WO2014019728A1 - Shift unit - Google Patents

Description

 Name of the invention

switching unit

description

Field of the Invention The invention relates to a switching unit. The switching unit has a switching element with a Rastierkontur and a shift lock for securing the position of the switching element with a housing and a locking element, wherein the locking element is biased by a spring against the Rastierkontur. Background of the invention

Generic switching units are used in particular in transmissions of motor vehicles to set switchable or movable elements in a defined position can.

For this purpose, usually engages a spring-loaded ball or a spherically formed portion of a sleeve of Schaltarretierung in a recess in the component to be determined, so that this occupies the desired position and only then can be moved away from this position again, if sufficiently large switching forces are applied.

Such a shift lock is known from DE 41 03 465 C2. It has two sleeve-shaped elements which are arranged coaxially with each other. The one sleeve-shaped part is designed as a carrier element which serves a bore for receiving the other sleeve-shaped part serving as a latching element. The latching element can be moved relative to the carrier element in the axial direction, since the receiving bore in the support element and the cylindrical outer periphery of the latching element form a sliding guide. The latching element carries at the end remote from the carrier element a ball which can engage in a recess in a component for the purpose of latching. The locking element is biased relative to the carrier element by a coil spring.

Another Schaltarretierung that does not require a roller bearing ball is known from DE 103 59 067. The rounded locking element is held on the housing by a board which limits the stroke of the locking element during rebound.

A generic switching unit is apparent from DE 10 2005 053 542 A1. To ensure that the shift lock moves only in the region of the Rastierkontur on the switching element and no inadmissible relative movements are possible, the switching element of this switching unit stops for the housing of the lock on. Although the attacks exclude an excessive axial displacement, but must be worked out of the material of the switching element or connected to this inseparable. In both cases, this means an increased production cost. Object of the invention

The present invention is therefore an object of the invention to provide a switching unit, which has a simple to manufacture safety mechanism for limiting the linear displacement and / or angular displacement, hereinafter summarized under relative movement having.

Summary of the invention

The object is achieved by a switching unit according to claim 1. According to the invention, the maximum possible stroke of the latching element is matched to the latching contour of the switching element such that a departure from the latching contour is reliably prevented. A separate stop on or on the switching element, which cooperates, for example, with the housing of Schaltarretierung, so that is not required. The production of the works, is not necessary. The production of the switching element of a tube or a flat profile is simplified.

According to the invention the Rastierkontur on a profile which is provided at the Schaltend- positions with locking recesses. If the shift lock from the shift end position is not moved back to the neutral gate, but beyond the shift end point, then the locking element is acted upon by the locking contour so strongly that the stroke limiting device abuts a stop and prevents further movement. The height difference to be overcome, as seen from the detent recess, therefore has to be greater than the remaining distance by which the detent element, which is normally prestressed also in the detent recess, can deflect.

For stroke limitation, the shift lock on a Hubbegrenzungsmittel. Conveniently, this is not formed by the spring itself, so that it is not forced to "block" and thus is not overloaded.In a first embodiment, the Hubbegrenzungsmittel is the locking element itself or directly acted upon by the locking element component of Schaltarretierung. The stroke limitation means cooperates with a stop which forms part of the shift lock or of the shift lock receiving component., In a particularly simple manner, the stop is formed by a part of the housing of the shift lock, for example its bottom or an inwardly projecting projection in its wall.

The Hubbegrenzungsmittel prevents according to the invention too strong compression of the locking element. The mounting of the locking element on the housing does not necessarily ensure. In one embodiment, the shift lock on a locking element in the form of a ball, which is mounted in a dome of a liftable with the ball locking bolt. Rear of the ball, the locking bolt on a neck, which serves as a stroke limiting means. The approach is so long that he after the predetermined by the type of Rastierkontur, maximum allowable deflection on the housing of Schaltarretierung strikes.

In the housing, the locking element is held captive. For this purpose, it is for example cup-shaped, with the pot wall being narrowed or constricted. It can also be the pot edge tapers or the pot bottom opposite, free pot end partially covered by a portion of the housing. At the bottom of the pot, the spring can be supported on the opposite end of the pot bottom, the locking element is arranged. The pot wall may be formed as a cylinder jacket or composed of piecewise planar extending pot wall sections. Alternatively, it consists of several spaced apart individual segments. The bottom of the pot is not necessarily flat. The locking element may be formed as a hollow or solid sphere. It can also be designed as a cylinder. Alternatively, it is a sleeve or other, possibly rounded, spring-loaded component. The spring is a spring element which biases the locking element against the housing without the action of external forces. A force applied to the locking element from the outside shifts it towards the bottom of the pot. The spring is preferably designed as a mechanical spring, in particular a helical compression spring.

In one embodiment of the invention has housing on its pot wall on a stop. The stop protrudes from the pot wall and thus projects laterally inwardly out of the pot wall extending essentially in the compression direction of the catch element. It is understood by lateral protrusion every lead. In particular, no right angle is required to form a stop. The stop can be designed as a material thickening or have the same thickness as the pot wall. For this purpose, the pot wall may be provided with inwardly directed exemptions. In a preferred embodiment, the entire housing is pot-shaped and integrally formed.

In a further development of the invention, the housing is produced from sheet metal by forming technology. It may be deep drawn, and the stop for the stroke limiting means may be formed by one or more flaps facing away from the pot wall.

To vent the lock this can be provided with one or more openings. In one variant, the lock on its bottom of the pot has a central opening which is formed as a passage and tuned to the winding radius of the helical compression spring. If the opening has an inwardly facing edge, the spring is held securely. In one embodiment of the invention, the switching element is designed as a shift rod, a shift shaft or a shift rail. The Rastierkontur is either introduced into the shift shaft, for example, by cutting Abhub or it is connected as separately manufactured from the switching element component with this. For this purpose, it can be arranged on a switching sleeve enclosing the switching element or fixed on the switching element as a sheet-metal forming part.

Is a trained as a shift rail switching element only linearly displaceable, the Rastierkontur can be formed by a plurality of substantially mutually parallel and orthogonal to the direction of movement of the shift rail grooves, which can optionally be in the same manufacturing step as the switching element, for example by punching produced. The groove depth of at least the outer grooves with respect to the contour pointing away from the Rastierkontur contour is greater than the remaining stroke, which can perform the locking element in the installed state. The individual grooves are separated by bumps that are smaller than the remaining stroke, so that the shift lock can be moved into each groove. The Rastierkontur may be formed in particular in switching shafts as switching elements by a plurality of circumferential detent recesses in the form of annular grooves. In this case, no radial rotation is possible by the Rastierkontur. Alternatively, the Rastierkontur only single, trough-shaped locking recesses, which can also form a backup against unwanted movement in the circumferential direction. In this case, the Rastierkontur covers only a partial angle range of the switching element.

In a further embodiment, the switching unit has a shift fork, which is arranged on the switching element. The shift lock is firmly connected to the shift fork, so that a movement of the shift fork on the shift element causes a shutdown of the Rastierkontur. Preferably, the shift fork is connected via a guide tube to the switching element. In a further development, the guide tube can have a radially oriented extension, for example in the form of a flange, on or in which the shift lock is arranged. It is particularly easy to press this in it.

In summary, a switching unit is provided by the invention, in which the functions locking and twisting and disassembly safety instead of several components by the shift lock alone causes. The shift lock can therefore not be turned off or moved by the Rastierkontur without external securing means, so that always a defined positioning of the shift fork in the transmission is possible.

Brief description of the drawings

The invention will be explained in more detail with reference to embodiments. FIGS. 1-4 show:

1 shows a first switching unit according to the invention with a schematically illustrated shift lock in longitudinal section, FIG. 2 shows a schematic representation of the individual switching strokes according to FIG. 1,

Figure 3 shows a first shift lock for the switching unit of Figure 1 and

FIG. 4 shows a second shift lock for the shift unit according to FIG. 1

Detailed description of the drawings

Figure 1 shows a switching unit 1 with a switching rod as a switching element 2 and a shift lock 4, which has a locking element 5. The shift lock 4 is biased against a Rastierkontur 3, which is incorporated in the switching element 2. The Rastierkontur 3 has three successive in the switching direction locking recesses 8, in which the locking element 5 can latch. At the respective outer locking recesses 8, in each case a latching edge 21 connects, which merges into the outer diameter of the shift rod, without forming an outer diameter of the shift rod superior bead. The shift lock 4 is firmly connected to a shift fork 13. For this purpose, the shift fork 13 in addition to its fork-shaped body on a guide sleeve 14, via which it is connected to the stationary arranged switching rod and guided on this longitudinally displaceable. The guide sleeve 14 has a transverse to its main extension direction extract 15, in which the housing 10 of the shift lock 4 is pressed. The shift lock 4 is thus firmly connected to the shift fork 13 via the wall 12 of its housing 10.

FIGS. 3 and 4 show two different shifting detents 4 for the shifting unit 1 according to FIG. 1. In the deep-drawn sheet metal housing 10, a latching element 5 is held captive in the form of a ball in each case. The ball is acted upon and biased by a trained as a helical compression spring spring 6. Their winding diameter corresponds to the inside diameter of the Topfes, so that the Schaltarretierung 4 compact builds. With its one end, the spring 6 is supported on the bottom 1 1 of the cup-shaped housing 10, and with its other end it acts on a arranged between the spring 6 and the locking element 5 locking pin 16. The locking pin 16 has the locking element 5 towards a dome shape that picks up the ball. On the rear side, the stop pin 16 has a step 17 in the form of an annular shoulder on which the spring 6 is supported. Inwardly, the step 17 is limited by a shaft 18 which is directed to the bottom 1 1 of the housing. The diameter of the shaft 18 corresponds approximately to the inner diameter of the spring 6, so that it is also guided on the inside and can not tilt. The shaft 18 has a directed to the bottom 1 1 blind hole 19, which reduces the weight of the locking bolt 16.

In addition to the holder of the ball as a locking element 5 and the leadership of the spring 6, the locking pin 16 has a further function: it forms with its bottom end 20 which can strike the pot bottom 1 1, together with the bottom 1 1 of the housing 10, the Hubbegrenzungsmittel 7. The possible maximum stroke h of the locking element 5 is determined by the length of the shaft 18, wherein the shaft length is at least chosen so that the spring 6 is not driven to block.

Figure 2 shows the relationship between the maximum stroke h of the locking element and the design of Rastierkontur 3. The Rastierkontur 3 has, as described for Figure 1, three linearly successively arranged Rastvertie- tions 8 in trough shape, which are bounded on the outside by flanks 21. In the present case, the flanks 21 directly adjoin the outer latching recesses 8. The locking recesses 8 are formed as machined diameter reductions of the shift rod. The shift rod has a shaft diameter D at its non-diameter-reduced cross sections. In the locking recesses 8, which each have the same depth in the present example, the diameter of the shift rod is reduced to the value d. The predetermined by the design and arrangement of the shift lock 4 maximum stroke h, which is between the position in which the locking element 5 is in a locking recess 8, and the position in which the locking pin 16 abuts the bottom 1 1, is smaller than that Difference of the diameter Dd. As a result, the shift lock 4 is displaceable with respect to the switching element 2 only in a switching position range 9, which is part of the Rastierkontur 3. In order to ensure a stable fuse, the height difference H to be overcome, which here is formed by the diameter difference Dd, exceeds the maximum stroke h of the shift lock 4 by 20%. Thus, the shift lock 4 is always held in a defined position on the switching element 2.

LIST OF REFERENCE NUMBERS

1 switching unit

 2 switching element

3 locking contour

 4 shift lock

 5 locking element

 6 spring

 7 stroke limitation means

8 locking recess

 9 switch position range

 10 housing

 1 1 floor

 12 wall

13 shift fork

 14 guide sleeve

 15 extract

 16 stop bolts

 17 level

18 shaft

 19 blind hole

 20 bottom end

 21 flank h maximum stroke

 H height difference

d diameter

 D shaft diameter

Claims

Patent claims Switching unit (1). - a switching element (2) with a locking contour (3) and - a switching lock (4) to secure the position of the switching element (2) with a housing (10) and a locking element (5), the locking element (5) being held against the locking contour by means of a spring (6). (3) is prestressed, - characterized in that the switching lock (4) has a stroke limiting means (7) which limits the deflection of the locking element (5) in such a way that the maximum stroke (h) of the locking element (5) is smaller than the height difference (H) of a locking recess ( 8) and a flank (21) adjoining the locking recess (8). Switching unit according to claim 1, characterized in that the stroke limiting means (7) is designed as a bolt acting on the locking element (5), which is arranged to be movable in a cup-shaped housing (10) with a base (1 1) and a cup wall (12). , whereby the bolt hits the floor (1 1) or the pot wall (12) to limit the stroke. Switching unit according to claim 1 or 2, characterized in that the switching element (2) is designed as a switching shaft with a locking recess (8), the maximum shaft diameter (D) being reduced by the diameter (d) at the lowest point of the locking recess (8) is greater than the maximum stroke (h) of the locking element (5). 4. Switching unit according to one of the preceding claims, characterized in that the switching lock (4) and one on the Switching element (2) arranged switching fork (13) are arranged firmly to one another. Switching unit according to claim 4, characterized in that the switching fork (13) has a guide sleeve (14) for guidance on the switching element (2), which has a radially directed extension (15) for receiving the switching lock (4). Switching unit according to one of the preceding claims, characterized in that the locking contour (3) in the cross section of the switching element (2) only covers a partial angular range. Switching unit according to claim 1, characterized in that the switching lock (4) has a locking bolt (16) between the locking element (5) and the spring (6) is arranged, the locking bolt (16) being the stroke limiting means (7) forms. 8. Switching unit according to claim 1, characterized in that the maximum stroke in the installed state is less than 2mm.