DE102007062464A1 - Locking element i.e. pressure piece, for locking shift collar at sleeve carrier in manual transmission of motor vehicle, has latch element biased against shift collar, and corrugated springs supported against each other - Google Patents

Abstract

The locking element (8) i.e. pressure piece (9), has a rectangular-shaped housing (21) with a base (14a), side walls (14b) and a cover (10). The base is aligned transverse to a pressure direction. A corrugated spring (25) is partially enclosed by the housing. A latch element (20) is biased against a shift collar, by the corrugated spring in the pressure direction. The corrugated spring and another corrugated spring (26) are supported against each other. The latch element is formed as a circular cylinder. The cover, the sidewalls and the base are formed as a single-piece.

Description

Field of the invention

The The invention relates to a locking element for latching a first Transmission part on a second transmission part in at least one Stellposition, wherein the locking element with a housing a transversely oriented to the printing direction bottom, side walls and a lid and a spring element, which is located in the housing supported and at least partially encapsulated by this is, and a locking element, by the spring element in the printing direction can be prestressed against the first gear part.

Background of the invention

It is known in the art that such locking elements in different Applications as used in manual transmissions of motor vehicles are. They lock z. B. movable gear elements in shift or dialing positions, so that these gear elements despite Shocks during driving in the remain predetermined parking positions. Such Ge gear elements are z. B. rotatable and longitudinally displaceable switching shafts, longitudinally displaceable Shift rails and swiveling shift pins. The locking elements are biased against a locking contour whose surface in usually by the contour of a resting mountain with elevations and depressions is described. In the given dialing or switching positions locked the locking element in one of Recesses of the catchment area and holds the transmission element in this position. In the past, the professional world was anxious in manual transmissions especially for the latter Applications use locking elements in which consuming in Way longitudinally movable roller bearings locking pin with a ball-mounted locking ball as a locking element in one Housing of the locking element are used. With the use Such rolling bearing locking elements should and should that of the operator on the manual shift lever when dialing and switching noticeable, on the surface generated the moving against the locking element gear elements Hakeln be mitigated. With the ever more frequent use of power-operated or automated manual transmissions is the use of such relatively expensive locking elements often no longer necessary. In their execution simpler, However, robust and inexpensive to produce locking elements are increasingly in demand.

locking elements are also provided in the known clutches, the for the non-rotatable connection of gear wheels are used with a transmission shaft when shifting gears. The shift sleeve of these clutches is on the shift sleeve carrier usually in a neutral position by means of the locking element held. In this position are against the shift sleeve three to four arranged on the circumference of the shift sleeve carrier and biased on the shift sleeve carrier held locking elements. For this purpose, the locking elements are based on the switching sleeve carrier and engage in locking recesses on the sliding sleeve. Farther are also designed as a synchronous clutch clutches Locking elements used in the form of pressure pieces.

A locking element in the form of a pressure piece is in DE 102 25 269 A1 described. A base body of the locking element made of sheet metal is formed shell-shaped with a transverse to the direction of pressure bottom and walls, wherein the base body is covered by a lid opposite in the pressure direction. The lid is held to the base body in the pressure direction along longitudinally movable movable on the base body, wherein the edge of the lid is slipped over the base body. A bow-like spring element is encapsulated by the main body and the lid and biased against this. The main body is supported on a switching sleeve carrier, wherein the spring element is biased against a seated on the shift sleeve carrier shift sleeve and locked in a detent recess. In a switching movement, the shift sleeve initially takes the pressure piece along in the direction of the gear wheel to be switched along, whereby the known synchronization process is initiated. Greater axial resistance to the locking element in further in the direction of the gear wheel longitudinally moving shift sleeve forces the spring element to spring out of the detent recess on the shift sleeve in the direction of the body. The spring element snaps back into the detent recess when the shift sleeve is returned to the neutral position. A disadvantage of the satisfactory solution in itself is that the locking element, in particular when this is used as a pressure piece, can tilt at obliquely introduced forces. By tilting the lid may cause jamming or entanglement between the shift sleeve carrier and the shift sleeve. Furthermore, it is necessary to further reduce the height of the locking element in order to achieve the highest possible stability of the shift sleeve carrier, and to keep the number of components as small as possible.

Summary of the invention

The The object of the invention is to provide a locking element, the opposite obliquely introduced forces is robust, which has a low height, cost-effective make and from as few components consists.

This task is at an object of The preamble of claim 1 solved by the features of the characterizing part of claim 1. Accordingly, at least two spring elements are arranged in the locking element. The spring element are at least partially encapsulated by the housing, wherein the housing on the outside need not necessarily be formed closed. The spring elements allow to build a bias of the locking element relative to the first transmission component. Because they support each other, a particularly high counterforce is generated because at least one spring element can not escape laterally. This principle of the mutually supporting spring elements therefore makes it possible to significantly reduce the height in the pressure direction with the same supporting force. A cross-sectionally T-shaped construction is therefore no longer necessary, and the maximum space required can also be further reduced compared to the previous flat locking elements. Furthermore, the locking element consists of only a few components such as the housing, two spring elements and the locking element.

In a particularly advantageous embodiment of the invention are the Spring elements designed as one or more corrugated springs. Corrugated springs can absorb high forces and at the same time low installation space. They are particularly suitable for automated manual transmissions. The wave springs are preferably supported on all walls of the housing. The inner walls of the housing take over both the leadership of the spring element and the power support.

In a development of the invention is the locking element of the locking element formed as a circular cylindrical body. The circular cylinder can be as a needle or roll across the entire width extend the locking element, or is of boundary walls guided sideways. The cylinder acts as a locking element a first spring element, wherein the contact due to its geometry not like a ball point-like, but linear or even sheet-shaped. This will the possibility of tilting considerably reduces what entails that the spring element no longer has a large, extending in the compression direction area out must be, so that the locking element flat executable is. Alternatively, the locking element is a detent ball.

The relatively small and bulky in their assembly spring elements are captive encapsulated in the locking element, whereby it is possible, the locking element as a whole easy and safe to assemble. The locking element is due to his simple structure to the most diverse application-specific Customizable requirements.

In a variant of the invention, the position and orientation of the Spring elements alone through the housing and the locking element specified. For this purpose, the first spring element in the housing, for example from two opposite side walls so edged that a tilting and twisting of the spring element from its predetermined position is not possible. Under Load deforms the spring element in a precisely predetermined Area. An unwanted tilting can also be prevented By guiding elements the position of the spring element to ensure. The guide elements are either one-piece formed with the housing or separately from this. An example for a guide element is one from the ground towering thorn. The remaining spring elements are preferably clamped between the first spring element.

The Housing of the locking element is cup-shaped with a transversely oriented to the pressure direction bottom and with the floor preferably at right angles angled walls formed trough-shaped. The lid is in relation to the Spring element arranged opposite the ground. Preferably he is angled at right angles from the side walls, so that it is aligned parallel to the ground and thus a cuboid Locking element forms. The lid has a recess in its center for receiving the lockable circular cylinder.

In In another embodiment, the bending radius of the wave spring and the radius of the circular cylinder is adjusted so that at least one linear, better still areal moderate Pressing takes place, whereby the corrugated spring deforms. In this Design, the locking element is particularly robust, in particular opposite obliquely introduced forces. Furthermore, the introduced forces are particularly safe and transferred evenly to the spring element.

In In a next embodiment of the invention, the lid, the side walls and the bottom integrally formed and mold the case. Such a housing is particularly easy to manufacture, as it is easily made of sheet metal can be made by cold forming or plastic z. B. can be injected. In this case, the lid has a rectangular Recess on, in which the locking element is held. The lid itself can not have any further recesses, so that the inside of the case is good against outside Pollution is protected. Alternatively, the Lid, for example, designed as one or more clips, which support the locking element in its predetermined position.

In another embodiment, the Bo formed as a flat surface. Thus, the locking element is particularly flat, which is particularly important for the use of this locking element as a pressure piece in a shift sleeve carrier of importance. The locking element sits in this case in the shift sleeve carrier longitudinally displaceable and requires only relatively small Schaltmuffenträgerausnehmungen by its geometry. As a result, the stability of the shift sleeve carrier, in particular its rigidity is increased, so that it can transmit higher torques.

The Invention thus provides an easy-to-build locking element, which also absorbs oblique forces, as a tilt between the gearbox components to be switched due to the support over the ge entire housing of Locking element is excluded. The described advantageous Embodiments can also be combined with each other.

Brief description of the drawings

The The invention is based on an embodiment explained in more detail. Show it:

1a . 1b an application of an embodiment of the invention in a clutch having a synchronizing unit in section, wherein 1a the shift sleeve in its neutral position and 1b showing the shift sleeve in a switched position,

2 a cross section of a synchronizing unit with a locking element designed as a pressure piece according to the prior art,

3 a cross section of a synchronizing device according to the invention with a locking element according to the invention,

4 a perspective view of a section of a locking element according to the invention,

5 a further perspective view of another section of the locking element after 4 ,

Detailed description the drawings

The 1a and 1b show a synchronous coupling 24 consisting of a sleeve carrier 1 and from a sliding sleeve 2 for optional coupling of the gear wheels 3 and 4 , The gear wheels 3 . 4 are rotatable but longitudinally fixed on a selector shaft 5 stored. The sleeve carrier 1 sits torsionally and longitudinally fixed on the stem 5 and carries on its outer circumference a transmission part 23 in the form of the sliding sleeve 2 , The sliding sleeve 2 is rotatably by means of a toothing to the sleeve carrier 1 and thus the shift shaft 5 but along either in the direction of one of the gear wheels 3 or 4 slidable on the sleeve carrier 1 arranged. On each side of the sleeve carrier 1 is longitudinally between the sleeve carrier 1 and the gear wheel 3 . 4 one set of synchronizer rings each 6 . 7 arranged.

The sleeve carrier 1 takes on its circumference at least three locking elements 8th on, wherein the locking element 8th here only schematically and shown in detail in the following figures. The locking element 8th latched to the sliding sleeve 2 in their neutral position 1a , The locking element 8th is as a pressure piece 9 designed. In the neutral setting position, the locking element is supported 8th on the sleeve carrier 1 radially from and clamped with one in the lid 10 arranged locking element 20 against the shift sleeve 2 in front. The locking element engages 8th with the locking element 20 in a detent recess 11 on the sliding sleeve 2 one.

The from the neutral position after 1a into the switched position ( 1b ) along the sleeve carrier 1 shifted shift sleeve 2 engages in a coupling toothing 12a one with the gear wheel 4 firmly connected clutch disc 12 one. The shift shaft 5 is over the sleeve carrier 1 and the shift sleeve 2 with the gear wheel 4 rotatably connected, causing the the gear wheel 4 associated gear is engaged. During the switching movement of the sliding sleeve 2 in the switched position takes the shift sleeve 2 first in the locking recess 11 engaging latching element 20 along with and moves the locking element 8th against the outer synchronizer ring 13 of the synchronizer ring set 7 , The process of pre-synchronization has been initiated.

The further in the direction of the coupling teeth 12a moving shift sleeve 2 forces the locking element 20 located on the outer synchronizer ring 13 supporting pressure piece 9 from the detent recess 11 , The locking element 20 springs radially. When loosening the gear moves the shift sleeve 2 out of position 1b back to the neutral position after 1a , It engages with bias on the shift sleeve 2 fitting latching element 20 again in the detent recess 11 one.

The 2 and 3 show two synchronizers 24 , wherein it is clear that the pressure piece receiving 14 According to the invention substantially flatter than in the prior art. The locking element 8th has a rectangular cross-section housing 21 on, with only the locking element 20 out of the case 21 protrudes.

The 4 and 5 show a locking element 8th that consists of the four components housing 21 , first wave spring 25 , second wave spring 26 and latching element 20 consists. The locking element 20 is as a zy formed linderförmige role, the center of the lid 10 is arranged. The locking element 20 is in a recess 27 of the lid 10 arranged, it being at its end faces 19 through boundary walls 28 is guided and on its lateral surface 16 through protrusions 29 is held. The locking element 20 acts flat on a first wave spring 25 , acting as a shaped spring in their various load conditions on all walls, both in the lid 10 as well as on the side walls 14b . 14c as well as on the ground 14a supported. This will increase the stiffness of the spring elements 25 . 26 increased again and an unwanted tilting further reduced. The spring ends 30 the first wave spring 25 are aligned with each other. Between the spring ends 30 is a second wave spring 26 arranged at the ends of the spring 30 supported. The second spring element 26 has a curvature in the middle 18 to the locking element 20 towards it, being there with the bulge with the first corrugated spring 25 is in contact, so that when depressing the locking element 20 a particularly high pressing force must be applied to the locking element 20 to move down. The first wave spring 25 and the second wave spring 26 are based on each other approximately in the form of the number "8" from each other and enclose two pockets 17 , Is on the first spring element 25 exerted a pressure builds up through the second spring element 26 that goes through the vault 18 at the point of application of the locking element 20 immediately supports a back pressure. The whole system is thus very stiff, and by this principle of mutually supporting corrugated springs 25 . 26 builds the housing in the pressure direction of the locking element 20 narrower than it is wide or long.

1

sleeve carrier

2

shift sleeve

3

gear wheel

4

gear wheel

5

shift shaft

6

Synchro Set

7

Synchro Set

8th

locking

9

Pressure piece

10

cover

11

latching depression

12

clutch disc

12a

coupling teeth

13

Outer synchronizer ring

14

Pressure piece holder

14a

ground

14b

Side wall

14c

Side wall

15

spring element

16

lateral surface

17

Bags

18

bulge

19

face

20

locking element

21

casing

22

approach

23

transmission part

24

synchronous clutch

25

first Well spring

26

second Well spring

27

recess

28

boundary wall

29

head Start

30

spring end

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 10225269 A1 [0004]

Claims (10)

Locking element ( 8th ) for latching a first gear part ( 23 ) on a second transmission part ( 24 ) in at least one parking position, wherein the locking element ( 8th ): - a housing ( 21 ) with a transversely oriented to the pressure direction bottom ( 14a ), Side walls ( 14b . 14c ) and a lid ( 10 ), - at least one spring element ( 15 ) from the housing ( 21 ) is at least partially encapsulated, - a locking element ( 20 ), which by the at least one spring element ( 15 ) in the pressure direction against the first transmission part ( 23 ) Is prestressed, characterized in that the locking element ( 8th ) at least two spring elements ( 25 . 26 ), which are supported against each other. Locking element according to claim 1, characterized in that the latching element ( 20 ) is formed as a circular cylinder. Locking element according to claim 1, characterized in that at least one spring element ( 15 ) as a wave spring ( 25 ) is trained. Locking element according to claim 1, characterized in that the spring elements ( 25 . 26 ) on the ground ( 14a ), on the side walls ( 14b . 14c ) and on the lid ( 10 ) at least temporarily supported. Locking element according to claim 2, characterized in that the bending radius of the first wave spring ( 25 ) the radius of the locking element ( 20 ) is adapted so that the first wave spring ( 25 ) is deformable by surface pressure. Locking element according to claim 1, characterized in that the bending radius of the wave spring ( 25 ) the radius of the locking element ( 20 ) is adapted so that the corrugated spring is deformable by line pressing. Locking element according to claim 1, characterized in that the lid ( 10 ), the side walls ( 14b . 14c ) and the ground ( 14a ) are integrally formed. Locking element according to claim 1 or 3, characterized in that the housing ( 21 ) is formed substantially cuboid. Locking element according to claim 6, characterized in that the spring elements ( 25 . 26 ) Bags ( 17 ) form. Locking element according to claim 1, characterized in that the locking element ( 8th ) as a pressure piece ( 9 ), the second transmission part ( 24 ) as a sleeve carrier ( 1 ) and the first transmission part ( 23 ) as a sliding sleeve ( 2 ) a synchronous coupling ( 24 ) are formed, wherein the on the sliding sleeve ( 2 ) in the parking position lockable pressure piece ( 9 ) at least temporarily with the sliding sleeve ( 2 ) transversely to the printing direction at least limited by the sliding sleeve ( 2 ) is mitbewegbar.