DE8534294U1 - Damped torsional vibration damper - Google Patents

Description

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tilger according to the preamble of claim 1

For damping the crankshaft torsional vibrations of multi-cylinder Reciprocating internal combustion engines are silicone oil torsional vibration dampers and "\? damped rubber-silicone oil torsional vibration damper used, the latter especially in highly charged 12 and 16 cylinder diesel engines.

DE-OS 26 18 820 describes a two-part torsional vibration damper, with a U-shaped profile on the outer edge of the hub Channel is formed. A leg section of an inertia ring engages in this U-shaped channel with a U-profile, with spring sleeves between corresponding parts of the inertia ring and the hub are arranged. With this torsional vibration damper, there is an unfavorable amount of space for what is primarily decisive Damping moment of inertia removed. It is unfavorable that the damping effect almost exclusively in the space between

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the visco-elastic spring sleeves and thus the visco-elastic spring elements from higher temperatures.

are set.

The invention is based on the object of designing a damped torsional vibration damper in such a way that it can be assembled from easily finished components ynd dupcjh optimizing the ¹ cooling in addition to simple production and increased operational reliability and operating time, a favorable ratio of active to dead mass with brings itself.

According to the invention, this object is achieved by the technical Teaching of claim 1 solved.

Because the sleeve springs can be arranged close to the axis, the dead hatred of the hub can advantageously be low being held. The active hatred of the inertia ring can take into account a given installation space be optimally designed. The shear stressed visco-elastic sleeve springs, which, in addition to a sealing effect, also apply the decisive spring effect, one in relation to their thickness have great breadth.

The viscous damping effect is increased in the simplest way by increasing the friction surface, if

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a άΐη outer edge of the hub ring section arranged Ring approach between the two end ring sections of the inertia ring extends.

An embodiment of the invention will be explained with reference to the drawing, which one Section through one half of a torsional vibration damper.

The hub 1 is attached to the shaft to be damped. In the near-axis area of the hub 1 there is an annular groove 2 on the Hub 1 formed, which has a U-profile and in the axial direction in the illustrated embodiment to the right is open. A hub ring section 3 extends radially outward from the outer circumference of this annular groove 2. Of the Inertia ring 6 has two end ring sections 4, 7, which also extend radially and with a Part of the hub 1 forms a gap space 8 filled with a viscous liquid. The outer sections of the End ring sections 4, 7 are connected to one another in such a way that aiii this connection point of the gap rope is sealed is completed. The end ring portion 4 has an axially extending ring portion 5, the engages with play in the annular groove 2, as shown. Between the inner peripheral wall Ί0 of the annular groove 2 and the In the ring section 5 of the end ring section 4, a rubber-elastic sleeve spring 11 is inserted. This rubber

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elastic sleeve spring 11 seals one end of gap 8.

ζ intermediate the outer peripheral wall 12 of the ring groove 2 and a second end ring section 7, a second sleeve spring 13 is arranged which seals the other end of the gap. 8 The annular groove 2 is located in achsnehen region of the hub sleeve 1. The two springs 11 and ¹ 3 extending coaxially with each other and overlap each other so that they sit telescopically.

In the illustrated embodiment, the gap 8 is further expanded in that an annular shoulder 9 is provided on the outer edge of the hub ring section 3, which extends between the two end ring sections 4, 7 of the inertia ring 6.

The annular groove 2 can also be arranged in relation to the position shown; = 20 in such a way that the inner ring section of the :; Hub 1 engages or at the other end of the annular groove 2

{· Any point between the two ends of this ring

nut 2.

Claims (1)

Dipl.-Ing. Dr MICHAEL. MAZKOUSKX Patentanaalt European Patent Representative European Patent Attorney Handataire en brevets europeens Dr.H. Maikoeski Patentanvalt Xantener Str. 10 D-1000 Berlin 15 German Patent Office 800O Munich 2 lantener Str & ße 10 B-IOOO Berlin Ib Telephone 030/881 81 81 * 882 68 6k Telex 1 85 366 Büro Stechenliytphenburger Strasse 81D-8000 whitewash 19Telefon 089/18 08 18Telex 5 22 263 Your ref. P 440/85 VI / sch Hy ref. 02.12.1985 Subject: Applicant: Prof. Dr.-Ing. Klaus Federn, 1OOG Berlin 33 1. Damped torsional vibration absorber with a multi-part Inertia ring, the parts of which with a portion of the hub extending between them form a gap filled with a viscous liquid and with one between each part the inertia ring and the hub arranged spring sleeve, characterized in that 440 / 85.pa5 I I IHl «·· ·> · reu t ··> · 1C4 ··· ••• bill * «· -2- the hub (1) has an annular groove (2) in the area close to the axle j "has a U-profile, from which it extends radially outwards , a hub ring section (3) extends that a face j ring section (4) of the inertia ring (6) one into the j r ring groove (2) with clearance engaging ring section : (5) has that between this ring section (5) ¹ ^ and the inner peripheral edge (10) of the annular groove (2) a I sleeve spring ill) is arranged, and that zwiscr.yn the I outer peripheral wall (12) of the annular groove (2) and one i 10 second end ring section (7) of the inertia ring i ⁽ (6) a sleeve spring (13) is arranged such that 1 the two coaxial sleeve springs (11, 13) each other j; overlap. \ 15 2. Damped torsional vibration damper according to claim 1, ί characterized in that f. one on the outer edge of the hub ring section (3) 20 arranged ring extension (9) between the two I end ring sections (4, 7) of the inertia ring (S) extends. 440 / 85.pa5 CLIlITIlIl ·· · ·· ti ι