DE102009021775B3 - Drive shaft comprises flywheel rim, hub and elastomer spur, where flywheel rim and hub are connected elastically with each other by elastomer spur - Google Patents

Abstract

The drive shaft comprises a flywheel rim (1), a hub (2) and an elastomer spur (3). The flywheel rim and the hub are connected elastically with each other by the elastomer spur. The elastomer spur is attached to the flywheel rim with one end (3a) and to the hub with another end (3b). A free shank (3c) of the elastomer spur extends in axial direction between two ends.

Description

Technical area

The The invention relates to a cardan shaft miter comprising a flywheel, a hub and an elastomer track, with the flywheel and the hub are elastically connected to each other by the elastomer track, wherein the flywheel and the hub are arranged coaxially with each other and wherein the flywheel is rotatable relative to the hub.

State of the art

The DE 603 07 559 T2 discloses a pulley with integrated torsion damper assembly. The DE 43 28 613 C2 discloses a device for damping vibrations to crankshafts, in which two rubber springs are connected to each other via a ring.

to noise reduction come in motor vehicles frequently torsional Gelenkwellentilger on the longitudinal shaft for use. there can Vibrations are reduced at which certain segments of the longitudinal wave by the rotational nonuniformity of Motors are stimulated to resonate. Hereby are noise or Vibration developments associated with a loss of comfort in the Car lead can. A Gelenkwellentilger can together with a propeller shaft coupling (3- or 4-arm flange) or by press fitting on the longitudinal shaft be attached.

Around to limit an unbalance entry in the drive train of the motor vehicle, the Gelenkwellentilger be pre-balanced as a component. Furthermore the radial rigidity of the PTO must be low torsional resonance frequency as possible be designed high to a radial emigration of its flywheel to prevent at different speeds. The radial stiffness can by very close to the center arrangement of an elastomer track or Attachment of rolling bodies can be increased which roll in a rotary motion analogous to roller bearing rollers.

at the use of rolling bodies is between the hub of the PTO and the flywheel, which can be configured as a flywheel, an elastomer track arranged, these directly with centrifugal alignment with each other combines.

at a previous concept with Abrollkörpern connects an elastomer track with centrifugal or radial alignment, the hub of the Gelenkwellentilgers directly with a flywheel. The Elastomerpur is almost like a Wheel spoke arranged. A rolling body shows a mushroom-shaped training at its ends and thereby generates a positive engagement in one Direction. If a space for receiving a Gelenkwellentilgers is considerably limited in the radial direction, inevitably the length the Elastomerspur strongly limited. The torsional deflection of the flywheel is therefore also limited. hereby the life of the elastomer track is greatly reduced. To the axial Securing the rolling body is a positive connection between cantilevered Abrollkörpern and Hub or flywheel made. The axial stiffness of this Gelenkwellentilger Although sufficient, but must prevent axial migration of the rolling body become.

By the direct connection of the hub of the PTO and the Centrifugal centering ring is the torsional momentum of the Tilgers without overload the Elastomerspur very limited. Newer high-charged Diesel engines generate ever greater rotational irregularities, so that too the requirements for possible torsional angles of rotation of the universal joint absorber increase. These Requirements can can no longer be met with the known concepts.

Presentation of the invention

Of the The invention is therefore based on the object, a Gelenkwellentilger of the type mentioned above to design and develop, that he has long life rotational nonuniformities, which in a longitudinal wave be registered by big torsional deflections of the flywheel vibration reducing can compensate.

According to the invention above object by a Gelenkwellentilger with the features of claim 1.

After that the above-mentioned Gelenkwellentilger characterized in that that the elastomer track with a first end on the flywheel and with a second end fixed to the hub, taking between first end and second end at least one free leg of the elastomer track extends in the axial direction.

According to the invention it has been recognized that an axially slightly conical arrangement of the elastomer track significantly prolongs their free length between the connection area to the hub and the flywheel with existing space. The free-leg is an area of the elastomer track that is not in contact with either the hub or the flywheel. As a result of this arrangement of the elastomer track, the radial stiffness of the PTO device clearly decreases. Furthermore, the Axial stiffness reduced by this arrangement of Elastomerpur. In particular, it has been recognized that, with considerable restriction of a radial installation space, a significantly greater free length of the elastomer track between hub and flywheel ring can be realized. As a result, the permissible angle of rotation of the flywheel mass relative to the hub can be significantly increased with increased service life of the universal joint absorber. Consequently, the object mentioned above is achieved.

The Elastomer track could in cross-section z-shaped be formed, wherein a first leg fixed surface on the flywheel is and a second leg is set flat on the hub. The flat determination the leg allows vulcanization of the rubber track of the elastomer with the hub or the flywheel ring.

Of the first leg and the second leg could be arranged concentrically be, with the free-leg in an annulus between the thighs is included. This lamellar fitting of the thighs and of the free-leg allows a problem-free deformation of the free-leg.

Of the Freischkel could with its first end on the first leg and with its second end be articulated on the second leg. This is a one-piece design the elastomer track possible.

Of the Flywheel and / or the hub could be made of thermoformed metals. By using deep-drawn metals for the manufacture of the hub and the flywheel ring can be the elastomer track be arranged axially. This will be the direct connection line (Elastomer track length, Freischkel) of the elastomer track between hub and flywheel significantly increased. Of the required torsional angle of rotation of the flywheel ring relative to Hub can thus be increased become.

Abrollkörper could form-fitting with be connected to the flywheel and the hub. To support the Gelenkwellentilgers in the radial, axial and gimbal direction can unwinding be used. These create a complete positive engagement between unwinding and hub or flywheel. A possible loss of axial stiffness between hub and flywheel is characterized by the double-acting Positive locking between unwinding and Tilgernabe or flywheel sufficiently balanced.

Several Freischkel could by rolling body be structurally separated from each other in the circumferential direction. By the Number of free-limbs can increase the rigidity of the cardio-wave absorber be set.

One unwinding could pin-shaped be formed, in each case a groove in its two ends is trained. The rolling bodies generate a complete Positive locking between unwinding and hub or flywheel by attaching a circumferential both sides Groove in the rolling bodies and a protruding collar on the hub or the flywheel. Of the Covenant at the hub is outward and the federal government on the flywheel inward, so that the rolling body as Connecting element forms a fixing positive engagement. This form-fitting leaves only a torsional degree of freedom between flywheel and hub. Is the engagement between the collar on the hub or on the flywheel and the grooves of the rolling body by massive calibration of flywheel and / or hub. The massive calibration goes with it a plastic deformation of the hub or the flywheel associated.

Of the first leg and the second leg could each have an elastic Career for the rolling bodies form. An elastic track has a tolerance-compensating effect. It will be minor Column between rolling body and flywheel or hub balanced.

In front this background could on the flywheel a collar and on the hub a collar be formed, on which the elastomer track can be attached. By the arrangement the collar to hub and flywheel at opposite axial ends, can have a significantly longer length of elastomer track be achieved than in known design solutions. The production of the Gelenkwellentilgers with such an elastomer trace is without undercut in a usual Vulcanization tool possible.

each Groove of the rolling body could each embrace a reduced federation assigned to it, which on the Flywheel or on the hub as a recess of the respective collar is formed. As a result, the positive connection between rolling body and flywheel or hub produced. The protruding collar on hub or flywheel can thus vary when using deep-drawn parts. The Bund can be in the gaps between the rolling bodies be made significantly larger, as a connection for to serve the elastomer track. The elastomer track causes the required Restoring moment to adjust the torsional resonance frequency of the PTO to be able to.

in the Swing ring could a press-fit ring as additional Flywheel be added. This allows the torsional moment of inertia and thus increases the absorber effect become.

It are now different ways to design the teaching of the present invention in an advantageous manner and further education. On the one hand to the subordinate claims and on the other hand, to the following explanation of a preferred embodiment of the invention with reference to the drawing.

In Connection with the explanation of the preferred embodiment The invention with reference to the drawings are also generally preferred Embodiments and developments of the teaching explained.

Brief description of the drawing

In show the drawing

1 a perspective sectional view of the Gelenkwellentilgers,

2 a sectional view of the Gelenkwellentilgers according to 1 in which the positive connection of the rolling body with the respective collar of the flywheel and the hub is shown, and

3 a perspective sectional view of the Gelenkwellentilgers according to 1 , in which the reduced federal government is recognizable.

Embodiment of the invention

1 shows a Gelenkwellentilger comprising a flywheel 1 , a hub 2 and an elastomer track 3 , where the flywheel 1 and the hub 2 through the elastomer track 3 are elastically connected to each other, wherein the flywheel 1 and the hub 2 are arranged coaxially to each other and wherein the flywheel 1 relative to the hub 2 is rotatable. The elastomer track 3 is with a first end 3a on the flywheel 1 and with a second end 3b at the hub 2 set, being between first end 3a and second end 3b a freekel 3c the elastomer track 3 extends in the axial direction. The freekel 3c extends axially under inclination against the longitudinal axis of the Gelenkwellentilgers.

The elastomer track 3 is formed in cross-section z-shaped, wherein a first leg 3d on the flywheel 1 is set flat and a second leg 3e at the hub 2 is fixed. The first leg 3d and the second leg 3e are arranged concentrically, with the free-leg 3c in an annulus between the thighs 3d . 3e is included. The freekel 3c is with its first end 3a on the first leg 3d and with its second end 3b on the second leg 3e hinged.

The swing ring 1 and / or the hub 2 are made of deep-drawn metals. unwinding 5 are form-fitting with the flywheel 1 and the hub 2 connected. This shows in particular 2 ,

2 shows that a rolling body 5 is formed pin-shaped, wherein in each case a groove in its two ends 5a is trained. At the momentum ring 1 is a covenant 1a and at the hub 2 A bunch 2a molded, on which the elastomer track 3 is attached. The frets 1a . 2a arise through deep drawing. Every groove 5a engages each one assigned to her reduced collar 1b . 2 B , the flywheel 1 or at the hub 2 as a recess of the respective federation 1a . 2a is formed.

The bilaterally mushroom-shaped rolling body 5 are positively received on two sides. The respective groove 5a acts axially in two directions. An axial emigration of the rolling body 5 will be prevented. For deep-drawn metals there are no sharp edges where the rolling body 5 issue.

The first leg 3d and the second leg 3e each serve as a tolerance compensating elastic track for the rolling body 5 , There will be slight gaps between the rolling body 5 and swing ring 1 or hub 2 balanced.

3 shows that in the swing ring 1 a press-fit ring 4 is added as an additional flywheel.

The Gelenkwellentilger has several free legs 3c on that by roll-off body 5 are separated from each other.

Regarding further advantageous embodiments and developments of the teaching of the invention on the one hand to the general part of the description and on the other hand to the attached claims.

In conclusion, be expressly emphasized that the previously selected embodiment only for discussion the teaching of the invention serves, but this does not limit this embodiment.

Claims (12)

Articulated shaft absorber comprising a flywheel ring ( 1 ), a hub ( 2 ) and an elastomeric track ( 3 ), whereby the flywheel ring ( 1 ) and the hub ( 2 ) through the elastomer track ( 3 ) are elastically connected to each other, wherein the flywheel ( 1 ) and the hub ( 2 ) are arranged coaxially with each other and wherein the flywheel ring ( 1 ) relative to the hub ( 2 ) is rotatable, characterized in that the Elastomer track ( 3 ) with a first end ( 3a ) on the flywheel ( 1 ) and with a second end ( 3b ) at the hub ( 2 ), between the first end ( 3a ) and second end ( 3b ) at least one free-leg ( 3c ) the elastomer track ( 3 ) extends in the axial direction. Articulated shaft absorber according to claim 1, characterized in that the elastomer track ( 3 ) is formed in cross-section z-shaped, wherein a first leg ( 3d ) on the flywheel ( 1 ) is set flat and a second leg ( 3e ) at the hub ( 2 ). Gelenkwellentilger according to claim 2, characterized in that the first leg ( 3d ) and the second leg ( 3e ) are arranged concentrically, wherein the free-leg ( 3c ) in an annulus between the legs ( 3d . 3e ) is recorded. Articulated shaft absorber according to claim 2 or 3, characterized in that the free lever ( 3c ) with its first end ( 3a ) on the first leg ( 3d ) and with its second end ( 3b ) on the second leg ( 3e ) is articulated. Gelenkwellentilger according to one of claims 1 to 4, characterized in that the flywheel ( 1 ) and / or the hub ( 2 ) are made of thermoformed metals. Gelenkwellentilger according to one of claims 1 to 5, characterized in that Abrollkörper ( 5 ) positively with the flywheel ( 1 ) and the hub ( 2 ) are connected. Gelenkwellentilger according to claim 6, characterized in that several free arms ( 3c ) by rolling body ( 5 ) are structurally separated from each other. Gelenkwellentilger according to claim 6 or 7, characterized in that a rolling body ( 5 ) is pin-shaped, wherein in its two ends in each case a groove ( 5a ) is trained. Gelenkwellentilger according to one of claims 6 to 8, characterized in that the first leg ( 3d ) and the second leg ( 3e ) each have an elastic track for the rolling body ( 5 ) train. Gelenkwellentilger according to one of claims 1 to 9, characterized in that the flywheel ( 1 ) A bunch ( 1a ) and at the hub ( 2 ) A bunch ( 2a ) is formed on which the elastomer track ( 3 ) can be attached. Gelenkwellentilger according to claim 8 and 10, characterized in that each groove ( 5a ) each have a reduced bundle ( 1b . 2 B ), which on the flywheel ( 1 ) or at the hub ( 2 ) as a recess of the respective federation ( 1a . 2a ) is formed. Gelenkwellentilger according to one of claims 1 to 11, characterized in that in the flywheel ( 1 ) a press-fit ring ( 4 ) is added as additional flywheel.