DE102008026181A1 - Shifter mechanism for shift gear box, has fork rakes covered in region of tooth inner wall, which faces central axis such that fork rakes form cross aligning stop defining shift fork positions - Google Patents

Abstract

The mechanism has a shifting element (1) formed as a hollow shaft and movable along and pivotable around its central axis (X) in different shifting element positions (W1-W3). The element is provided with through holes at axial height of a lug (2). Fork rakes (5, 6) are sectionally insertable into the through holes in the rage of lateral extension. The fork rakes are covered in a region of a tooth inner wall facing the central axis such that the fork rakes form a cross aligning stop defining shift fork positions (Q1, Q2).

Description

Field of the invention

The The invention relates to a switching mechanism for a Gearbox according to the preamble of the claim 1.

Background of the invention

The invention applies to all displaceable circuit parts such as shift forks, shift rails and shift rails are transmitted via the Betätigungskräfte- or movements and for this purpose have one or more actuators in the form of driving lugs such as shift fingers, which engage in a fork-shaped shift jaw and when actuated the Move circuit part accordingly linear. The movement is often limited by end stops in the transmission to avoid, for example, faulty circuits. The stops are formed on the housing. In such arrangements, due to the sum tolerances of manufacturing and assembly tolerances of the parts and the system, it is difficult to meet the required accuracies required for precise selection or shifting. A switching mechanism of this type is made DE 198 05 924 A1 known.

Object of the invention

Of the Invention has for its object to show solutions which makes it possible, in a below production engineering Aspects relatively inexpensive to accomplish, an improvement in the functional properties of a generic To achieve switching mechanism.

invention solution

These The object is achieved by the embodiment a switching mechanism of the type mentioned in accordance with the specified in the characterizing part of claim 1 features solved.

Of the End stop is realized by on the switching jaw, so that end stops omitted in the transmission. The precision of the mechanics is essential improved. It is possible in an advantageous manner, a switching mechanism to provide for a manual transmission in which the through Pivoting a running as a hollow shaft switching element approached end positions of the forked Schaltmäuler especially precise and with a short tolerance chain directly through the vote of the inner contour of the forks of each Schaltmauls can be determined.

According to one particularly preferred embodiment of the invention the Zinkeninnenwandung designed such that these when they reach the corresponding shift fork position or the position of another Circuit part on the outer peripheral wall of the switching element strikes. It is possible here, at the Outer circumferential wall of the switching element abutting Zinkeninnenwandungsabschnitt in terms of its wall curvature on the wall curvature the outer wall of the switching element to vote such that a system in the form of a point or line contact results. Furthermore, it is also possible, the contact surface curvatures to coordinate so that in this case a surface Plant results.

alternative to the above measure, or in particular in Combination with this it is possible to the Zinkeninnenwandung to make such that they reach the corresponding shift fork position the switching element passes through radially and at one in the switching element inserted core shaft strikes. In this embodiment it is again possible, the stop characteristic by corresponding design of the contact surfaces a punk, Match line or surface contact.

The in the switching element formed openings are preferably in terms of their geometry on the geometry of the forks tuned that penetration of sections of the forks in these recesses is only possible if the driving lug in a correct driving position in the engagement recess the respective switching mouth is located. In this regard is it is particularly possible in the axial direction of the switching element measured width of the openings and the wall thickness of the forks to coordinate so that the forks under a possible dive small axial play in the aforementioned openings can. The marginal edges of the openings and the forks can be designed as chamfered edges so that some alignment support is achieved becomes.

The fork-shaped Schaltmäuler are preferably designed to have a circumferential angular range of about 180 Degree of particular as a switching shaft or shift sleeve engage around acting switching element. The as stop surfaces functioning inner wall sections of the forks preferably in each other with respect to the central axis of the switching element diametrically opposite zinc zones.

The / vorgese for lateral displacement of the Schaltmauls and thus the circuit part Hene driving lug / shift finger can be made as a separate component, which is connected via a material connection, in particular a weld to the switching element. It is possible to form on the element Schaltele an opening, in which a foot portion of the driving lug can be used, in particular can be pressed. The intended for connection of the driving lug weld may optionally be applied from the inside of the switching element forth on the inner edge region of the opening and on the dipping into the opening foot region of the driving lug. The driving lug is designed in terms of its with the inner wall of the engagement recess in contact passing wall regions that they can be easily tilted without significant change in the lateral movement play in the engagement recess. For this purpose, the driving lug is preferably designed such that its outer wall regions which come into contact with the inner wall of the engagement recess comprise convex bulging wall sections. Overall, the switching mechanism is preferably designed so that for the displacement of the shift fork from one end position to the other, a swivel angle in the range of 20 ° -40 ° is overcome. The openings are preferably adjusted in terms of their circumferential length so that a sufficient residual strength of the shift rod 1 is ensured.

The can be operated by the driving lug actuated circuit parts in close packing in the axial direction of the switching element, that is as a package in a row and across to their direction of displacement be arranged. Alternatively, it is also possible the circuit parts such as shift forks leaving a larger Axial distance to arrange sequentially.

The inventive concept for precisely limited radial or lateral displacement of the circuit parts opposite the longitudinal axis X of the switching element is also suitable for Actuation of only a single circuit part. Furthermore suitable This concept also serves to accomplish other switching functions with change transmissions.

The Switching element can be designed as a switching shaft or shift sleeve be with a substantially circular-ring-like cross-section. The Switching element can also be a non-round, in particular a longitudinal corrugations have forming cross-section. Inside the switching element can Guiding structures, in particular plastic webs arranged be through which a leadership of other inserted transmission organs, In particular, the aforementioned core rod can be achieved. The named core bar can be used both as an actuating structure for axial displacement, as well as used for pivoting the switching element. The Core rod can also continue as a leadership structure for leadership serve the switching element. The switching element is for example longitudinally displaceable and pivotable by means of the core rod stored in a switching dome. The switching element can in this case For example, be a locking sleeve, on which a shift finger is designed as a driving lug.

At the switching element according to the invention can according to a particular aspect of the present invention Invention also backdrop structures and axial stops formed through which the positioning of the switching element and possibly the backup of the same in a required switching position supported becomes. The switching element is alternatively formed like a roller and provided for example with guideways.

The Switching element according to the invention is mounted in such a way that this is at least pivotable about its longitudinal axis. The switching element can be designed so that this section protrude from a transmission housing. It is also possible, to make the switching element so that this completely is housed within the gear housing and over internal switching elements is actuated. The design of the switching element as a hollow, sleeve, or shell structure can be limited to a relatively short axial area.

The Switching element can also be provided with retracted areas over which inner wall surfaces sitting directly on the core rod to be provided.

Brief description of the figures

Further Details and features of the invention will become apparent from the following Description in connection with the drawing. It shows:

1 a perspective view of a switching mechanism according to the invention for a manual transmission in a "zero position",

2 a perspective view of the switching mechanism in a switching position with maximum shift fork shifted to the right,

3 a plan view to illustrate further details of the switching mechanism according to the invention,

4 a plan view of a switching mechanism according to a second embodiment of the invention.

Detailed description the figures

In the 1 shown switching mechanism for a transmission comprises a switching element 1 , which is designed as a sleeve or hollow shaft and along its central axis X in different Schaltelementaxialpositionen W1, W2, W3 is displaceable. The switching element 1 is also pivotable in the circumferential direction upon reaching this Schaltelementaxialpositionen W1, W2, W3.

To the switching element 1 is a takeaway nose 2 connected in the radial direction over the outer peripheral wall U of the switching element 1 hervorkragt.

The switching mechanism further comprises at least one, preferably several in the longitudinal direction of the switching element 1 sequentially arranged switching arms 3 with fork-shaped Schaltmaul, each one to import the takers nose 2 provided engagement recess 4 exhibit. These switching arms 3 are in the context of pivoting the switching element 1 by the appropriately retracted driving lug 2 from the zero position shown here in a first shift fork position Q1 and a second shift fork position Q2 displaced and thus, for example, not shown shift forks, where the shift arm 3 is attached.

The respective switching mouth is further designed such that this first fork 5 and a second fork 6 has, with these two forks 5 . 6 each with one of the central axis X of the switching element 1 facing tine inner wall 5a . 6a are provided.

The switching element 1 is designed such that this at axial height of the driving lug 2 with a first and a second aperture 1a . 1b is provided, these openings 1a . 1b designed such that the forks 5 . 6 in the area indicated here zones AL5a and AL6a sections in these openings 1a . 1b are retractable.

The switching mechanism according to the invention is characterized in that the first fork tines 5 and the second fork 6 in the region of their, the central axis X facing Zinkeninnenwandung are designed such that the forks form a the first and the second switching position Q1, Q2 defining transverse stop.

In the embodiment shown here are the Zinkeninnenwandungen 5a . 6a designed such that these on reaching the shift fork positions Q1 and Q2 on the outer peripheral wall U of the switching element 1 attacks. The indicated in this illustration switching position Q2 is doing by striking the Zinkeninnenwandung 5a on the outer peripheral wall U of the switching element 1 certainly.

The shift position Q1 of the shift fork 3 is by striking the Zinkeninnenwandung 6a set on the peripheral wall U.

In the embodiment shown here, the tine inner wall sections 5a . 6a designed so that these flat surfaces form, in the form of a line contact the switching element 1 or contact the outer peripheral surface U thereof. Alternatively, it is also possible, these Zinkeninnenwandungsabschnitte 5a . 6a to be designed in such a way that this results in a two-dimensional layout.

The position as well as the geometry of the openings 1a . 1b of the switching element 1 is preferably tuned so that a dipping of the Axialverriegelungsabschnitte shown here AL5a and AL6a in the recesses 1a . 1b becomes possible only when the driver nose 2 sufficiently deep into the engagement recess 4 has penetrated. These Axialverriegelungsabschnitte AL5a, AL6a can be designed so that this possibly also blocking functions within the switching element 1 can be realized.

2 shows the switching mechanism according to the invention in a switching state in which the shift fork 3 by pivoting the switching element 1 is shifted to the position Q1. In this position sits the tine inner wall 6a of the fork tine 6 at the here indicated contact point Z1 on the outer peripheral wall U of the switching element 1 on.

The driving nose 2 takes within the Mitnehmerausnehmung 4 the here recognizable inclination and contacts the inner peripheral wall of the recess 4 via a bearing surface designed as a cylinder segment. The driving nose 2 is designed so that even in this oblique position only required for sufficiently smooth movement side play between the drive lug 2 and the wall of the engagement recess 4 consists.

In 3 is the contour of the switching jaw according to the invention and the switching element provided for the lateral displacement thereof 1 further illustrated. The indicated here end shift positions Q1 and Q2 are determined by the Innenumfangswandungen 5a . 6a the forks 5 . 6 locally on the outer peripheral wall U of the switching element 1 attacks. In these positions, the points Z1, Z2 indicated here move into the region of one between the contact points K1 and K2 extending connecting line L, said connecting line L also through the central axis X of the switching element 1 runs. As a result of this special position of the contact points K1, K2 and the circumferential points Z1, Z2 of the switching element coming into contact with them, a particularly short tolerance chain and thus particularly precise positioning of the switching arm in the lateral direction is achieved. Furthermore, it is advantageously ensured that a pivoting of the driving lug 2 within the engagement recess U becomes possible only when the driving lug 2 in a correct axial position within the engagement recess 4 located.

For the in 4 illustrated embodiment, the foregoing statements apply largely mutatis mutandis. Notwithstanding the above-described embodiment, the shift jaw is designed such that the fork tines provided by this second variant 5 . 6 so far in the switching element 1 can immerse that the end positions Q1, Q2 by way of contacting the Zinkeninnenwandungen 5a . 6a with the outer peripheral wall U7 one in the switching element 1 used core shaft 7 be determined.

Also in this embodiment, the connecting line L of the contact points K1, K2 passes through the axis X of the switching element 1 , The recognizable in this representation boundary surfaces F1, F2 of the openings 1a . 1b can be designed so that on reaching the end positions Q1, Q2, these surfaces F1, F2 also come into contact with contact zones Z3, Z4 or the forks. By this special measure, it becomes possible, the maximum swivel angle range of the switching element 1 set against the shift mouth and a possible overload of the drive lug 2 submissions.

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 19805924 A1 [0002]

Claims (10)

Switching mechanism for a manual transmission, comprising: - a switching element ( 1 ) which is designed as a hollow shaft and along its central axis (X) in different switching element positions (W1, W2, W3) displaceable and in the respective switching element position (W1, W2, W3) about the central axis (X) is pivotable, - a driving lug ( 2 ) connected to the switching element ( 1 ) is connected and in the radial direction over the outer peripheral wall (U) of the switching element ( 1 protruding, - several in the longitudinal direction of the switching element ( 1 ) arranged successively Schaltmäuler the one each for importing the driving lug ( 2 ) provided engagement recess ( 4 ) and in the context of pivoting the switching element ( 1 ) by the retracted drive lug ( 2 ) transversely to the longitudinal axis (X) of the switching element ( 1 ) in a first position (Q1) or in a second position (Q2) are displaceable, wherein at least one of the Schaltmäuler a first fork ( 5 ) and a second fork ( 6 ) each having one of the central axis (X) of the switching element ( 1 ) facing Zinkeninnenwandung ( 5a . 6a ), and - the switching element ( 1 ) at axial height of the driving lug ( 2 ) with a first and a second opening ( 1a . 1b ) is provided in which the first and the second fork tines ( 5 . 6 ) is partially retractable in the context of the corresponding lateral displacement, characterized in that - that the first fork tines ( 5 ) and the second fork ( 6 ) is in each case designed in the region of the respective tine inner wall facing the central axis (X) such that the fork tines ( 5 . 6 ) form a transverse stop defining first and second shift fork positions (Q1, Q2). Switching mechanism according to claim 1, characterized in that the Zinkeninnenwandung ( 5a . 6a ) is designed such that, upon reaching the corresponding position (Q1, Q2) on the outer peripheral wall (U) of the switching element (Q) 1 ) strikes. Switching mechanism according to claim 2, characterized in that on the outer peripheral wall (U) of the switching element ( 1 ) abutting Zinkeninnenwandungsabschnitt ( 5a . 6a ) with respect to its wall curvature on the wall curvature of the outer peripheral wall (U) of the switching element ( 1 ) is tuned so that there is a surface investment. Switching mechanism according to claim 2, characterized in that on the outer peripheral wall (U) of the switching element ( 1 ) abutting Zinkeninnenwandungsabschnitt ( 5a . 6a ) With respect to its wall curvature on the wall curvature of the outer peripheral wall of the switching element is tuned such that there is a plant in the form of a point, or line contact. Switching mechanism according to claim 1, characterized in that the Zinkeninnenwandung ( 5a . 6a ) is designed such that this on reaching the corresponding shift fork position (Q1, Q2) on the outer peripheral wall (U7) one in the switching element ( 1 ) core rod ( 7 ) strikes. Switching mechanism according to claim 5, characterized in that on the outer peripheral wall (U) of the core rod ( 7 ) abutting tine inner wall section with respect to ( 5a . 6a ) of its wall curvature on the wall curvature of the outer peripheral wall (U7) of the core rod ( 7 ) is tuned so that there is a line contact. Switching mechanism according to at least one of claims 1 to 6, characterized in that the driving lug ( 2 ) in its with the inner wall of the engagement recess ( 4 ) in contact wall region comprises convex bulging wall sections. Switching mechanism according to claim 7, characterized in that the driving lug ( 2 ) to the switching element ( 1 ) materially bonded, in particular welded. Switching mechanism according to claim 7 or 8, characterized in that the driving lug ( 2 ) has a foot portion in a in the switching element ( 1 ) formed recess is anchored. Switching mechanism according to at least one of claims 1 to 9, characterized in that in the axial direction of the switching element ( 1 ) measured width of the two openings ( 1a . 1b ) in the axial direction of the switching element ( 1 ) measured wall thickness of the associated immersion portion (AL5a, AL6a) of the fork tine ( 5 . 6 ) corresponds.