DE202009010459U1 - Lock wedge synchronization assembly and manual transmission with a locking wedge synchronization assembly - Google Patents

Abstract

Lock wedge synchronization assembly for a manual transmission (46), with
a synchronous stone (12),
a blocking stone (14) mounted in the synchronizing stone (12) as well as
a spring (16) held between the blocking stone (14) and the synchronizing stone (12),
characterized in that the block (14) facing away from the end (22) of the spring (16) in the circumferential direction (30) is slidably received in the synchronizing stone (12).

Description

The The invention relates to a locking wedge synchronization assembly for a manual transmission, with a sync stone, one in the sync stone mounted blocking stone as well as a spring between the blocking stone and the sync stone is held. Furthermore, the invention relates also a manual transmission with a pre-assembled locking wedge synchronization assembly.

The DE 10 2007 010 307 B3 already shows a manual transmission, which has a generic locking wedge synchronization assembly in some embodiments. The transmission described is used, for example, as a manual transmission for motor vehicles and is formed with a nowadays usual locking synchronizer clutch. In these locking synchronizer clutches, a locking mechanism ensures that the engagement of the teeth of the sliding sleeve and coupling body is only possible when the speeds of synchronizer body and gear wheel are synchronized with each other.

Due to the generic Sperrkeilsynchronisationsbaugruppe a synchronizer ring of the clutch assembly according to DE 10 2007 010 307 B3 be manufactured in comparison to conventional locking synchronizer clutches with significantly less effort.

The between the block and the sync stone arranged spring However, generates a during operation of the clutch assembly Force, contrary to a so-called "Umschlagerichtung" of Synchronsteins is directed and therefore undesirable Way hinders the movement of the synchronous block in its blocking position.

task The invention therefore relates to the provision of a locking wedge synchronization assembly, the with little effort in a clutch or a manual transmission can be mounted and at the same time in the operation of the clutch or the gearbox a largely unhindered handling allows the synchronous block in its blocking position.

These Task is solved by a locking wedge synchronization module of the type mentioned, in which the end facing away from the block the spring in the circumferential direction slidably received in the synchronizing stone is. The term "circumferential direction" refers while on the subsequent rotational movement in the manual transmission. When installed, the locking wedge synchronization module is on Outside circumference of a synchronizer arranged and rotates during operation of the gearbox about an axis of rotation of the Synchronizer. On the other hand, the feature refers to that the spring is held between the block and the synchronizing stone, is particularly curious, expressly to one Condition before mounting the locking wedge synchronization module in Manual transmission, that is, so on a non-built-in Condition of the module.

By the displaceable in the circumferential direction relative to the associated spring end Syncestone is the synchronization of the gearbox to that effect improves that when folding no spring force, the counteracts a movement of the synchronous block in its blocking position. As a result of this possible relative movement keep the spring ends when turning over the synchronizing block ideally their position in the circumferential direction and thus their radially aligned spring force.

In an embodiment of the locking wedge synchronization assembly is the opposite of the block end of the spring over the sync stone out. Relative to the non-installed state of Lock wedge synchronization assembly, this means that the spring end directly or indirectly (eg by means of a coupled with the spring end Bearing element) protrudes radially beyond the synchronizing stone.

The Invention further relates to a manual transmission with a synchronizer body, a shift sleeve, a synchronizer ring and at least one preassembled Lock wedge synchronization assembly, a sync stone, a in the synchro stone and a spring comprises wherein the spring is supported on the synchronizer body. In such a transmission, the assembly effort is special low, because sync stone, block and spring as pre-assembled Unit available and can be installed with little effort. When installed, however, the spring then supports on not belonging to the preassembled module synchronizer body of the gearbox, which the sync stone one of the spring force largely unaffected possibility of movement in the circumferential direction allowed.

In a manual transmission with a Sperrkeilsynchronisationsbaugruppe of the type described above, the maximum displacement of the end facing away from the block end of the spring relative to the synchronizing stone is preferably greater than or equal to a maximum displacement of the synchronizer relative to the synchronizing stone. For the frequent case that the synchronizing block and the synchronizer ring are coupled together in the circumferential direction without play, this displacement of the synchronizer relative to the synchronizing stone also corresponds to an adjustment of the synchronizer relative to the synchronizer ring. If the condition "displacement greater than or equal to adjustment path" is fulfilled, the spring ends become operational of the gearbox exclusively radially displaced relative to each other (relative to a rotational axis of the synchronizer body). Accordingly, no undesired spring forces are generated by a displacement of the spring ends, which act transversely to the radial direction.

expedient Embodiments of the invention and their advantages emerge the dependent claims.

The Invention will be described below with reference to a preferred embodiment described in the accompanying drawings is. In these shows:

1 a perspective view of a locking wedge synchronization assembly according to the invention;

2 a sectional perspective view of the locking wedge synchronization assembly according to 1 ; and

3 a perspective detail of a shift transmission according to the invention with a built-in inventive locking wedge synchronization assembly.

The 1 and 2 show a perspective view and a sectional perspective view of a locking wedge synchronization assembly 10 for a manual transmission, with a synchronous stone 12 , one in the sync stone 12 mounted blocking stone 14 and a spring 16 in the illustrated, non-installed state of the locking wedge synchronization assembly 10 between the block 14 and the sync stone 12 is kept tense. To create a spring tension, are on the block 14 and at the sync stone 12 Positive locking portions (not shown) are provided which act as a stop and prevent the in 2 illustrated helical compression spring 16 the blocking stone 14 in the direction of its spring axis A (up) from the sync stone 12 postpones. Based on a rotation axis of the gearbox in the installed state of the locking wedge synchronization assembly 10 These form-fitting portions are, for example, as cooperating wedge surfaces or projections on the mutually facing axial end faces of the locking block 14 and the synchronous stone 12 educated.

A the block 14 facing end 18 the feather 16 is in the illustrated embodiment in a recess 20 of the block 14 recorded and supported directly on the block 14 from. An opposite, from the block 14 opposite end 22 the feather 16 is supported by a bearing element 24 indirectly on the sync stone 12 off, taking on the bearing element 24 will be discussed in more detail below.

In the exemplary embodiment according to FIGS 1 to 3 is the spring 16 a coil spring with a spring axis A, wherein this spring axis A in the installed state of the locking wedge synchronization assembly 10 based on a (not shown) axis of rotation of a synchronizer body 26 extends in the radial direction (see. 3 ). With respect to this axis of rotation in the installed state is in the 1 and 2 an axial direction by a double arrow 28 and a tangential or circumferential direction by a double arrow 30 symbolizes.

According to these direction definitions, that is from the block 14 opposite end 22 the feather 16 in the circumferential direction 30 movable in the sync stone 12 added.

More precisely, it's on the barrier 14 opposite end 22 the feather 16 the separate bearing element 24 arranged, this bearing element 24 alternatively also in one piece in the spring 16 can be integrated. Furthermore, the sync stone 12 an abutment bridge 32 on, also from the block 14 opposite end 22 the feather 16 is assigned so that the bearing element 24 to the abutment bridge 32 borders.

The abutment bridge 32 has a slot 34 in the form of a long hole, which extends in the circumferential direction 30 extends and in the circumferential direction 30 a guide for the bearing element 24 forms. The bearing element 24 is designed as a bolt, the bolt is a guide pin 36 for the spring 16 , a storage plate 38 and a support head 40 having.

That with the spring end 22 coupled bearing element 24 , more precisely, the support head 40 of the bearing element 24 , stands in the radial direction A on the sync stone 12 out. The slot 34 is perpendicular to the circumferential direction 30 , ie in the axial direction 28 , only slightly wider than the support head 40 ie as the one in the slot 34 engaging portion of the bearing element 24 , The support head 40 thus extends through the slot 34 the abutment bridge 32 and stands over an outside 42 the abutment bridge 32 forth while the storage plate 38 on an inside 44 the abutment bridge 32 is applied.

The 3 shows a detail of a gearbox 46 in the area of a locking wedge synchronization module 10 , The manual transmission 46 includes the synchronizer body 26 , which is rotationally fixed on a drive shaft and in the circumferential direction 30 rotates about an axis of rotation (not shown), one with the synchronizer body 26 non-rotatable composites ne shift sleeve 48 that are relative to the synchronizer body 26 is arranged axially displaceable, a synchronizer ring 50 in the circumferential direction 30 relative to the synchronizer body 26 is mounted limited movable, and at least one pre-assembled locking wedge synchronization assembly 10 , This locking wedge synchronization assembly 10 has a sync stone 12 , one in the sync stone 12 captured block 14 and a spring 16 on, with the spring 16 on the synchronizer body 26 supported. Furthermore, the manual transmission includes 46 nor a not-shown gear wheel with a shift toothing 52 , where one in 3 non-visible friction surface of the gear wheel at an axial displacement of the shift sleeve 48 towards the gear teeth 52 in frictional contact with the synchronizer ring 50 comes.

Since the synchronous body 26 in the installed state of the locking wedge synchronization module 10 on the outside 42 the abutment bridge 32 abuts and the support head 40 in the non-installed state on the outside 42 the abutment bridge 32 protrudes, raises the bearing plate 38 of the bearing element 24 when installing the locking wedge synchronization assembly 10 from the inside 44 the abutment bridge 32 off, so that the spring 16 no longer on the sync stone 12 but on the synchronizer body 26 supported. By the in the circumferential direction 30 aligned slot slot 34 in the abutment bridge 32 can the sync stone 12 at a frictional contact between the gear wheel and the synchronizer ring 50 from the synchronizer ring 50 taken in the circumferential direction and relative to the synchronizer body 26 to be moved. A maximum adjustment of the synchronous block 12 or the synchronizer ring 50 relative to the synchronizer body 26 is in the circumferential direction 30 through two stops 54 of the synchronizer body 26 for the sync stone 12 and / or for axial extensions 56 of the synchronizer ring 50 Are defined. A maximum displacement of the block 14 opposite end 22 the feather 16 is in the circumferential direction 30 through a length of the slot 34 in the abutment bridge 32 Are defined. To during the synchronization of the gearbox 46 an undesirable displacement of the spring end 22 in the circumferential direction 30 to avoid, is the maximum displacement of the synchstone 12 relative to the spring end 22 preferably greater than or equal to the maximum adjustment path between sync stone 12 and synchronous body 26 ,

Consequently, a turnover of the synchronous stone 12 in its blocking positions, ie its stop positions in the circumferential direction 30 , not hindered by unwanted spring forces transverse to the spring axis A. Ideally, the spring remains 16 during the synchronization radially aligned, and a movement of the spring ends 18 . 22 takes place exclusively in the direction of the spring axis A away from each other or towards each other.

Because the principle of operation of in 3 shown gearbox 46 is known with locking wedge synchronization of the prior art, will not be discussed here in detail. In this context, however, is expressly based on the content of DE 10 2007 010 307 B3 Reference is made, in which the operation is explained in detail.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102007010307 B3 [0002, 0003, 0026]

Claims (14)

Lock wedge synchronization assembly for a manual transmission ( 46 ), with a sync stone ( 12 ), one in the sync 12 ) mounted block ( 14 ) and a spring ( 16 ) between the block ( 14 ) and the sync stone ( 12 ), characterized in that the from the block ( 14 ) opposite end ( 22 ) the feather ( 16 ) in the circumferential direction ( 30 ) displaceable in the synchronous stone ( 12 ) is recorded. Locking wedge synchronization assembly according to claim 1, characterized in that the from the block ( 14 ) opposite end ( 22 ) the feather ( 16 ) via the sync stone ( 12 ) stands out. Lock wedge synchronization assembly according to claim 1 or 2, characterized in that the synchronous stone ( 12 ) an abutment bridge ( 32 ), that of the blocking stone ( 14 ) facing away from the end ( 22 ) the feather ( 16 ) assigned. Locking wedge synchronization assembly according to one of the preceding claims, characterized in that on the of the blocking stone ( 14 ) facing away from the end ( 22 ) the feather ( 16 ) a bearing element ( 24 ) is arranged. Lock wedge synchronization assembly according to claim 3 and 4, characterized in that the bearing element ( 24 ) to the abutment bridge ( 32 ) adjoins. Lock wedge synchronization assembly according to claim 5, characterized in that the abutment bridge ( 32 ) a slot ( 34 ), which extends in the circumferential direction ( 30 ) and in which the bearing element ( 24 ) is guided displaceably. Locking wedge synchronization assembly according to claim 6, characterized in that the slot ( 34 ) perpendicular to the circumferential direction ( 30 ) is only slightly wider than the one in the slot ( 34 ) engaging portion of the bearing element ( 24 ). Lock wedge synchronization assembly according to one of claims 4 to 7, characterized in that the bearing element ( 24 ) is designed as a bolt. Lock wedge synchronization assembly according to claim 8, characterized in that the bolt is a guide pin ( 36 ) for the spring ( 16 ), a storage plate ( 38 ) and a support head ( 40 ) having. Lock wedge synchronization assembly according to claim 9, characterized in that the synchronous stone ( 12 ) an abutment bridge ( 32 ), wherein the support head ( 40 ) through a slot ( 34 ) of the abutment bridge ( 32 ) and over an outside ( 42 ) of the abutment bridge ( 32 ) protrudes, while the bearing plate ( 38 ) on an inside ( 44 ) of the abutment bridge ( 32 ) is present. Lock wedge synchronization assembly according to one of the preceding claims, characterized in that the spring ( 16 ) between the block ( 14 ) and the sync stone ( 12 ) is kept taut. Manual transmission with a synchronizer body ( 26 ), a sliding sleeve ( 48 ), a synchronizer ring ( 50 ) and at least one preassembled locking wedge synchronization assembly ( 10 ), which contains a sync 12 ), one in the sync 12 ) recorded block ( 14 ) and a spring ( 16 ), characterized in that the spring ( 16 ) in the installed state of the locking wedge synchronization assembly ( 10 ) on the synchronizer body ( 26 ) is supported. Gearbox according to claim 12, characterized in that the preassembled assembly ( 10 ) a locking wedge synchronization assembly ( 10 ) according to one of claims 1 to 9. Gearbox according to claim 13, characterized in that the maximum displacement of the blocking stone ( 14 ) opposite end ( 22 ) the feather ( 16 ) relative to the sync stone ( 12 ) greater than or equal to a maximum displacement of the synchronizer body ( 26 ) relative to the sync stone ( 12 ).