CN105927709A

CN105927709A - Torsional vibration damper and method for producing the same

Info

Publication number: CN105927709A
Application number: CN201610103771.2A
Authority: CN
Inventors: L·于贝
Original assignee: Schaeffler Technologies AG and Co KG
Current assignee: Schaeffler Technologies AG and Co KG
Priority date: 2015-02-26
Filing date: 2016-02-25
Publication date: 2016-09-07
Anticipated expiration: 2036-02-25
Also published as: CN105927709B; DE102015203475A1

Abstract

The invention relates to a torsional vibration damper (1), in particular for a drive train of a motor vehicle, having an input part (2) which can be rotated about an axis of rotation (d), and having an output part (3) which can be rotated relative to one another against the action of a spring device (4) which is loaded on the input side, wherein the output part comprises a flange part (5) which loads the spring device (4) on the output side by means of radially extending arms (6), and a hub part (7) which is connected to the flange part (5) and has an internal toothing (8). In order to simplify the production of the torsional vibration damper (1), the flange part (5) and the hub part (7) are designed as an integral disk-shaped part (9).

Description

Torsional vibration damper and the method being used for manufacturing this torsional vibration damper

Technical field

The present invention relates to the torsional vibration damper of a kind of drivetrain being particularly useful for motor vehicles, it has one Input block and an output block, described input block can rotate around a rotation axis, described defeated Go out parts and can resist the effect of the spring assembly being loaded at input side and relative torsion, described output unit Part have one outlet side by radial expansion arm load described spring assembly flange components and The individual boss assembly with interior teeth portion being connected with this flange components.

Background technology

Torsional vibration damper especially in the motor vehicles drivetrain have internal combustion engine for damping this internal combustion engine Twisting vibration, its mode is input block one spring of opposing fixing to be connected with I. C. engine crankshaft The effect of device is relatively reversed relative to an output block, and input torque is passed by described output block It is delivered to rear class power unit, such as variator, double clutch or the like.In the case, when turning During square peak value, described spring assembly is compressed and by the energy that now stores when a torque valley Export in drivetrain again, so that after this torsional vibration damper, ratio occurs more before it generally Add uniform torque change procedure.In the case, in order to improve the isolating technique quilt of torsional vibration damper Prove particularly effective: in the case of constituting a divided flywheel, attach troops to a unit one to input block Primary flywheel mass and attaching troops to a unit a secondary flywheel mass to output block.In the case, some Component such as power unit and the like, such as, double clutch, torque converter etc. component can It is used as secondary flywheel mass.

Such as by the known a kind of torsional vibration damper of DE 10 2,012 202 255 A1, its output block includes It is sealed that one boss assembly with interior teeth portion, this interior teeth portion and rear class power unit form rotation.Additionally, Being provided with the sealed connecting portion with the rotation of a flange components, this flange components includes expanding to radially outer The arm of exhibition, described arm undertakes the loading at outlet side of spring assembly.

Summary of the invention

It is an object of the invention to provide the favourable improvement project of a torsional vibration damper and one for Manufacture the improved method of torsional vibration damper.Assembling to be made becomes easy and makes manufacturing cost reduce.

This purpose will be come real by equipment according to claim 1 and method according to claim 6 Existing.The dependent claims being subordinated to claim 1 gives the Advantageous embodiments of this equipment.

The torsional vibration damper of this suggestion is particularly suited for the drivetrain of motor vehicles, in this drivetrain The vibration vibration damping of combustion engine.To this end, this torsional vibration damper includes: the input that can rotate around rotation axis Parts, described input block is such as by first disc-shaped part driven by I. C. engine crankshaft and one At radially outer, regularly and close-connected second disc-shaped part is formed with this first disc-shaped part；With And the output block of the effect energy relative torsion of an opposing spring assembly, described spring assembly is received Add at input side in a doughnut formed by the two disc-shaped part and by described disc-shaped part Carrying, such as load by imprinting moulding portion, this output block has one and loads described bullet at outlet side The flange components of spring device and a boss assembly being connected with this flange components, wherein, flange components with Boss assembly is integrally configured to disc-shaped part.Thus, eliminate between boss assembly and flange components Riveting.Additionally, save assembly cost and decrease the punching press of flange components and remove (Stanzausbruch)。

This disc-shaped part has radial expansion arm at radially outer, and described radial expansion arm is coupled to annular In room, to institute in the lead of this radial expansion arm torque flow in drivetrain and/or glide direction State the accumulator such as semielliptic spring of spring assembly, straight helical compression spring or the like Side loads.This disc-shaped part has interior teeth portion in inner radial, and this interior teeth portion such as can be arranged On an inner peripheral axially curving protruding head of disc-shaped part.This interior teeth portion is relative to an axle (example As for transmission input shaft), relative to an axle journal (input block of such as double clutch), relatively In a torque converter or similar power unit or rotate sealed relative to analog formation.

Described disc-shaped part is the most differently hardened.Such as, in order to set the hard of interior teeth portion Degree, whole disc-shaped part by thermmohardening, such as, is annealed.

The arm of the mechanically strong load of described disc-shaped part can be hardened additionally by sensing.

Described disc-shaped part can be such as made into by punching press and forming method by sheet material upon hardening.Should Disc-shaped part is except the broaching of interior teeth portionOutside can be without cutter ground (werkzeugfallend) Manufacture.

The method being used for manufacturing proposed torsional vibration damper of this suggestion includes: had by sheet material manufacture The punching press of the disc-shaped part of one axial protruding head being arranged on inner radial and plate forming technique and hard Metallization processes, wherein, makes described disc-shaped part harden in the first cure step, such as anneal, and, The arm of described disc-shaped part is made to be hardened by sensing in the second cure step.Additionally, the method is also Including Broaching Technology, described interior teeth portion of broaching out in this Broaching Technology.The broaching of described interior teeth portion is excellent Selection of land is implemented after the first cure step and before the second cure step.Below will be by only The embodiment present invention explained in detail shown in one accompanying drawing.This torsional oscillation illustrated according to the present invention subtracts Shake the partial cross section of device.

Accompanying drawing explanation

Unique accompanying drawing illustrates the torsional vibration damper 1 can arrange in the way of reversing around rotation axis d Top.

Detailed description of the invention

Unique accompanying drawing illustrates the torsional vibration damper 1 can arrange in the way of reversing around rotation axis d Top.Input block 2 and output block 3 are configured to resist the limited efficacy of spring assembly 4 Ground relative torsion.Output block 3 is by having the flange components 5 of radial expansion arm 6 and having interior teeth portion 8 Boss assembly 7 constitute.Flange components 5 and boss assembly 7 integrally constitute disk shaped part 9.

Input block 2 includes two in radially outer phase in the case of constituting a primary flywheel mass Compact siro spinning technology, the disk shaped part 11,12 such as welded and flywheel ring gear 13 mutually.Disk shaped part 11 is borrowed Help screw 14 to be received on a unshowned bent axle and opened by a break-through of disk shaped part 9 Mouth 15 screws with this bent axle.

Disk shaped part 11,12 form doughnut 16, receive the arch of spring assembly 4 in this doughnut Spring 17.Load for loading the input side of semielliptic spring 17 in circumferential direction in semielliptic spring side Device realizes by disk shaped part 11, the sightless imprinting moulding portion of 12.Semielliptic spring 17 Outlet side loads and realizes by the arm 6 being coupled in doughnut 16 by inner radial.Doughnut 16 To inner radial at disc-shaped part 9 and disc-shaped part 11, by by disc spring 19 in the axial direction between 12 The sealing member 18 compressed is sealed in the case of constituting rubbing device.

The riveting between flange components 5 and boss assembly 7 is eliminated by disc-shaped part 9 one-piece construction Connect.Axially mounted space needed for thus can saving by rivet.Additionally, make single disc-shaped part 9 The assembling of stock control and this torsional vibration damper 1 simplifies.It addition, material can be saved, because eliminating The stampings that the punching press of flange components 5 removes.

In the case, disc-shaped part 9 adapts in different geometric areas or functional area not Same hardness requirement.On the one hand the predetermined hardness for forming interior teeth portion 8 is set, on the other hand The hardness of setting arm 6 unlike this.Manufacture disc-shaped part 9 by punching press and forming method and require plate The raw-material hardness of material is little.Therefore, by punching press and forming method manufacture, there is axle in the first step Blank to the disc-shaped part 9 of protruding head 10.Then, this blank is by thermmohardening, such as anneal.Connect again , axial protruding head 10 is broached out interior teeth portion by Broaching Technology.Finally, arm 6 is at disc-shaped part The radially outer of 9 is the most preferably arranged with inducing method has bigger hardness.

Reference numerals list

1 torsional vibration damper

2 input blocks

3 output blocks

4 spring assemblies

5 flange components

6 arms

7 boss assemblies

Teeth portion in 8

9 disc-shaped parts

10 axial protruding heads

11 disc-shaped parts

12 disc-shaped parts

13 flywheel ring gears

14 screws

15 break-through openings

16 doughnuts

17 semielliptic springs

18 sealing members

19 disc springs

D rotation axis

Claims

1. torsional vibration damper (1), is particularly useful for the drivetrain of motor vehicles, and this torsional vibration damper has one Input block (2) and an output block (3), described input block can be around rotation axis (d) Rotating, described output block can resist the effect of the spring assembly (4) being loaded at input side and relative Reversing, described output block includes that one loads described spring at outlet side by radial expansion arm (6) What the flange components (5) of device (4) and one were connected with this flange components (5) has interior teeth portion (8) Boss assembly (7), it is characterised in that: described flange components (5) and described boss assembly (7) are by structure Make the disc-shaped part (9) for integral type.

Torsional vibration damper the most according to claim 1 (1), it is characterised in that: described disc-shaped part (9) Local is differently hardened.

Torsional vibration damper the most according to claim 2 (1), it is characterised in that: in order to set described internal tooth The hardness in portion (8), whole disc-shaped part is by thermmohardening.

Torsional vibration damper the most according to claim 3 (1), it is characterised in that: it is positioned at the arm of radially outer (6) it is hardened additionally by sensing.

5. according to the torsional vibration damper (1) any one of Claims 1-4, it is characterised in that: described Disc-shaped part (9) is made up of sheet material upon hardening.

6. according to the torsional vibration damper (1) any one of claim 1 to 5, it is characterised in that: described Interior teeth portion (8) is arranged in the axial protruding head (10) of described disc-shaped part (9).

7. for manufacturing the method according to the torsional vibration damper (1) any one of claim 1 to 6, Wherein by punching press and forming method sheet material by sheet material manufacture with the axial protruding head being arranged on inner radial (10) disc-shaped part (9), makes described disc-shaped part (9) harden in the first cure step, draws Cut out described interior teeth portion (8), and hardened described arm (6) by sensing in the second cure step.