CN104903625B - Shifting device for a motor vehicle transmission - Google Patents

Abstract

A gear shift device (1) of a motor vehicle transmission, said gear shift device having: a shift shaft (3); a housing part (2) to which a gear shift shaft (3) is rotatably mounted; locking unit (6) for fixing a shift position, having a locking contour (74, 75) on a first locking member (7) and having a second locking member (8) with a locking element (84, 86, 86), wherein the locking members (7, 8) are movable relative to one another and lockable relative to one another, wherein the locking element (84, 85, 86) is pretensioned parallel to the axis of rotation against the locking contour (74, 75).

Description

The shift device of motor vehicle transmission

Technical field

The present invention relates to the shift device of a kind of motor vehicle transmission, described shift device has: Shifting shaft；Housing parts, shifting shaft is rotatably mounted relative to described housing parts；For solid Determining the lock cell of drive range, described lock cell has the locking wheel on the first locking component Exterior feature also has the second locking component with locking member, and wherein these components can relative to each other be transported Move and can relative to each other lock.

Background technology

This shift device is known as the gearshift dome of motor vehicles gear-shift mechanism.Shifting shaft exists Gearshift and the block selecting campaign of driver are formed intermediary element when being transferred to shift gear to be shifted gears. Generally, block selecting and gearing movement are indulged around it via shifting shaft movement in axial direction and shifting shaft The pivot of axis is transmitted.

Shifting shaft is generally of chute guide, and described chute guide is in the merit of mandatory guidance Energy only allows specific gearshift and block selecting campaign.The gearshift dome with shifting shaft typically comprises For so that mechanically preventing mistake gearshift or excessively shift gears, the most wide moved axially or along ring week The pivot in direction.In particular, there is the shift device of shifting shaft partly except chute guide Outside also there is the end stop of machinery so that shifting shaft is no longer able to arriving after drive range Continue to pivot along shifting direction or mobile.

In order to lock in the drive range of selection, shifting shaft is generally of ' locked ' zone, locking member Gearshift or block selecting campaign during move along described ' locked ' zone on described ' locked ' zone and Described ' locked ' zone has depressed part, and locking member locks onto in the final position of the gear of gearshift Stablizing for the gear being linked in described depressed part.

Ball lock generally serves as locking member, and described ball lock such as can be from DE In 38 08 375 C1 known.Ball lock is provided with separate housing and includes internal part, Described internal part is configured to deep-draw part and is surrounded by hollow screw.Described ball lock also has Have guiding piece, described guiding piece to constitute solidly and single type include enclosed globe shade.At guiding piece And between housing, it being provided with rolling element, described rolling element guides in the housing.In order to guiding piece is solid Determining in the housing, described guiding piece is provided with the edge of radially-inwardly crimping.

On shifting shaft or the shifting element being connected with shifting shaft, as gearshift sleeve on can introduce Locking profile.DE 199 42 562 A1 describes a kind of variator with central shifting shaft, in institute State and be mounted with tank on central authorities' shifting shaft as gearshift sleeve.On the one hand, locking profile is formed into tank In wall portion, described locking profile is with the ball lock to install in the way of fixing relative to housing altogether Same-action, on the other hand, introduces chute, and described chute is for the gearshift path to central authorities' shifting shaft Gauge.This gearshift chute is preferably made by deep-draw method in the way of without cutting.Certainly, plate is deep Stamping needs that expend, complicated instrument and typically requires multistage deep-draw method.

The shortcoming of described composition scheme is, described shift device is relatively to expend during fabrication.This Outward, the element fixing relative to case of transmission of ball lock and fixing ball lock needs Want relatively large radial structure space.

Summary of the invention

The present invention, based on following purpose, overcomes drawbacks cited above.Described purpose is by tool The shift device having following characteristics realizes.

Locking member is parallel to pivot center against locking profile pretension.This can pass through following manner Realize: locking member and locking profile are not radially but arrange with the most mutually staggering. The present invention causes: the spring path required for pretension be not orthogonal to shifting shaft rotation axis but Orient with being parallel to the rotation axis of shifting shaft.When the spring producing pretension radially surrounds shifting shaft Time, required structure space can be further minimized.By the most relatively large coil diameter, Spring can axial construct simultaneously shortly.

In one embodiment of the invention, locking profile and locking member are axially with respect to that This pretension so that the axial spacing of datum mark of locking member and locking profile in shift process only Just change through difference in height on locking profile at locking member.So produce axial dipole field because of This is only by the high degree type exterior feature of locking profileCause.Locking member by lock Usual and the height of process towards the axial dipole field locking profile of the high degree type exterior feature generation that fixed wheel is wide Difference is proportional.

In an improvement project, lock cell is not used in generation block selecting power, is only used for producing Gear shifting force.Therefore, in block selecting campaign, occur without locking relative relative to locking member of profile Motion, described block selecting campaign cause shifting shaft or be the most torsionally arranged on the component on shifting shaft, as Gearshift sleeve moving axially relative to case of transmission.When gearshift, two locking component just phases For rotating each other.To this, locking profile and locking member are the most relative to each other that elastic force loads So that shifting shaft or gearshift sleeve move axially the change not causing pretension.

In a design, a locking component in locking component directly passes through helical compression Spring loads.Spring is either directly or indirectly supported on locking component and case of transmission.Constitute Locking component for annular construction member can have groove or switching part for guide springs.As an alternative, Shifting shaft has the cross section of circle, and spring is matched with shifting shaft wheel in terms of its coil diameter Wide.

In another improvement project of the present invention, form at least one locking component of lock cell It is coaxially disposed with shifting shaft.Thus, shift device constructs the most compactly.Locking component can have There is central indentation as connecting portion for shifting shaft.

In a favourable design, a locking component in locking component is configured to dish. Dish very lightweight ground constructs and has axial width little compared with its radial expansion.Axial width Can be constant, such as, be this situation in plate shape dish, it is wide that described plate shape dish is provided with high degree type And form locking profile.

Especially preferably, two locking components are configured to the annular disk being arranged on shifting shaft.Annular Dish can be arranged in the hollow body of gearshift sleeve in the way of saving structure space.Expend raw The ball lock produced is the most dispensable, and this overall diameter of described ball lock changes to ground alignment The gearshift sleeve that gear shaft or alignment are arranged on shifting shaft.The structure that the radial direction of shift device needs is empty Between therefore basically by the overall diameter of shifting shaft or by the component that is torsionally disposed thereon Overall diameter is preset.

Locking component is preferably configured as plate shape dish and cold forming is made.In the way of particularly simple, Locking component can be made by simple punching and moulding, is the most certainly able to carry out needing if desired The cutting wanted is reprocessed, as removed flash removed and need not consider in principle without the manufacture cut.

In order to improve gear shifting force and minimizing or homogenization has the locking component of locking profile Load, it is possible to be provided with multiple locking profile on locking component, wherein locking profile respectively with not Same locking member acts on jointly.Thereby, it is possible to reduce the skew required for the gear shifting force preset, And locking component can axial construct shorterly.When multiple locking members are against identical locking wheel During wide pretension, it is achieved identical effect.If such as locking component is constituted the lock as annular disk Fixed wheel is wide, then high degree type exterior feature can be constituted in the way of waveform cincture.

In another embodiment of the present invention, on shifting shaft torsionally or be fixedly disposed Gearshift sleeve.Gearshift sleeve can have other shifting element, as gearshift refer to, passage guide dress Putting or backstop, other shifting element described acts on jointly with setting nigh gearshift component.Gearshift Sleeve is connected on shifting shaft preferably via locking component.Described gearshift sleeve as hollow unit with Shifting shaft has radial spacing, but is connected on shifting shaft at least one region.Described Connect or couple and can carry out via corresponding locking component.To this, locking component and gearshift sleeve Can the most separately fabricated and be the most such as connected to each other by welding.Two components can be by plate Make, wherein the plate thickness of locking component also with the gearshift length of sleeve and its arrange and coordinate mutually, make Obtain and transmit gear shifting force safely.

In a design of described composition scheme, locking component is configured to annular disk, described Annular disk shaped ordinatedly with gearshift sleeve connection.To this, described annular disk can have drivening piece Or protuberance, what described drivening piece or protuberance were joined in gearshift sleeve is matched with the recessed of drivening piece In portion.Additionally or alternatively, it is possible to being provided with other fixing device, such as drivening piece can be attached Add ground or be welded on as an alternative on gearshift sleeve.

If shifting shaft has non-circular cross section, then outside locking component has with shifting shaft The central indentation that contouring is complementary, described locking component is shape-ordinatedly solid via described central indentation It is scheduled on shifting shaft.Therefore, locking component can undertake the shifting sleeve for being arranged on shifting shaft The adaption function of cylinder.

With shifting shaft or be arranged on shifting shaft gearshift sleeve there is no the antitorque locking member being connected Must be anti-rotating, the most described locking member can be first in conjunction with pairing locking when gearing movement Part produces skew.To this, described locking member can be fixedly provided on case of transmission.As Fruit needs the locking member axial mobility for block selecting campaign relative to housing, then institute Stating locking member and can have anti-rotating device, described anti-rotating device is directly or via cental element Part acts on jointly with housing.Intermediary element such as can be configured to be parallel to the guiding of shifting shaft orientation Pin, described directing pin completely or partially surrounded by the induction element of locking member, but can be Move axially on it.Induction element form fit in directing pin fixing be enough and Manufacture view is particularly simple.

In an improvement project, locking member can be configured to stop device, described stop device There is the spring pre-tightening stop head to retaining shell.Stop device can be arranged on the lock of solid composition Determine in the axial hole of component.As an alternative, locking member is made up of the material of locking component.To this, Can be provided with one or more switching part, described switching part can be locked in other locking component In locking profile.

Accompanying drawing explanation

Elaborate embodiments of the invention the most with reference to the accompanying drawings.Accompanying drawing illustrates:

Fig. 1 illustrates the sectional side elevation running through the first shift device according to the present invention,

Fig. 2 illustrates the top perspective view of the shift device according to the present invention according to Fig. 1,

Fig. 3 illustrates the amplification stereogram of the locking component with locking member in Fig. 1,

Fig. 4 illustrates the amplification stereogram of the locking component with locking profile in Fig. 1, and

Fig. 5 illustrates the run through according to the present invention omitting in the case of some set nigh component The sectional side elevation of two shift devices.

Detailed description of the invention

Fig. 1 and 2 illustrates to shift gears the shift device 1 of form of dome.Gearshift dome includes: convex The housing parts 2 of edge shape, described housing parts can be screwed to the variator illustrated the most further On housing；And shifting shaft 3, described shifting shaft is installed in rotation in housing parts 2.

Shifting shaft 3 via bearing 4 rolling bearing in housing parts 2 and relative to housing parts 2 is rotatable.That be connected with shifting shaft 3 with rotating through kinesiology, be arranged on housing 2, The gear level being shown without imports.Shifting shaft 3 be in the axial direction be fixedly installed and can not Mobile.Therefore, it is possible to abandon the movement of the low friction along (axial) block selecting direction so that axle Hold 4 and be structured to compared with needle bearing absorb higher power.

But gearshift sleeve 5 torsionally can axially opposing be movably arranged on shifting shaft 3.Change Interstage sleeve cylinder 5 is the board member that cold forming is made, and described board member substantially has the hollow body of peviform 51, described hollow body at least partially radially surrounds shifting shaft 3.The shell 55 of hollow body has it His shifting element, refer to 10 and channel guide 11 such as gearshift.Gearshift refers to that 10 can be owing to changing Interstage sleeve cylinder 5 by block selecting motional induction go out towards the moving axially of selector fork being shown without Position and be placed in joint.When shifting shaft 3 rotates, described gearshift refers to operate described shifting shaft, Because shifting shaft 3 and gearshift refer to that 10 are in antitorque connection.

Passage pin 13 fixing in the hole 12 of housing parts 2 is guided in channel guide 11. Therefore ensure that, be only capable of and carry out desired block selecting and gearing movement, in order to protection variator is from damage Bad.Gearshift sleeve 5 is arranged in the gap 15 of housing parts 2 so that passage pin 13 is in gap The both sides of 15 are fixed.

On the side deviating from housing parts 2, the diameter of hollow body 51 reduces to a certain extent And it is matched with the exterior contour of shifting shaft 3 so that gearshift sleeve 5 when needed can be via ring Shape convex shoulder 52 is supported on shifting shaft 3.But, not need not under normal circumstances by load Support.Second connection of gearshift sleeve 5 is carried out via annular disk 81.

Annular disk 81 (Fig. 3) has central indentation 82, the shape of described central indentation and shifting shaft The exterior contour of 3 is complementary.Described annular disk also has protuberance 83, described protuberance shape It is matingly engaged in the free piercing 53 of gearshift sleeve 5.Additionally, protuberance 83 is there By being welded and fixed.In the case of there is load, the 3rd support of gearshift sleeve 5 can be at shell The region in the gap 15 of body component 2 realizes.

Gearshift sleeve 5 has the multiple windows 54 for loss of weight.Substitute at single free piercing In 53, annular disk 81 also is able to (not shown) in the window being fixed in window 54, Wherein said annular disk the most in rotational direction abuts in the shell of gearshift sleeve 5 On 55.

The shell 55 of gearshift sleeve 5 is configured at surrounding place side be unlimited.Described shell substantially U Shape ground is constituted two legs 56 at side parallel orientation.Leg 56 is provided with recess 57 in side, Holding protruding 87 is joined to the axial orientation in described recess for annular disk 81.Locking component Two holdings protruding 87 of 8 are configured to so that described holding projection is by its medial surface 88 and lock That determines element 8 is keeping the sidewall 89 of parallel orientation between protruding 87 and protuberance 83 to form groove 90, described groove has the width of the plate thickness of gearshift sleeve 5.Oppositely with protuberance 83, Annular disk 81 is keeping having between protruding 87 bending area 91, and described bending area allows drawing Pivot on pilot pin 9.

In order to moving gear shift refers to 10 on gearshift sleeve 5, housing parts 2 is provided with two and does not has There is the bar illustrated further.By a bar, i.e. block selecting bar, gearshift sleeve 5 can be at shifting shaft Relative to described shifting shaft translational motion on 3.By another bar, i.e. gear level, cause gearshift Axle 3 and the common rotation of gearshift sleeve 5.Outside bar is generally arranged at case of transmission and such as Operate via the drag-line actuating device being connected with operator's gear level.

In order to fix neutral position and gear, gearshift sleeve 5 locks onto in these positions.To this, Locking member 84,85,86 is against two locking profile 74,75 pretensions.Locking profile 74,75 Being arranged on another annular disk 71, another annular disk described is as locking component 7 and locking Component 8 is collectively forming lock cell 6.Only one locking member 84 is against locking profile 74 pretension； And two locking members 85,86 are against the locking profile with longer and more lock recess portion 75 pretensions.Three locking members 84,85,86 are spaced apart from each other with the angle of 120 ° so that The load of annular disk 71,81 is the most uniform.

Annular disk 71 has central indentation 72 as connecting portion for shifting shaft 3.With torsionally The locking component 8 being connected with shifting shaft 3 is on the contrary, locking component 7 is torsionally fixed on housing section On part 2.To this, described locking component 7 has induction element 73, and described induction element surrounds solid The directing pin 9 being scheduled on housing parts 2.In directing pin 9, locking component 7 is together with guiding element Part 73 is axially movable and is only fixed against rotational motion.

In order to ensure the pretension of two locking components 7,8, described locking component is added by spring 14 Carry.The spring 14 being configured to spiral compression spring has following coil diameter, described coil diameter It is matched with the diameter of shifting shaft 3.Thus, the upset of spring it is effectively prevented from.Spring 14 by One spring end is supported directly on annular disk 7, and its another end is supported on and is arranged on In retainer ring 32 in shifting shaft cannelure 31.Spring 14 arranges and is chosen to so that In block selecting position the most possible, that allow, spring 14 and then locking component 7,8 are pretensions.

Therefore, during block selecting, locking bushing 5 and locking component 8 are relative to housing parts 2 and shifting shaft 3 be axially movable；But, spring-loaded locking component 7 is likewise subjected to axially Mobile.Locking component 7,8 does not change its mutual relative position and then does not the most produce gear shifting force. On the contrary, when gearing movement (rotation), a locking component 8 couples via gearshift sleeve 5 On shifting shaft 3, and another locking component 7 is fixed on housing member 2 via directing pin 9. Therefore, locking member 84,85,86 moves against the locking profile 74,75 of molding and then causes Locking component 7,8 pressure skew relative to each other.Force the power of skew antagonistic spring 14, It is obvious as gear shifting force and guarantees, in specific position, i.e. in neutral position and gearshift Position needs to stay in (gearshift) power of outside applying, thus fixes gear, to prevent due to shake Move and by mistake unclamp.

Locking component 7,8 both of which is configured to the tabular dish that cold forming is made.Locking profile passes through Moulding introduces, and locking member 84,85,86 is configured to switching part (Durchstellung) And then be made up of the material of annular disk 81 itself.This annular disk 71,81 1 aspect is the most narrowly Structure, the most described annular disk can be arranged on and be formed by the shell 55 of gearshift sleeve 5 Hollow body 51 inside in.Therefore, in axial direction need not the structure space added, and And radially, required structure space is only by constant gearshift sleeve diameter and being arranged on Gearshift on gearshift sleeve 5 refers to that 10 determine.

Fig. 5 illustrates the signal of the variations of the shift device 1 according to the present invention according to Fig. 1-4 Figure.With according to the embodiment of Fig. 1 to 4 differently, locking member 84 is configured at this to have Ball lock as the detent balls of head 92.The spring 14 of ball lock is along shifting shaft 3 Axial direction compression, but do not surround described shifting shaft.Locking member 84 is as pre-installation Component is arranged in solid locking component 8, and described locking component has in addition for directing pin 9 Through hole.In this embodiment, have locking profile 74 locking component 7 torsionally with Gearshift sleeve 5 connects.

Reference numerals list:

1 shift device

2 housing parts

3 shifting shafts

4 bearings

5 gearshift sleeves

6 lock cells

7 (the first) locking components

8 (the second) locking components

9 directing pin

10 gearshifts refer to

11 channel guide

12 holes

13 passage pins

14 springs

15 gaps

31 shifting shaft cannelures

32 retainer ring

51 hollow bodies

52 annular convex shoulders

53 free piercings

54 windows

55 shells

56 legs

57 recesses

71 annular disks

72 central indentation

73 induction elements

74 locking profiles

75 locking profiles

81 annular disks

82 central indentation

83 protuberances

84 locking members

85 locking members

86 locking members

87 keep projection

88 medial surface

89 sidewalls

90 grooves

91 bending areas

Claims (10)

1. the shift device (1) of a motor vehicle transmission, described shift device has:

-shifting shaft (3)；

-housing parts (2), described shifting shaft (3) can be rotationally relative to described housing parts Install；

-for fixing the lock cell (6) of drive range, described lock cell has at the first lock Determine the locking profile (74,75) on component (7) and have with locking member (84,85, 86) the second locking component (8), wherein said locking component (7,8) can relative to each other be transported Move and can relative to each other lock,

It is characterized in that,

Described locking member (84,85,86) be parallel to pivot center against described locking profile (74, 75) pretension.

Shift device the most according to claim 1,

It is characterized in that,

Two locking components (7,8) are coaxially disposed with described shifting shaft (3).

Shift device the most according to claim 1 and 2,

It is characterized in that,

Described lock cell (6) has multiple locking unit to lock in described drive range Part (84,85,86), described locking member can be locking profile (74,75) or many Locking in individual locking profile (74,75).

Shift device the most according to claim 1,

It is characterized in that,

At least one locking component in described locking component (7,8) is configured to dish (71,81).

Shift device the most according to claim 4,

It is characterized in that,

Described dish (71,81) is configured to the board member that cold forming is made.

6. according to the shift device described in claim 4 or 5,

It is characterized in that,

Being provided with gearshift sleeve (5) on described shifting shaft (3), described gearshift sleeve is via institute The locking component stated in locking component (7,8) is connected on described shifting shaft (3).

7. according to the shift device described in claim 4 or 5,

It is characterized in that,

A locking component in described locking component (8,7) is on described housing parts (2) Shape-ordinatedly anti-rotating.

Shift device the most according to claim 7,

It is characterized in that,

Described anti-rotating is by the directing pin (9) oriented along the axial direction of described shifting shaft (3) Realize, described directing pin by described first locking component (7) at least partially around.

9. according to the shift device according to any one of the claims 1,2,4,5,8,

It is characterized in that,

Described shifting shaft (3) or be arranged on described shifting shaft (3), there is gearshift refer to (10) Gearshift component can in axial direction move, wherein spring (14) is supported directly on described locking structure On a locking component in part (7,8) and on described housing parts (2).

10. according to the shift device according to any one of claim 1,2,4,5,8,

It is characterized in that,

Described locking member has stop device, and described stop device has the stop of spring pre-tightening Ball, wherein said detent balls in axial direction can be moved.