CN105927673A - Torque transfer device and method of preparing torque transfer device - Google Patents

Abstract

The invention relates to a torque transfer device (1) especially used for a drive system of a vehicle, and relate to a method of preparing the torque transfer device. The torque transfer device includes at least two dish parts (14, 15) arranged around the spin axis (d), and the dish parts are both in the torque connection. In order to realize the simplified assembly, a connection part (27) and a position connection part (28) of the transfer torque of the dish parts (14, 15) are disposed between the dish parts in an overlapping manner, and the connection part of the transfer torque is in closed shape. The position connection part is decoupled mechanically, and can transfer the ignorable torque.

Description

Torque transmitter and the method being used for manufacturing this torque transmitter

Technical field

The present invention relates to a kind of torque transmitter, be particularly useful for the drivetrain of motor vehicles, and relate to A kind of method for manufacturing this torque transmitter, described torque transmitter has at least two and encloses The disk component arranged around rotation axis, described disk component is in torque connection each other.

Background technology

Especially the torque transmitter in the drivetrain of motor vehicles by torque such as from a drivetrain power Unit is delivered on the drivetrain power unit in such as one downstream, and is typically used as at them it at this Between active or passive interface.For example, as it is known that in torsional vibration damper (such as double mass flywheel), The torque transmitter of the active of friction clutch, double clutch, fluid torque-converter and analog form, Its mode is, according to the operation principle of described torque transmitter, between input component and output Torque is controlled by this torque transmitter.Here, actively and passive torque transmitter can include Multiple disk components being in torque connection each other.Such as disclosed in DE 10 2,014 208 126 A1 Torsional vibration damper includes the output being made up of multiple disk components, the plurality of disk component by means of These location that overlap each other, especially axial restraint and transmit the rivet of torque and be connected with each other.

Summary of the invention

It is an object of the invention to expand the torque transmitter of correlation type.This torque transmitter is outstanding It more simply to manufacture and can more simply install.

This purpose is realized by the equipment of claim 1, and, real by the method for claim 9 Existing.The dependent claims being subordinated to claim 1 and claim 9 enumerates described equipment or institute State the Advantageous embodiments of method.

Proposed torque transmitter, is particularly useful for the drivetrain of motor vehicles, this torque transmitter The disk component arranged around rotation axis including at least two, described disk component is in torque each other and connects In.In order to mounting disc parts in the way of and superposed location sealed by mutual torque, described Being provided with the connecting portion of the transmission torque of disk component and the portion that is located by connecting between disk component, described transmission turns The connecting portion of square is positive, described in be located by connecting portion with transmission torque connecting portion mechanically take off Coupling and transmit insignificant torque.It means that the torque transmission between disk component and disk component Function separation is carried out between superposed location.This can bear purpose: sets on following geometric position Putting the connecting portion of transmission torque, on described geometric position, the superposed location of disk component such as exists It is infeasible on mounting technology or is not favourable.

Here, the location of disk component especially can be regarded as the axial restraint that disk component is superposed, its In, the connecting portion of transmission torque only has the insignificant power of axially retaining between disk component, and Work in the axial direction in the described portion of being located by connecting.The described portion of being located by connecting can force closure, positive and/ Or material constructs in locking manner.Such as can arrange press-fitted portions between the two disk component, kayser connects Portion, crimpingWedging portion, weld part and/or analog are to be formed and being located by connecting Portion.The described portion of being located by connecting may be provided at radially outer or the inner radial of the connecting portion of transmission torque. Additionally, the portion of being located by connecting may be provided at for torque transmitter is received consolidating on I. C. engine crankshaft Determine device, the radially outer of such as screw or inner radial.

The portion of being located by connecting can by dispersed placement unique, multiple ground, be arranged on one or more reference circle On interface unit, as rivet, screw or the like constitute.Such as unique interface unit is such as Tubular rivet or solid rivet can form the superposed of disk component on the center of rotation of rotation axis The portion that is located by connecting.Especially for avoiding in the subsidiary torque of torque that is introduced and that transmitted by disk component Sending cackle in the case of fluctuation, the connecting portion of transmission torque can seamlessly engage.Transmission torque Connecting portion can be made up of axial socket connection portion, in described socket connection portion, one or more dishes The multiple that be distributed in the circumferential, axially extending of parts is joined with taking moving part positive in circumferential direction Close in the respective slot such as opening of at least one other disk component.Such as, at least one dish portion On part preferably without cutter (werkzeugfallend) form at least one, the most multiple The protuberance of the axial structure that distribution ground is arranged in circumference, described protuberance is coupled at least in the axial direction In one axially opposing disk component put complementally construct with described protuberance, such as without cutter In the opening that ground stamps out.

Proposed torque transmitter can form such as torsional vibration damper, and (the most double quality fly Wheel), centrifugal force pendulum, fluid torque-converter, passive torque transmitter, wherein, only at least two Disk component is connected with each other in the way of transmission torque and rotational stiffness, and such as two connect in this way The driving plate with transmission side of engine side and analog.In torsional vibration damper, can be defeated Enter part and/or output are arranged this of disk component and there is the connecting portion that function separates.So connect Disk component can be formed for being carried between the input component of torsional vibration damper and output at outlet side Spring assembly flange part and in torque flow the pendulum of connected disk component, such as centrifugal force pendulum Flange or the component being connected with its anti-torsion, downstream another torsional vibration damper input component, Secondary flywheel mass preferably made of steel, for driving power unit (the most double clutches with downstream Device and analog) rotate the boss assembly being connected cohesively together.

Proposed method is for manufacturing proposed torque transmitter.Here, be formed relatively In torque each other connect two disk components by means of transmission torque connecting portion and by means of being located by connecting Portion engages superposedly, and the connecting portion of described transmission torque transmits insignificant torque in the axial direction, Position that described disk component is stacked mutually is fixed in the described portion of being located by connecting and transmission can between disk component The torque ignored.In order to improve the assembling of described torque transmitter, the company of transmission torque first can be made The portion that connects engages, and then manufactures the portion that is located by connecting.

In other words, the present invention solves following task, makes two or more flange form Components Shape in locking manner Engage, wherein, undertake torque transmission by means of positive.Meanwhile, described positive passes through power Sealed/positive or the sealed connecting portion of material is fixing keeps, but, described connecting portion self is not Torque required for transmitting.

Final enumerate optional, this torque transmitter have following, self and non- The available feature of mandatory complete combination:

The connecting portion of-transmission torque and the group of the connecting portion (be such as located by connecting portion) of holding position Close,

-first manufacture the connecting portion transmitting torque, then manufacture the connecting portion of holding position,

The connecting portion of-transmission torque can not transmit considerable axial force,

The connecting portion of-holding position can not transmit considerable torque,

The connecting portion of-transmission torque is implemented in the way of positive.This can be such as in method Multiple protuberances being coupled in notch in blue formula component or other is mutually coordinated Shape.These shapes the most multiple can parallel join,

-guide the connecting portion of torque the most seamlessly to engage,

-guide the connecting portion of torque to be arranged on diametrically in the region of crank shaft bolt connecting portion,

The connecting portion of-holding position is implemented so that realize the entrance for assembling,

The connecting portion of-holding position can be embodied as riveting/protuberance connecting portion, be embodied as bolt even Meet portion or material implemented (such as by means of weld part) in locking manner,

The connecting portion of-holding position can be fabricated to have unique interface unit in center of rotation Connecting portion or diametrically in the region of crank shaft bolt connecting portion such as by Manufacture in multiple interface units.

Accompanying drawing explanation

The present invention is explained in detail with reference to the embodiment shown in Fig. 1 to 4.Accompanying drawing illustrates:

That Fig. 1 arranges around rotation axis, torque transmitter in torsional vibration damper form Top,

The details of the torque transmitter of Fig. 2 Fig. 1,

The position of the connecting portion of the transmission torque of Fig. 3 Fig. 1 and 2 and the diagram of the position in the portion that is located by connecting, And

The torque transmitter that the Fig. 4 torque transmitter relative to Fig. 1 to 3 changes, corresponding to The details of Fig. 2 diagram.

Detailed description of the invention

Fig. 1 illustrates the first half of the torque transmitter 1 arranged around rotation axis d with cross section.Institute The torque transmitter 1 illustrated is configured with input component 3 and the torsional vibration damper of output 4 2, described output is limited relative to input component with the effect that can resist the spring assembly 5 only suggested The mode that ground reverses is arranged.Input component 3 is connected with the bent axle 7 of internal combustion engine by means of screw 6.By dish Parts 8,9,10 input components 3 constituted form primary flywheel mass and by means of disk component 9,10 Form the doughnut 11 for receiving spring assembly 5.Disk component 8 forms additional flywheel mass, and And, the axial protruding head 12 of disk component 10 forms the bursting protection part for centrifugal force pendulum 13.Spring fills Put 5 the loading of input side, the side of such as semielliptic spring loading by means of at disk component 9,10 On sightless imprinting moulding portion carry out.

Output 4 is by two disk components 14,15, centrifugal force pendulum 13 and torsional vibration damper 16 structure Become.Disk component 14 is formed spring assembly 5 with the arm 17 being coupled in doughnut 11 diametrically Charger at outlet side.Disk component 14 is coupled together by disk component 15 with centrifugal force pendulum 13.For This, disk component 15 is connected by means of rivet 20 with sidepiece part 18.Sidepiece part 18,19 is outside in footpath Portion receives in the axial direction between described sidepiece part the pendulum mass 21 arranged with being distributed in the circumferential, and And constitute pendulum supporting arrangement relative to described pendulum mass, in the torque rotated around rotation axis d The centrifugal force field of transfer device 1 swingingly receives described pendulum mass.Sidepiece part 17,18 is inside in footpath Portion forms the input component 22 of torsional vibration damper 16.Output 23 can resist bullet relative to input component The limited efficacy ground of spring device 24 reverses.Output 23 by be arranged in the two sidepiece part 18,19 it Between boss assembly 25 formed, described boss assembly has interior teeth portion 26 in inner radial, for and downstream Drivetrain power unit, the axle of such as double clutch or axle head rotate and are connected cohesively together.

The two disk component 14,15 has at the such as transmission sealed connecting portion 27 of the such rotation of torque With make the two disk component 14,15 superposed location, the most fixing being located by connecting Function between portion 28 separates.In the embodiment illustrated, transmission torque connecting portion 27 by The interface unit 29 that in circumference, distribution ground is arranged is constituted, and described interface unit is by by described disk component 14 The protuberance 30 formed is formed, and described protuberance is the most seamlessly coupled to disk component 15 Complementary openings 31 in.By multiple collateral actions the interface unit 29 arranged by all existence Torque is delivered to disk component 15 from disk component 14.Disk component 14, the axial location of 15 is such as fixed on Carry out one above the other by means of the portion of being located by connecting 28 after the joint of connecting portion 27.Shown In embodiment, the portion 28 that is located by connecting is set in the torque transmitter 1 rotation on rotation axis d Center rivet 32 in the minds of in.

Owing to separating at the connecting portion 27 of transmission torque and the function being located by connecting between portion 28, transmission The interface unit 29 of torque may be arranged at the untouchable in geometrical aspects of torque transmitter 1 In region.Such as, described interface unit is arranged in input component 3 and the output of torsional vibration damper 16 In such as untouchable for riveting region between part 23.Here, interface unit 29 Axially engage.Then, in the most palp region, interface unit 28 is positioned in torque transmission The center of rotation of device, described interface unit 28 makes disk component 14,15 and then input component 3 and spring Device 5 mutually axially is connected with centrifugal force pendulum 13 and torsional vibration damper 16.It is appreciated that The connecting portion 27 in transmission torque shown in Fig. 1 and the function being located by connecting between portion separate and can make It is used on other torque transmitter on other position with them.

Fig. 2 be illustrated in detail in the rivet 32 forming the portion of being located by connecting 28 torque transmitter 1 around Layout in the center of rotation of rotation axis d.Rivet 32 by means of manufactured head 33 and rivet pier nose The flange that extends radially out of 34 makes the two disk component 14,15 fix the most one above the other.Due to In rivet 32 and disk component 14, the little rubbing surface between 15, the biography in the negligible portion 28 that is located by connecting Pass the function of torque.

Fig. 3 illustrates the adapter of the connecting portion 27 of the transmission torque of the torque transmitter 1 of Fig. 1 and 2 The possible arrangement of part 29.Described interface unit is arranged in three reference circles 35,36 with being distributed in the circumferential, On 37.Although by hindering disk component 14,15 (Fig. 1) riveting or the most axially positioning Other components cause spatially overlapping, but the footpath that interface unit 29 may be provided at screw 6 is inside Portion and radially outer, screw 6 is for being fixed on bent axle by torque transmitter 1.It is configured to rivet 32, the portion that is located by connecting 28 on rotation axis d be sufficiently used for making disk component 14,15 are stacked mutually The axial restraint put.

Fig. 4 is illustrated in detail in the torque transmission dress that the torque transmitter 1 relative to Fig. 1 to 3 changes Putting 1a, it has disk component 14a, 15a.Corresponding to torque transmitter 1, at disk component 14a, Between 15a, the interface unit 29a of the connecting portion 27a of transmission torque is by the protuberance 30a of axial molding With the complementary openings 31a formation to this.Be located by connecting portion 28a by one or individual other rivet 32a shape Becoming, described rivet is arranged on disk component 14a at interval with rotation axis d diametrically, between 15a. The riveting of disk component 14a, 15a is such as by opening for the through of screw 6a on boss assembly 25a Mouth 38a is carried out.Material that rivet 32a can be consolidated by non-torque, such as by light metal or plastics system Become.

Reference numerals list

1 torque transmitter

1a torque transmitter

2 torsional vibration dampers

3 input components

4 outputs

5 spring assemblies

6 screws

6a screw

7 bent axles

8 disk components

9 disk components

10 disk components

11 doughnuts

12 protruding heads

13 centrifugal force pendulums

14 disk components

14a disk component

15 disk components

15a disk component

16 torsional vibration dampers

17 arms

18 sidepiece parts

19 sidepiece parts

20 rivets

21 pendulum masses

22 input components

23 outputs

24 spring assemblies

25 boss assemblies

25a boss assembly

Teeth portion in 26

The connecting portion of 27 transmission torques

The connecting portion of 27a transmission torque

28 are located by connecting portion

28a is located by connecting portion

29 interface units

29a interface unit

30 protuberances

30a protuberance

31 openings

31a opening

32 rivets

32a rivet

33 manufactured heads

34 rivet pier noses

35 reference circles

36 reference circles

37 reference circles

38a pass through openings

D rotation axis

Claims (10)

1. torque transmitter (1,1a), is particularly useful for the drivetrain of motor vehicles, and described torque is transmitted Device has at least two disk component (14,14a, 15,15a) arranged around rotation axis (d), Described disk component is in torque connection each other, it is characterised in that the most folded between described disk component Be provided with putting described disk component (14,14a, 15,15a) transmission torque connecting portion (27, 27a) and be located by connecting portion (28,28a), the connecting portion of described transmission torque is positive, institute State the connecting portion of the portion of being located by connecting and described transmission torque the most decoupled and transmit insignificant turn Square.

Torque transmitter the most according to claim 1 (1,1a), it is characterised in that described Connecting portion (27,27a) shape between described disk component (14,14a, 15,15a) of transmission torque Become the insignificant power of axially retaining, and, described in the portion (28,28a) that is located by connecting act as in the axial direction Land used constructs.

Torque transmitter the most according to claim 1 and 2 (1,1a), it is characterised in that The force closure of the described portion that is located by connecting (28,28a), positive and/or material construct in locking manner.

Torque transmitter the most according to any one of claim 1 to 3 (1), its feature exists In, described in the portion (28) that is located by connecting be arranged on the center of rotation of described rotation axis (d).

Torque transmitter the most according to any one of claim 1 to 4 (1,1a), it is special Levying and be, the connecting portion (27,27a) of described transmission torque seamlessly engages.

Torque transmitter the most according to any one of claim 1 to 5 (1,1a), it is special Levying and be, the connecting portion (27,27a) of described transmission torque is formed by axial socket connection portion.

Torque transmitter the most according to claim 6 (1,1a), it is characterised in that extremely The protuberance (30,30a) of axial structure is formed on a few disk component (14,15a), described prominent Go out that portion is coupled to be positioned at least one axially opposing disk component (14a, 15) put in the axial direction with In the opening (31,31a) of described protuberance complementary structure.

Torque transmitter the most according to any one of claim 1 to 7 (1,1a), it is special Levying and be, described at least two disk component (14,14a, 15,15a) forms torsional vibration damper (2) input component and/or output (4).

9. it is used for manufacturing torque transmitter according to any one of claim 1 to 8 (1,1a) Method, it is characterised in that be formed relative to each other torque connect two disk components (14,14a, 15,15a) by means of transmission torque connecting portion (27,27a) and by means of the portion of being located by connecting (28, 28a) engaging, the connecting portion of described transmission torque transmits insignificant torque in the axial direction superposedly, The most stacked position of described disk component (14,14a, 15,15a) is fixed also by the described portion of being located by connecting And transmit insignificant torque between described disk component (14,14a, 15,15a).

Method the most according to claim 9, it is characterised in that first manufacture described transmission torque Connecting portion (27,27a), then manufacture described in be located by connecting portion (28,28a).