DE102007007369A1 - Synchronization device for manual gearbox, has shaft including hydraulically extendable element for producing clamping force that acts between idle gear and shaft, where idle gear is selectively and rotatably held relative to shaft - Google Patents

Abstract

The device (1) has an idle gear (2) selectively and rotatably held relative to a shaft (6) and applied in a torque-proof manner. The shaft has a hydraulically extendable element (7) to produce a clamping force that acts between the idle gear and the shaft. Multiple hydraulically extendable elements are arranged on the shaft and formed for cooperating with respective idle gears. The hydraulically extendable elements are arranged adjacent to each other and have an elastically expandable extension sleeve that limits a hydraulic space.

Description

Field of the invention

The The invention relates to a synchronizer for a Manual transmission, with the at least one idler gear relative to a shaft optionally rotatably held or rotatably can be placed.

Background of the invention

A Synchronizer is used to shift gear wheels in a transmission. It is in a widespread type of Device associated with an arrangement of synchronizer rings a gear wheel. The arrangement has at least two and often three synchronizer rings, namely a synchronous inner ring, a synchronous outer ring and a synchronizer intermediate ring interposed therebetween. The synchronizer rings are along the axis of rotation of the transmission shaft or along the rotational axis of the synchronizer rings pushed into each other, that the Synchronous outer ring of the synchronous inner ring in the circumferential direction includes. Each synchronizer ring has at least one annular surface on, with during the synchronization of the speeds the transmission shaft with the speeds of the gear wheels to be switched on frictional contact with another annular surface will be produced. Each of the friction surfaces is located on one of the Synchronous rings of a friction surface of another synchronizer ring across from.

It is also known to provide hydraulic elements in such a synchronizer. The axial displacement of synchronizer rings by means of hydraulic actuators, for example, in the US 3,904,006 and in the US 4,055,240 described.

It remains however with the principle, a synchronization by friction elements until a positive engagement between a loose wheel and a shaft part can be produced.

adversely is in these prior art devices that they are relatively many Have components that made relatively expensive sometimes Need to become. This is especially true for the equipped with teeth components. The production of the precise form The gears are complex and therefore expensive. by virtue of the design is also the space requirement of the synchronizer quite high.

Object of the invention

Of the present invention is based on the object, a synchronizer of the type mentioned above so that it with less Components is possible to accomplish the synchronization process. The required components should be as possible simply designed to be inexpensive to manufacture. Furthermore, should also for the synchronizer required space and thus the weight of the device as possible be downsized. Also, this is a cheaper realization the synchronizer are enabled. Yet should reproducibly a speed difference between two components balanced and the torque transmitting connection can be switched between a loose wheel and a shaft. The switching times during synchronization should be as possible be kept low. The device should be so simple, in particular, the previously complicated complicated toothed Components should be dispensable.

Summary of the invention

The Solution of this problem by the invention is characterized in that that the shaft on which the idler gears are arranged at least a hydraulically stretchable element, with one between the idler gear and the shaft acting clamping force can be generated.

The The invention thus provides that by means of a clamping connection a rotation-set the idler gear relative to the shaft should be made. The rotary connection is thus frictional. It comes not - as in the solutions mentioned above according to the prior art - a toothed Component used, which produces a positive connection.

Preferably are several juxtaposed hydraulically stretchable elements arranged on the shaft, which cooperate with each other Losrädern are formed.

The at least one hydraulically stretchable element preferably has one elastically expandable expansion sleeve in the manner of a hydraulic expansion chuck, such as it is known in machine tools that limits a hydraulic space, which communicates with a line for hydraulic fluid stands. The elastically expandable expansion sleeve can be a have hollow cylindrical shape and a bore surface contact the idler gear. The hollow cylindrical, expandable expansion sleeve can be axially largely over the entire width extend the bore surface of the idler gear. But it can alternatively also be provided that each idler gear two expansion sleeves are assigned, each extending over parts of the axial Extension of the idler gear extend, wherein between the two expansion sleeves a bearing is arranged which supports the idler gear relative to the shaft; The bearing is preferably a needle bearing.

Each idler wheel can according to an alterna tive embodiment also be associated with two expansion sleeves, which are arranged laterally next to the idler gear and each contact an end face of the idler gear.

The at least one line for hydraulic fluid can at least partially run inside the shaft. In particular, can be provided be that several lines for hydraulic fluid on different Diameters run inside the shaft, with the lines axially end in annular chambers open into the shaft are incorporated. The various annular chambers are then filled with pressurized fluid (hydraulic oil) acted upon, depending on the pressurized Chamber a corresponding idler gear is rotationally coupled to the shaft. The annular chambers can with a distribution element in Connection, supplied via the hydraulic fluid can be. In the distribution element can be at least one linearly movable Be arranged actuator that compresses hydraulic fluid.

Between the hydraulic line and said linearly movable actuator a membrane can be arranged.

Of the Actuator is according to a possible embodiment, a screw, which sits in a thread in the distribution element. Will the screw rotated by a suitable servomotor, hydraulic pressure is built up, which initiates or produces the clamping between idler gear and shaft.

Of the Actuator may alternatively be designed as a piston with a piezoelectric adjusting element is adjustable. Corresponding becomes when the piezoelectric element with electricity the pressure built up in the hydraulic oil.

The at least one line for hydraulic fluid can according to a alternative design also axially next to a loose wheel in the hydraulic chamber of the hydraulically extensible element open.

to Generation of desired frictional property may eventually be provided that the surface of the hydraulic stretchable element is provided with a suitable coating.

With the proposed embodiment of a synchronizer It becomes possible to rely on the use of complex components To avoid toothing. The hydraulic expansion elements are very small, so that overall a compact design is made possible which is also relatively easy.

Brief description of the figures

In The drawings are embodiments of the invention shown. Show it:

1 a perspective view of a synchronizer with a shaft and a single idler gear in a sectional view during assembly,

2 the arrangement according to 1 , where now four loose wheels are arranged on the shaft after completion of the assembly,

3 an alternative embodiment of the invention, wherein in the view according to 1 a single idler gear is shown on a shaft,

4 a further alternative embodiment of the invention, wherein again in the view according to 1 a single idler gear is shown on a shaft, and

5 the section through a distributor with an actuator to build up hydraulic pressure.

Detailed description the figures

In the 1 and 2 is a synchronizer 1 to see, in 1 an intermediate step of assembly and in 2 the fully assembled device is shown.

The device includes a shaft 6 , on the several loose wheels 2 . 3 . 4 . 5 (S. 2 ) are rotatably mounted. Will be one of the loose wheels 2 . 3 . 4 . 5 to the wave 6 made rotatable, can over the shaft 6 and the corresponding idler gear torque is transmitted. In contrast to prior art synchronizers is provided that the idler gear 2 . 3 . 4 . 5 thereby to the wave 6 rotatably to be made that hydraulically extensible elements 7 be used.

The hydraulically extensible elements 7 Working in the embodiment according to the principle of a hydraulic expansion chuck, as is known in machine tools. In this case, a mostly hollow cylindrical expansion sleeve adjoins a hydraulic space, which is pressurized with hydraulic fluid (hydraulic oil) under pressure. As a result of the pressure, the relatively thin-walled sleeve is stretched, which, in conjunction with a corresponding tolerance to the adjacent component, causes a distortion between two components, in the present case between a loose wheel 2 . 3 . 4 . 5 and the wave 6 ,

As in the 1 and 2 can be seen, here are four hydraulically extensible elements 7 . 8th . 9 . 10 provided by lines 12 be supplied for hydraulic fluid. In particular, one in the 1 and 2 unspecified hydraulic chamber subjected to pressure oil, which is an expansion sleeve 11 of the hydraulically extensible element 7 . 8th . 9 . 10 causes it to widen or bulge so that it to jamming between the idler gear 2 . 3 . 4 . 5 and the wave 6 comes. The radially outwardly widened outer circumference of the expansion sleeve 11 namely presses against a bore surface 13 of the idler gear 2 . 3 . 4 . 5 , The corresponding gear is then switched.

The control of the different expansion sleeves 11 takes place with the illustrated power system, in which several lines 12 for hydraulic fluid at different radii inside the shaft 6 are arranged. The wires 12 open axially at the shaft end in annular chambers, which in turn from a distribution element 18 be supplied with pressurized fluid.

As with the solution according to 1 and 2 can be seen, sits every loose wheel 2 . 3 . 4 . 5 with its bore surface 13 directly on the expansion sleeve 11 of the respective hydraulically extensible element 7 . 8th . 9 . 10 ,

However, this is not mandatory, as out 3 evident. Here is a storage of the idler gear 2 on the wave 6 essentially through a warehouse 14 , which is designed as a needle bearing, but only over the axial center region of the bore surface 13 of the idler gear 2 extends. The needle bearing 14 has the task, in the unswitched state of the idler gear whose bearing relative to the shaft to take, so as to reduce wear of the surface of the expansion sleeve.

In the two axial side areas of the idler gear 2 or its bore surface 13 are two hydraulically extensible elements 7 ' . 7 '' with two expansion sleeves 11 ' and 11 '' arranged by pressurized fluid in the adjacent hydraulic space 20 can be expanded. Incidentally, it is provided here that the supply of pressurized fluid does not take place through the shaft, but at feed points which are located laterally next to the idler gear 2 in the hydraulic room 20 lead. In the embodiment according to 3 can therefore be dispensed with a line system in the shaft, since the actuator here directly on a rotary distributor 18 for hydraulic fluid can be connected to the pressure chamber 20 empties.

Another alternative solution is in 4 to see. Here is the clamping of the idler gear 2 on the shaft 6 not by radially expanding expansion sleeves, but by those that expand in the axial direction when they are pressurized with hydraulic fluid. In 4 are two hydraulically extensible elements 7 ' and 7 '' to see the expansion sleeves 11 ''' and 11 '''' have, when printing task against the two end faces 15 and 16 of the idler gear 2 press.

Because the hydraulically extensible elements 7 ' . 7 '' on the shaft (which is not shown in detail) are arranged rotationally fixed, resulting in tensioning the expansion sleeves 11 ''' . 11 '''' a non-rotatable connection between idler gear 2 and wave 6 , The warehouse 14 (Needle bearing) extends here over the entire width of the idler gear 2 or its bore surface. This will cause a tilting of the idler gear 2 relative to the wave 6 Effectively counteracted; due to the helical toothing of the idler gear 2 there is a tendency to tilt.

In the solution according to 4 results in an advantageous manner, a larger pressing surface with which the expansion sleeves 11 ''' and 11 '''' on the loose wheel 2 can press. This higher torques are transferable. Furthermore, the synchronization times can be shortened hereby.

To generate the hydraulic pressure for expanding the expansion sleeves, the same method can be used as is known for hydraulic expansion mandrels or hydraulic expansion chucks in machine tools. In the embodiment according to 5 are in a distribution element 18 Threaded, in which actuators are screwed in helical form. The threaded holes open into the pipes 12 for hydraulic fluid. Be the screws 19 rotated, for which a suitable electric motor can be provided (shown to symbolize a rotary arrow), builds hydraulic pressure in the line 12 on to the appropriate expansion sleeve 11 to widen.

When applying the hydraulically stretchable elements, speeds between the wheels 2 . 3 . 4 . 5 and the wave 6 adjusted and torque moments are transmitted. By a suitable coating on one of the contact surfaces targeted synchronization of the speeds is favored.

at The assembly becomes the hydraulically stretchable element with the expansion sleeve initially mounted on the shaft and against rotation with this connected. Then the idler gear is rotatable on the expansion sleeve postponed. The last idler gear is through a circlip axially secured. Then the rotary distributor with the actuator (eg electric motor with pressure pin or pump) connected to the shaft.

For the actuators are conceivable different ways as already stated.

Intended can be z. B. a pump, the desired pressure line pressurized at the rotary distributor.

Next is - as in 5 shown - a screwed pressure pin possible, which is connected to the pressure adjacent to the line. If the pressure pin is rotated by an electric motor, the pressure in the line is controlled accordingly.

Of the Pressure pin can also be moved by piezo elements.

used can also be a membrane instead of a pressure bolt.

1

synchronizer

2

Losrad

3

Losrad

4

Losrad

5

Losrad

6

wave

7

hydraulic elastic element

7 '

hydraulic elastic element

7 ''

hydraulic elastic element

8th

hydraulic elastic element

9

hydraulic elastic element

10

hydraulic elastic element

11

expansion sleeve

11 '

expansion sleeve

11 ''

expansion sleeve

11 '' '

expansion sleeve

11 '' ''

expansion sleeve

12

management for hydraulic fluid

13

bore surface

14

camp

15

front

16

front

17

annular chamber

18

distributor (Rotary distributor)

19

actuator

20

hydraulic chamber

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

• US 3904006 [0003]
• - US 4055240 [0003]

Claims (17)

Synchronizing device ( 1 ) for a manual transmission, with at least one idler gear ( 2 . 3 . 4 . 5 ) relative to a wave ( 6 ) optionally rotatably held or rotatably can be placed, characterized in that the shaft ( 6 ) at least one hydraulically extensible element ( 7 . 8th . 9 . 10 ), with which one between the loose wheel ( 2 . 3 . 4 . 5 ) and the wave ( 6 ) acting clamping force can be generated. Synchronizing device according to claim 1, characterized in that a plurality of juxtaposed hydraulically extensible elements ( 7 . 8th . 9 . 10 ) on the shaft ( 6 ) arranged to cooperate with respective loose wheels ( 2 . 3 . 4 . 5 ) are formed. Synchronizing device according to claim 1, characterized in that the at least one hydraulically extensible element ( 7 . 8th . 9 . 10 ) an elastically expandable expansion sleeve ( 11 ) having a hydraulic space ( 20 ) connected to a line ( 12 ) is in communication for hydraulic fluid. Synchronizing device according to claim 3, characterized in that the elastically expandable expansion sleeve ( 11 ) has a hollow cylindrical shape and a bore surface ( 13 ) of the idler gear ( 2 . 3 . 4 . 5 ) can contact. Synchronizing device according to claim 4, characterized in that the hollow cylindrical expandable expansion sleeve ( 11 ) axially substantially over the entire width of the bore surface ( 13 ) of the idler gear ( 2 . 3 . 4 . 5 ). Synchronizing device according to claim 4, characterized in that each loose wheel ( 2 . 3 . 4 . 5 ) two expansion sleeves ( 11 ' . 11 '' ) are assigned, each extending over parts of the axial extent of the idler gear ( 2 . 3 . 4 . 5 ), wherein between the two expansion sleeves ( 11 ' . 11 '' ) a warehouse ( 14 ) is arranged, which the loose wheel ( 2 . 3 . 4 . 5 ) relative to the shaft ( 6 ) stores. Synchronizing device according to claim 6, characterized in that the bearing ( 14 ) is a needle bearing. Synchronizing device according to claim 4, characterized in that each loose wheel ( 2 . 3 . 4 . 5 ) two expansion sleeves ( 11 ''' . 11 '''' ), which are laterally next to the loose wheel ( 2 . 3 . 4 . 5 ) are arranged and the one end face ( 15 . 16 ) of the idler gear ( 2 . 3 . 4 . 5 ) to contact. Synchronizing device according to claim 3, characterized in that the at least one line ( 12 ) for hydraulic fluid at least partially in the interior of the shaft ( 6 ) runs. Synchronizing device according to claim 3, characterized in that a plurality of lines ( 12 ) for hydraulic fluid at different diameters inside the shaft ( 6 ), the lines ( 12 ) axially end in ring chambers ( 17 ) flow into the wave ( 6 ) are incorporated. Synchronizing device according to claim 10, characterized in that the annular chambers ( 17 ) with a distribution element ( 18 ) are connected, can be supplied via the hydraulic fluid. Synchronizing device according to claim 11, characterized in that in the distribution element ( 18 ) at least one linearly movable actuator ( 19 ), which compresses hydraulic fluid. Synchronizing device according to claim 12, characterized in that between the hydraulic line ( 12 ) and the linearly movable actuator ( 19 ) is arranged a membrane. Synchronizing device according to claim 12, characterized in that the actuator ( 19 ) is a screw which is in a thread in the distribution element ( 18 ) sits. Synchronizing device according to claim 12, characterized in that the actuator ( 19 ) is a piston which is adjustable with a piezoelectric adjusting element. Synchronizing device according to claim 3, characterized in that the at least one line ( 12 ) for hydraulic fluid axially adjacent to a loose wheel ( 2 . 3 . 4 . 5 ) in the hydraulic chamber ( 20 ) of the hydraulically extensible element ( 7 . 8th . 9 . 10 ). Synchronizing device according to claim 1, characterized in that the surface of the hydraulically extensible element ( 7 . 8th . 9 . 10 ) is provided with a coating.