DE102017110598A1 - Vibration damper with low Tilgereigenfrequenz and stops for his absorber mass - Google Patents

Abstract

A vibration damper (1) for reducing vibrations of a structure has a rigid absorber mass (3) extending annularly around a main absorber axis (2), a dimensionally stable absorber base (4) having a central attachment hole (17) on the main absorber axis (2), one of Absorber mass (3) elastically to the Tilgerbasis (4) coupling and a central recess in the region of the Tilgerhauptachse (2) having elastomeric spring (5) and on the Tilgerhauptachse (2) through the absorber mass (3), the elastomeric spring (5) and the Tilgerbasis (4) extending therethrough, radial play (13) to the absorber mass (3) and the elastomeric spring (5) exhibiting and with a radial collar (15) on the edge of the mounting hole (17) supporting the fastening element (6). The elastomer spring (5) is integrally connected to the absorber base (4), while the elastomer spring (5) is positively connected to the absorber mass (3), the elastomer spring (5) and the absorber mass (3) transversely to the main absorber axis (2). engage each other and wherein the engagement of the elastomeric spring (5) and the absorber mass (3) by the extending through the elastomeric spring (5) extending fastener (6) is secured.

Description

TECHNICAL FIELD OF THE INVENTION

The invention relates to a vibration damper for reducing vibrations of a structure. More particularly, the present invention relates to a vibration damper having a rigid damper mass extending annularly about a main axis of the absorber, a damper base having a central attachment hole on the main absorber axis, an elastomeric spring resiliently coupling the damper mass to the damper base and having a central recess in the region of the damper main axis on the Tilgerhauptachse through the absorber mass, the elastomeric spring and Tilgerbasis extending therethrough, radial clearance to the absorber mass and the elastomeric spring and having a radial collar at the edge of the mounting hole supporting fastener, the elastomeric spring is firmly bonded to the absorber base and wherein the absorber base in a distance bridged by the elastomer spring is arranged in the direction of the main Tilgerachse to the absorber mass.

Vibration absorbers with an absorber mass elastically coupled to a damper base via an elastomer spring are caused to vibrate their damper mass against their damper base by vibrations of a structure to which their damper base is hard-coupled. These oscillations of the absorber mass are in phase opposition at the resonant frequency of the vibration absorber, which is called the natural absorber frequency, to the oscillations of the structure. These antiphase oscillations of the absorber mass cause forces on the structure which reduce the vibrations of the structure. Since the Tilgereigenfrequenz a vibration absorber is direction-dependent, with usable Tilgereigenfrequenzen many times vibrations in or transverse to a Tilgerhauptrichtung are assigned to the respective vibration damper not only with respect to its Tilgereigenfrequenz but also with respect to the orientation of Tilgerhauptrichtung vote on the abzumindernden vibrations of the structure.

STATE OF THE ART

A vibration damper with the features of the preamble of independent claim 1 is known from DE 10 2010 061 553 B4 known. This vibration damper has an annular absorber mass, which is coupled via an annular elastomeric spring to a dimensionally stable perforated disc, and a fastening element, at its one end a radial collar for engagement with the perforated disc and over the radial collar axially projecting external thread for screwing into a behind the Perforated internal thread in a structure whose vibrations are to be mitigated, and at its other end Schraubwerkzeugangriffsflächen. A Tilgerhauptachse this known vibration absorber runs along the fastener. The directions in which this known vibration absorber has usable Tilgereigenfrequenzen for reducing vibrations of a structure extending transversely to this Tilgerhauptrichtung. The Tilgereigenfrequenz of the known vibration absorber in the main Tilgerhauptrichtung is typically higher than that the vibration damper could be usefully used in this direction. For the production of the known vibration absorber and vulcanization of its elastomeric spring to the absorber mass and the perforated disc, to bind them cohesively to both the absorber mass and the perforated disc, the absorber mass and the perforated disc must be chemically pretreated, placed in a vulcanizing and heated in the Vulkanisierwerkzeug to the Vulkanisierungstemperatur become. In particular, by the high heat capacity of the absorber mass of the energy and time required for the production of the known vibration absorber is high.

From the DE 10 2011 008 339 A1 is a vibration damper for a vehicle part, in particular a body part, such as a tailgate or a hood, a motor vehicle known in which a damping mass is coupled via at least one elastomeric spring elastically to a support plate. In this case, the elastomer spring is vulcanized on the one hand to a carrier plate side inner sleeve and on the other hand to a Tilgermassenseitige outer sleeve. In this case, the inner sleeve is arranged coaxially to the outer sleeve and the elastomer spring extends radially from the inner sleeve to the outer sleeve. Made of elastomeric material of the elastomeric spring an annular stop buffer is formed on one of the support plate facing axial end of the outer sleeve, via which the outer sleeve softly adjoins the support plate on approach to the support plate. At its end remote from the carrier plate, the outer sleeve has an outwardly directed radial flange. At the end face of a further annular stop buffer is formed of the elastomeric material, which abuts in a plate-shaped captive, when the outer sleeve over a predetermined amount of the carrier plate. The outer sleeve is pressed into a recess in the absorber mass until its radial flange abuts the absorber mass. In this way, the outer sleeve is rigidly coupled to the absorber mass. The inner sleeve is screwed rigidly with the plate-shaped captive securing to the carrier plate. This known vibration absorber has a plurality of individual components. For scorching the elastomeric spring to the inner sleeve and the outer sleeve, wherein at the same time the soft stop buffer of the elastomeric material to the Be vulcanized outer sleeve, the inner sleeve and the outer sleeve must be chemically pretreated, placed in the vulcanizing and heated therein to the vulcanizing temperature. Subsequently, the outer sleeve must be pressed into the absorber mass, and the assembly with the plate-shaped captive and the support plate must be done before the fastener can be used. The known vibration absorber is designed in particular for eradicating vibrations in its main Tilgerhauptrichtung to which the inner sleeve and the outer sleeve are arranged coaxially. The bumpers prevent overstressing the elastomeric spring, for example, when a tailgate or bonnet, on which the vibration damper is mounted, is slammed in its main Tilgerhauptrichtung.

From the WO 2001/092752 A1 For example, a vibration damper is known in which a damper mass is elastically coupled to a base via one or more elastomeric springs. Each elastomeric spring has first retainers for holding the elastomeric spring to the base and second retainers for retaining the absorber mass to the elastomeric spring. The first brackets include mutually cooperating mold gripping members for gripping a mold between the elastomer spring and the absorber base, and the second brackets include second mutually cooperating mold gripping members for gripping a mold between the elastomer spring and the absorber mass. Both the first and second mold gripping elements comprise a recess with gripping surfaces for transmitting vibrations. The elastomeric spring includes an inwardly facing cavity which forms an opening in a base of the elastomeric spring. To tune the Tilgereigenfrequenz for vibrations transverse to a main direction of extension of the elastomeric spring between the base and the absorber mass along this Tilgerhauptmasse a tuning core can be inserted into the cavity having a suitable hardness. The tuning without clearance used in the cavity also leads to the fact that the engagement of the elastomeric spring and the absorber mass on the one hand and the elastomeric spring and the absorber base on the other hand is secured. Advantageously, the elastomeric spring of this known vibration absorber can be manufactured separately. The known vibration damper is not designed for reducing vibrations in the direction of its main Tilgerachse. He also has no simple way to provide bump stop for the absorber mass, which prevent excessive deflection of the absorber mass in the direction of the Tilgerhauptachse.

OBJECT OF THE INVENTION

The invention has the object of demonstrating a vibration damper with the features of the preamble of independent claim 1, which has a useful Tilgereigenfrequenz in the direction of its main Tilgerachse and produced with limited effort and with stop buffers for his absorber mass can be formed, so that he also as a door vibration damper , d. H. is suitable as a vibration damper for a door or flap of a motor vehicle, which is struck in the operation of the motor vehicle, so that the risk of excessive deflection of the absorber mass relative to the absorber base with the result of overuse of the elastomeric spring of the vibration absorber.

SOLUTION

The object of the invention is achieved by a vibration damper having the features of independent claim 1. The dependent claims relate to preferred embodiments of the vibration damper according to the invention.

DESCRIPTION OF THE INVENTION

In a vibration damper according to the invention for reducing vibrations of a structure having a rigid absorber mass extending annularly around a main axis of the absorber, a dimensionally stable absorber base having a central attachment hole on the absorber main axis, an elastic spring flexibly coupling the absorber mass to the absorber base and having a central recess in the region of the absorber main axis and a radial play on the absorber mass and the elastomeric spring and having a radial collar at the edge of the attachment hole extending on the Tilgerhauptachse through the absorber mass, the elastomeric spring and the absorber mass through, the elastomeric spring is firmly bonded to the absorber base and wherein the absorber mass is arranged in a direction bridged by the elastomer spring distance in the direction of the main Tilgerachse to the Tilgerbasis, the elastomeric spring is positively against the absorber Tied mass, wherein the elastomeric spring and the absorber mass transverse to the Tilgerhauptachse interlock and wherein the engagement of the elastomeric spring and the absorber mass is secured by the extending through the elastomeric spring fastener.

The fact that the elastomeric spring is connected in a form-fitting manner to the absorber mass may in particular mean that there is no material connection between the elastomeric spring and the absorber mass. In any case, the elastomer spring is not regular Vulcanized to the absorber mass. In other words, the elastomer spring is formed without the absorber mass being introduced into the corresponding shape. Next means that the elastomeric spring is positively connected to the absorber mass, wherein the elastomeric spring and the absorber mass transversely to the Tilgerhauptmasse interlock, in particular, that the elastomeric spring and the absorber mass directly interlock, so that for the attachment of the absorber mass to the elastomer spring no tools, how any sleeves pressed into the absorber mass are used.

In the vibration absorbers according to the invention, the engagement of the elastomer spring and the absorber mass is secured by the fastening element extending through the elastomer spring with play. The play between the fastener and the elastomeric spring is correspondingly small in the region of the meshing of the elastomeric spring and the absorber mass. However, this small game is crucial for the function of the vibration absorber according to the invention, because it still allows a relatively low natural frequency of the vibration absorber of typically some 10 Hz in the direction of the main Tilgerachse despite the regularly dimensionally stable and particularly rigid design of the fastener. If the fastening element completely filled the elastomer spring in the region of the intermeshing of the elastomer spring and the damping mass, the vibration damper according to the invention would lose its function. The fastener with which the vibration damper according to the invention is hard coupled to the structure whose vibrations are to be mitigated, is certainly not a tuning core for the Tilgereigenfrequenz the vibration damper. On the contrary, the Tilgereigenfrequenz of the vibration absorber according to the invention is not possible or at least influenced at higher deflections of the absorber mass relative to the absorber base with the fastener as possible.

In the formation of the elastomer spring of the vibration absorber according to the invention, the elastomer spring is regularly connected directly to the absorber base, in particular by scorching. The mass of the absorber base, which is to be introduced into a vulcanizing tool, but is only small. Overall, the absorber base can not only be dimensionally stable, which means that it has a considerably higher rigidity than the elastomer spring, but also be rigid, ie. H. not deform at all in the intended use of the vibration absorber. A rigid training of the absorber base is not crucial.

The fastening element of the vibration absorber according to the invention may in particular be a threaded bolt which has an external thread on its part passing axially through the mounting hole of the absorber base, with which it makes an internal thread on the respective structure or one on the rear side of the fastening hole in the structure engaged fastening nut engages.

Specifically, the engagement of the elastomeric spring and the absorber mass can be realized so that a radial flange on the inner circumference of the absorber mass engages in a radial groove on the outer circumference of the elastomer spring. The radial groove in the outer circumference of the elastomer spring can be limited in the direction of the main Tilgerachse by two radial flanges on the outer circumference of the elastomeric spring. By the Tilgerbasis remote from these two radial flanges effective in the main direction Tilgerhauptrichtung bump stop for the absorber mass may be formed on a radially projecting head of the fastener. If the absorber mass is too far away from the absorber base in the main direction of the absorber, its radial flange strikes against this soft stop buffer at the bottom of the head of the fastener. Thus, the absorber mass is braked and prevents excessive deflection of the absorber mass relative to the absorber base in this direction.

The radially projecting head of the fastener may have engagement surfaces for a screwing tool. These attack surfaces may be formed on its outer circumference but also within its end face. The radially projecting head of the fastener can continue to engage fully or partially in the central recess of the annular absorber mass at not yet opposite the Tilgerbasis deflected absorber mass, so that the head at least not over its entire height beyond the not yet deflected absorber mass in the main Tilgerhauptrichtung.

The elastomer spring can end with its remote from the absorber mass of the two radial flanges within the absorber mass at a distance from the outer contours in the main Tilgerhauptrichtung. This means, on the one hand, that the elastomeric spring ends in the main direction of the absorber with its two radial flanges facing away from the absorber base and that it does not extend to the outer contours of the absorber mass on its side facing away from the absorber base. This is particularly useful when the radial flange on the inner circumference of the absorber mass extends in a direction transverse to the main axis Tilgerachse symmetry of the absorber mass, that is arranged centrally along the main axis Tilger. Accordingly, there is no reason to expand the elastomeric spring on the tamper-based side of the intermeshing of the elastomer spring and the absorber mass far beyond this central region of the absorber mass.

The elastomer spring may be incorporated into the absorber mass during the production of the vibration absorber according to the invention. In this Einknüpfen the intermeshing of the absorber mass and the elastomer spring is brought about. In principle, an additional gluing of the elastomer spring and the absorber mass can also take place. However, this is usually not required by securing the mesh by the fastener and therefore increases only the production cost of the vibration damper according to the invention.

As already mentioned, the elastomer spring in the vibration damper according to the invention can be vulcanized onto the absorber base in order to firmly bond it to it. The absorber base may be at least partially embedded in the elastomeric spring to maximize the surface area of the absorber base over which the material is sealed. The absorber base may further include apertures through which the elastomeric material of the elastomeric spring extends. In this way, an additional positive connection between the elastomeric spring and the absorber base is achieved.

The absorber base may be overall plate-shaped with a perforated, tilted to the absorber mass edge and a disc-shaped center, wherein the hole-disc-shaped center of the fastener is flat and hard coupled to the structure whose vibrations are to be reduced in the direction of the absorber main axis.

Due to the connection of the elastomer spring to the absorber base, an impact buffer effective in the absorber main direction can be formed for the absorber mass at the absorber base. In this direction, although an excessive deflection of the absorber mass is prevented by the structure to which the vibration damper is attached, prevented. However, the formed by the connection of the elastomeric spring to the absorber base soft stop buffer prevents a hard hitting the absorber mass to the structure. Instead, the absorber mass is softly intercepted by the stopper made of the elastomeric material of the elastomeric spring.

Advantageous developments of the invention will become apparent from the claims, the description and the drawings. The advantages of features and of combinations of several features mentioned in the description are merely exemplary and can take effect alternatively or cumulatively, without the advantages having to be achieved by embodiments according to the invention. Without thereby altering the subject matter of the appended claims, as regards the disclosure of the original application documents and the patent, further features can be found in the drawings, in particular the illustrated geometries and the relative dimensions of several components and their relative arrangement and operative connection. The combination of features of different embodiments of the invention or of features of different claims is also possible deviating from the chosen relationships of the claims and is hereby stimulated. This also applies to those features which are shown in separate drawings or are mentioned in their description. These features can also be combined with features of different claims. Likewise, in the claims listed features for further embodiments of the invention can be omitted.

The features mentioned in the patent claims and the description are to be understood in terms of their number that exactly this number or a greater number than the said number is present, without requiring an explicit use of the adverb "at least". So if, for example, a radial flange is mentioned, this is to be understood that exactly one radial flange, two radial flanges or more radial flanges are present. The features cited in the claims may be supplemented by other features or be the only features exhibited by the particular product.

The reference numerals contained in the claims do not limit the scope of the objects protected by the claims. They are for the sole purpose of making the claims easier to understand.

list of figures

• 1 ist ein Längsschnitt durch einen erfindungsgemäßen Schwingungstilger entlang seiner Tilgerhauptachse.

In the following the invention will be further explained and described with reference to preferred embodiments shown in the figures.

• 1 is a longitudinal section through a vibration damper according to the invention along its main Tilgerachse.

DESCRIPTION OF THE FIGURES

The in 1 shown vibration absorber 1 has a main absorber axis 2 and includes an annular absorber mass 3 , a mortar-based 4 , one the absorber mass 3 elastic to the absorber base 4 Coupling elastomer spring 5 and a fastener 6 all coaxial with the main axis of the absorber 2 are arranged. The annular absorber mass 3 has a central recess 28 on. In the recess 28 forms the absorber mass 3 at her inner circumference 7 an inwardly directed radial flange 8th out. The radial flange 8th runs in a direction transverse to the Tilgerhauptachse 2 extending symmetry plane 9 the absorber mass 3 , The radial flange 8th engages in a radial groove 10 on the outer circumference of the elastomer spring 5 one. Towards the main axis of the Tilger 2 is the radial groove 10 by two radial flanges 11 and 12 the elastomeric spring 4 limited by their outer circumference 25 protrude. The meshing of the radial flanges 8th . 11 and 12 causes a positive connection between the absorber mass 3 and the elastomeric spring 5 through which the absorber mass 3 at the Tilgerbasis 4 Abgewandten end of the overall substantially tubular elastomeric spring 5 is connected. The meshing of the radial flanges 8th . 11 and 12 and thus the positive connection between the absorber mass 3 and the elastomeric spring 5 is through that with radial play 13 through the elastomer spring 5 extending fastener 6 secured. Specifically, the fastener extends 6 with a cylindrical area 14 with the radial play 13 through the elastomer spring 5 , With a radial collar 15 beats the fastener 6 at a hole edge 16 a central hole 17 in the absorber base 4 at. A fastening thread 18 of the fastener 2 stands on the absorber mass 3 turned away side of the absorber base 4 above. On a head 19 of the fastener 6 can Schraubwerkzeugangriffsflächen on the outer circumference 20 be educated. Wrench engagement surfaces may also be on or in an end face 21 of the head 19 be educated. The head 19 is radially above the cylindrical area 14 above. When the absorber mass 3 in the direction of the main axis of the absorber 2 from the absorber base 4 under deformation of the elastomer spring 5 removed, it beats over a stop buffer 22 with its radial flange 8th on the head 19 of the fastener on. This bump stop 22 is from the radial flange 11 the elastomeric spring 5 educated. When the absorber mass 3 however, far in the direction of the absorber base 4 moves it hits a stop buffer 23 from the one to the absorber base 4 vulcanized elastomer material 24 in the area of an edge 26 the overall plate-shaped absorber base 4 is trained. The edge 26 is opposite a disc-shaped center of the absorber base 4 to the absorber mass 5 deformed and with openings 27 provided, through which the vulcanized elastomeric material 24 extends.

Towards the main axis of the Tilger 2 points the vibration absorber 1 according to 1 a low usable Tilgereigenfrequenz on. In this direction, the deflections of the absorber mass 3 opposite the absorber base 4 through the at the head 19 of the fastener 6 bump stop bumpers 22 and to the stop buffer 23 striking absorber mass 3 limited. Lateral deflections of the absorber mass 3 transverse to the main axis of the absorber 4 are limited by the fact that the absorber mass 4 after overcoming the game 13 over the elastomer spring 5 at the cylindrical area 14 of the fastener 6 strikes. Also in these lateral directions, the vibration absorber 1 according to 1 have a usable and also relatively low Tilgereigenfrequenz.

LIST OF REFERENCE NUMBERS

1

vibration absorber

2

Tilgerhauptachse

3

absorber mass

4

Tilgerbasis

5

elastomer spring

6

fastener

7

inner circumference

8th

Radial flange of the absorber mass 3

9

plane of symmetry

10

Radial groove of the elastomer spring 5

11

Radial flange of the elastomer spring 5

12

Radial flange of the elastomer spring 5

13

game

14

cylindrical area

15

Radial collar of the fastening element 6

16

hole edge

17

mounting hole

18

external thread

19

head

20

outer periphery

21

face

22

buffer

23

buffer

24

Elastomer material

25

Outer circumference of the elastomeric spring 5

26

Edge of the absorber base 4

27

perforation

28

recess

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010061553 B4 [0003]
• DE 102011008339 A1 [0004]
• WO 2001/092752 A1 [0005]

Claims (11)

Vibration damper (1) for reducing vibrations of a structure comprising: - a rigid damper mass (3) extending annularly around a main absorber axis (2), - a dimensionally stable absorber base (4) having a central attachment hole (17) on the main absorber axis (2), one of the absorber mass (3) elastically to the Tilgerbasis (4) coupling and a central recess in the Tilgerhauptachse having elastomeric spring (5) and - on the Tilgerhauptachse by the absorber mass (3), the elastomeric spring (5) and the Tilgerbasis ( 4) extending therethrough, radial play (13) to the absorber mass (3) and the elastomeric spring (5) and with a radial collar (15) at the edge of the mounting hole (17) supporting fastener (6), - wherein the elastomeric spring (5 ) is materially connected to the absorber base (4) and - wherein the absorber mass (3) in one of the elastomeric spring (5) bridged distance in the direction of the main Tilgerachse (2) to the T ilgerbasis (4) is arranged, characterized in that - the elastomeric spring (5) is positively connected to the absorber mass (3), - wherein the elastomer spring (5) and the absorber mass (3) transversely to the main Tilgerachse (2) interlock and - Wherein the engagement of the elastomeric spring (5) and the absorber mass (3) by the extending through the elastomeric spring (5) extending fastener (6) is secured. Vibration damper (1) after Claim 1 , characterized in that a radial flange (8) engages on the inner periphery (7) of the absorber mass (3) in a radial groove (10) in the outer periphery (20) of the elastomer spring (5). Vibration damper (1) after Claim 2 , characterized in that the radial groove (10) in the outer periphery (20) of the elastomer spring (5) in the direction of the main Tilgerachse (2) by two radial flanges (11, 12) on the outer circumference of the elastomeric spring (5) is limited. Vibration damper (1) after Claim 3 , characterized in that by the Tilgerbasis (4) facing away from the two radial flanges (11, 12) of the elastomeric spring (5) effective in the main direction Tilgerhauptrichtung stop buffer (22) for the absorber mass (3) on a radially projecting head (19) of the Fixing element (6) is formed. Vibration damper (1) after Claim 4 , characterized in that the elastomeric spring (5) ends with its the Tilgerbasis (4) facing away from the two radial flanges (11, 12) within the absorber mass (3) at a distance from the outer contours in the main Tilgerhauptrichtung. Vibration damper (1) after one of Claims 2 to 5 , characterized in that the radial flange (8) extends on the inner circumference of the absorber mass (3) in a plane of symmetry (9) of the absorber mass (3) running transversely to the main absorber axis (2). Vibration damper (1) according to one of the preceding claims, characterized in that the elastomer spring (5) is knotted into the absorber mass (3). Vibration damper (1) according to one of the preceding claims, characterized in that the elastomer spring (5) between its connection to the Tilgerbasis (4) and its connection to the absorber mass (3) is formed tubular or cylinder jacket section. Vibration damper (1) according to one of the preceding claims, characterized in that the elastomeric spring (5) is vulcanized onto the absorber base (4). Vibration damper according to one of the preceding claims, characterized in that the Tilgerbasis (4) is at least partially embedded in the elastomeric spring (5). A vibration damper (1) according to any one of the preceding claims, characterized in that formed by the connection of the elastomeric spring (5) to the Tilgerbasis (4) effective in the main direction Tilgerhauptrichtung stop buffer (23) for the absorber mass (3) on the Tilgerbasis (4) is.

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