane of the uncoupling element. By controlling the uncoupling by a radial movement of an only thin membrane, the space requirement for the insertion of the uncoupling element between the channel carrier and the outer sleeve of the bearing is, moreover, very small. The thickness of the membrane, which is always small, though differing depending on the setting, leads to low inertia of the arrangement during dynamic processes that occur.
Corresponding to a possible embodiment of the present invention, the recess for receiving the uncoupling element extends in parallel to the channel or channels provided for the circulation of the damping agent between the chambers. However, there is an additional connection in this case between the damping agent chambers via the recess receiving the uncoupling member in the channel carrier, and an immediate pressure equalization can take place via this additional connection when lower exciting amplitudes and, as a result of these amplitudes, radially directed movement of the membrane of the uncoupling element can occur, without the flow of an appreciable amount of damping agent. Low exciting amplitudes shall be defined here as acting forces which lead to a radial deflection of the bearing by about 0.1 mm or less.
According to an advantageous embodiment of the bearing, the frame-like housing of the uncoupling element has at least one recess, by means of which the component is fixed in the completely assembled bearing in terms of its position in a cam provided for this purpose in the area of its mount. This recess in the housing of the uncoupling element may be embodied, e.g., in the form of
Meyerink Frank
Vossel Andreas
Lavinder Jack
McGlew and Tuttle , P.C.
Pezzlo Benjamin A
ZF Lemförder Metallwaren AG
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