DE102007025301A1 - Vibration damper for motor vehicle exhaust unit, has frame supported by springy wire-element against exhaust component being damped - Google Patents

Abstract

A vibration damper (1) has its frame (2) directly or indirectly supported, via at least one damped-springy wire element (3), against the exhaust component (4) being damped.

Description

The The present invention relates to a vibration absorber, in particular for one Exhaust system of a motor vehicle.

The Principle of a vibration absorber is essentially based on that one to be damped first Vibration system, in this case an exhaust system, with a coupled to second spring-mass systems, this second system matched by the appropriate choice of spring constant and absorber mass is that the forced oscillations of the absorber system in phase opposition oscillates to the exciter vibration of the first vibration system and in this way a reduction of the oscillation amplitude of the first System causes. With optimal design of the absorber system can be in this way the oscillation amplitude of the first system in one certain frequency range to a minimum, ideally even completely eliminate.

such Vibration absorbers exist in many areas of technology, being their designs of the vibration systems to be damped and especially from those to be damped Degrees of freedom dependent are.

Thus, the absorber principle is applicable to both translational and rotatory degrees of freedom, which from the publications DE 1 018 731 C2 and DE 195 24 948 A1 known vibration absorber are essentially limited only to a uniaxial translational motion, if one disregards the possible wobbling movement of the absorber mass of the latter document once. This is disadvantageous if the vibration to be damped does not occur exclusively translationally in one direction.

One Another disadvantage of these two vibration absorber is in their relatively complicated structure. Both vibration absorbers have the same construction, in which the absorber mass slidable along an axis between spiral or Disc springs out is. This design requires a lot of effort in the mechanical Processing the items that the vibration absorber expensive and make it uneconomic. Furthermore, a biaxial vibration damping not with these versions possible.

In front In this background, the invention is based on the object To create a vibration damper, which is characterized both by its simple structure as well as by a multi-dimensional repayment effect of the state of Technology differentiates. Furthermore, the vibration damper according to the invention has a good damping and is also at higher Temperatures, as they occur in exhaust systems, can be used.

The Task to create a simple vibration absorber With multi-dimensional eradication effect according to the invention thereby solved, that the absorber mass over at least one muted-springing Wire element directly or indirectly against the damped Exhaust component, e.g. the exhaust pipe of a motor vehicle, supported.

at The wire element is a well-known, highly effective Wire cushions of pressed metal wire, such as pressed wire mesh, of wire mesh, wire mesh or the like, among all Conditions after deflection from its unloaded form by acting forces strong muted returns to its rest position. Further allows the temperatures occurring at the exhaust system thermally completely Insensitive cushion material the absorber system in one place to place the exhaust system where it is from vibration control View is particularly effective.

By the use of a wire element, the z. B. in the form of an annular wire cushion as an elastic continuum in several directions both damping As well as having resilient properties, it became possible to use the to be damped Extend vibrational motion to multiple coordinate axes.

In A preferred embodiment provides that the absorber mass in Shape of a ring rotationally symmetrical to the longitudinal axis (x-axis) of the exhaust component, z. B. the exhaust pipe, and is located above a likewise annular wire pillow Pressed metal wire radially and / or axially against the exhaust component supported. So leads a swinging movement of the exhaust gas component in the y-z plane, i. in Transverse direction to the vehicle's longitudinal axis (x-axis), to a substantially in the direction of swinging motion acting deformation of the wire cushion, thereby producing both radial and also deformations directed in the circumferential direction of the pad arise. The absorber mass in turn delivers by their inertia the Reaction forces which are required for deformation of the wire pad. At optimal Tuning the absorber system vibrates the absorber mass in opposite phases for movement of the exhaust component, in which case a maximum damping effect created by the maximum compression of the pillow. The characteristic the vibration absorber is for all oscillatory motions in the y-z plane are practically the same. A small one Influence exercises the weight of the tiger mass in the negative z-direction, the caused a static pre-pressing of the pillow, but only insignificant influence on the absorber effect.

at an axial longitudinal direction running oscillatory movement (x-direction) becomes the annular Wire pillow over the stop rings of a rotationally symmetric shear stress suspended, with inertia the absorber mass evenly around the circumference opposes the required reaction forces, their transmission by a form-fitting Embrace the wire cushion is made possible by the absorber mass. The characteristic of the absorber system in the axial direction is due to the different spring stiffness of the wire pillow under shear stress across from the radial deformation described above different. It can be in this way different votes of the absorber system make in the different directions of vibration.

Should the previously described embodiment subsequently to an already assembled Exhaust system are mounted, it is modified to that effect, that the absorber mass of two positively or materially connected Halbringen consists, which also consists of at least two segments existing wire pillow ring embraces. A built-up vibration absorber is different in its absorber characteristic only insignificantly from the previously described with one-piece, ring-shaped wire cushion.

In Another preferred embodiment provides that the Absorber mass is embedded as a steel ring inside an annular wire cushion, in turn, directly on the outside of the exhaust component arranged and optionally in the axial direction on both sides annular attacks supported against this is. The operation of this embodiment is essentially identical with the previously described, in which the absorber mass the pillow from the outside embraces. The particular advantage of this design lies in the very compact Construction.

In Another preferred embodiment provides that at least a form-fitting or materially connected to the exhaust component, radially to longitudinal axis (x) arranged plunger of a cup-shaped Casing, which serves as absorber mass, is surrounded and between pestle and casing one or more wire cushions are arranged such that the casing move all around relative to the ram can.

at This design is the absorber effect preferably on a translational movement in the direction of the ram axis designed, but with appropriate design of the plunger head as well as the wire cushion and housing shape also movements across the ram axis possible. This execution may be particularly advantageous when space reasons a rotationally symmetrical arrangement of the absorber mass is not possible or only a small absorber mass with regard to the design-specific Requirements is required.

Further Features and details of the invention will become apparent from the claims and from the description below, in the three embodiments are explained in detail with reference to the drawings.

there shows:

1a a sectional side view of a vibration absorber according to a first embodiment of the invention.

1b the front view of the vibration absorber according to 1a with cut exhaust component (pipe).

2 the side view of a vibration absorber according to a second embodiment of the invention in half section.

3 the side view of a vibration absorber according to a third embodiment of the invention in half section.

In the vibration damper according to the invention 1 according to a first embodiment of the invention according to 1a , is the absorber mass 2 as well as the wire cushion 3 arranged annularly around the exhaust gas component, which in the present example from the exhaust pipe 4 consists. The wire pillow 3 sits directly on the outside of the exhaust pipe 4 and is through two stop rings 5.1 and 5.2 fixed in the axial direction, wherein these cohesively with the exhaust pipe 4 are connected. The annular absorber mass 2 engages from outside the form-fitting the wire cushion 3 , wherein the ring collars 8.1 and 8.2 take over the axial fixation.

When oscillating movements in the yz plane, ie in the transverse direction to the vehicle longitudinal axis, the wire cushion 3 from the exhaust pipe 4 compressed radially in the direction of vibration relative to the absorber mass and relieved on the opposite side, where the exhaust pipe relative to the wire pad from this removed. With an optimal design of the spring-mass ratios of the vibration absorber, the absorber mass moves in antiphase to the vibration of the exhaust component. During a movement of the exhaust pipe, for example in the positive z-direction, the absorber mass moves in the negative z-direction and thus generates a maximum compression of the wire cushion in the 12 o'clock position. On the opposite side, in the 6 o'clock position, the two components move away from each other and relieve the wire cushion. Half a period later, the directions of vibration of the exhaust pipe and the Til germasse reversed and the maximum compression of the wire cushion now takes place in the 6 o'clock position, where again a vibration-induced restoring force is exerted on the exhaust pipe.

If the exhaust pipe oscillates in the direction of the pipe longitudinal axis (x-direction), the wire cushion experiences a rotationally symmetric shear stress, again in antiphase oscillation of the tiger mass, which exerts a restoring and damping effect on the exhaust component. The shear forces are depending on the direction of movement of the with the exhaust pipe 4 connected attacks 5.1 and 5.2 on the wire pillow 3 transfer. Depending on the direction of movement, the reaction forces exerted by the absorber mass are transmitted via the annular collars 8.1 respectively. 8.2 transferred to the wire cushion.

In 1b is the side view of the first embodiment according to 1a with cut exhaust component 4 (Pipe) shown. One recognizes the annular absorber mass 2 , which is also the ring-shaped wire cushion 3 engages from the outside, directly on the exhaust pipe 4 is arranged and the stop ring 5.2 is fixed axially in the positive x-direction. The stop ring 5.2 is in turn with the exhaust pipe 4 cohesively connected by means of a one-sided fillet weld.

The 2 shows the side view of a vibration absorber 1 in a second embodiment in half section. The essential difference from the first embodiment relates to the position and design of the absorber mass, which is embedded in this design as a steel ring in the interior of the annular wire cushion, which in turn is disposed directly on the outside of the exhaust component. The advantage of this design lies in the compact design and is particularly applicable when only a small absorber mass is necessary for the vibration damping. The other operation of this type is identical to that in 1a shown.

In 3 the side view of a vibration absorber according to a third embodiment of the invention is shown in half section. While in the embodiments of the 1 and 2 a construction which is rotationally symmetrical with respect to the x-axis has been realized, it is now a vibration damper arranged locally on the circumference of the exhaust component whose preferred eradication effect coincides with the direction of the radially arranged ram axis, which in the present example is formed by the z-axis. The ram arranged radially to the longitudinal axis (x) 6 is with the outside of the exhaust component 4 welded. Between the plunger head and the housing 7 are two wire pillows 3 arranged such that the housing 7 relative to the plunger 6 can move on all sides within the scope of cushion flexibility. The main direction of movement is the z-axis in this design, but also movements are transverse to this possible. Depending on the direction of movement to be picked up, the shape of the wire cushions, the housing and the head of the tappet can be adapted accordingly so that the desired spring-damper properties can be realized. In a corrosive environment, it is convenient, the housing pot-like with only one opening for the foot of the plunger 6 provide and the wire cushion to rest tight against the ram foot, so that it performs an additional sealing function against dirt and stones.

Of course it is the invention is not limited to the illustrated embodiments, but they are manifold Arrangements and arrangements of the connecting parts, wire pillows and Tilgermassen within the scope of the present claims possible.

1

vibration absorber

2

absorber mass

3

Wire element wire cushion

4

exhaust gas component (Exhaust Pipe)

5

Attacks ( 5.1 . 5.2 )

6

tappet

7

Housing (absorber mass)

8th

Federation ( 8.1 . 8.2 )

x

X axis, vehicle longitudinal axis

y

y-axis, transversely

z

z-axis, vertical direction

Claims (8)

Vibration absorber ( 1 ), in particular for an exhaust system of a motor vehicle, characterized in that the absorber mass ( 2 ) via at least one damped-resilient wire element ( 3 ) indirectly or directly against the exhaust component to be damped ( 4 ) is supported. Vibration damper according to claim 1, characterized in that the absorber mass ( 2 ) in the form of a ring rotationally symmetrical to the longitudinal axis (x) of the exhaust component ( 4 ), z. B. the exhaust pipe, is arranged and via a likewise annular wire cushion ( 3 ) of pressed metal wire radially and / or axially against the exhaust component ( 4 ) is supported. Vibration damper according to claim 1 or 2, characterized in that the wire element in the form of a wire cushion ( 3 ) has elastic and damping properties with respect to tensile, compressive and shear loads. A vibration damper according to claims 2 and 3, as characterized in that the annular absorber mass ( 2 ) the wire cushion ( 3 ) surrounds radially and axially positively. Vibration damper according to one of claims 1-4, characterized in that the absorber mass ( 2 ) consists of two form-fitting or cohesively connected half-rings, which also consist of at least two segments of wire cushions ( 3 ) surround annularly. Vibration damper according to one of claims 1-3, characterized in that the absorber mass ( 2 ) as a steel ring inside an annular wire cushion ( 3 ) embedded directly on the outside of the exhaust component ( 4 ) is arranged. Vibration damper according to one of claims 1-6, characterized in that the wire cushion ( 3 ) in the axial direction (x) on both sides by annular stops against the exhaust gas component ( 4 ) is supported. Vibration damper according to claim 1, characterized in that at least one with the exhaust component ( 4 ) positively or materially connected, radially to the longitudinal axis (x) arranged plunger ( 6 ) of a cup-shaped housing ( 7 ), which as absorber mass ( 2 ), is surrounded and between plunger ( 6 ) and housing ( 7 ) one or more wire cushions ( 3 ) are arranged such that the housing ( 7 ) relative to the plunger ( 6 ) can move on all sides.