DE102012215418A1 - Locking mechanism for parking brake for shift operation in motor car, has control element which is moved in active position in adjustment direction, and locking element is moved in reverse direction with angles of adjusting direction - Google Patents

Abstract

The mechanism (10) has a latch arrangement (7) which is moved into locking position by the adjustment of operating element (3) in active position. The control element (6) and the locking element (5) have a translational degree of freedom in the locking position or in movement from locking position. The control element is moved by the adjustment of operating element in active position in the adjustment direction (S), and the locking element is moved in reverse direction (E), with the adjusting directions of 0 degree and 180 degree and including various orthogonal angles.

Description

The present invention relates to a locking mechanism, preferably for switching operations in a motor vehicle, in particular for a parking lock, comprising a support member, a relative to the support member in at least one locking position and out of this movable and lockable in the locking position switching member, a latch assembly having at least one locking body and at least one control body separate therefrom, the latch assembly being adjustable relative to the support member to and from a locked position relative to the support member at least when the shift member is in the lock position, the latch assembly locking the shift member in the lock position in the locked position , And by adjusting the latch assembly from the locked position, a movement of the switching member is released from the locking position out, as well as a separate from the latch assembly formed actuating element, which is at least when the switching member is in the locking position, relative to the support member in an active position and out of adjustable, wherein by adjusting the actuating element in the active position, the latch assembly is moved to the locked position.

Such a locking mechanism is for example from the document EP 1 099 067 B1 known. In this case, the locking mechanism is used to lock a parking brake of a motor vehicle in the designed state. The locking arrangement in EP 1 099 067 B1 in each case comprises a ball as a blocking body and as a control body, wherein these two balls are arranged in the blocking position of the locking arrangement so that they both engage with a piston acting as a switching component and with a stationary in a Support member provided recess and lock in this way, the switching member relative to the support member in the locking position. As an actuating element acts in EP 1 099 067 B1 driven by a solenoid pin with a conical surface, which presses in particular the locking body of the latch assembly upon adjustment of the actuating element in the active position in the aforementioned recess.

In the aforementioned generic locking mechanism arises when releasing the lock, so when the actuator is to be adjusted out of the active position, Coulomb friction between the balls sliding past each other. In order to reliably overcome this Coulomb friction, a relatively large restoring force for the actuating element is necessary, for example, by a relatively strong, acting on the pin of the solenoid return spring. However, therefore, a large force is necessary to overcome this restoring force in the adjustment of the actuating element in the active position, for example by a correspondingly designed lifting magnet.

Against the background of this prior art, the object of the present invention is to develop the known locking mechanism so that an adjustment of the actuating element from the active position and thus a release of the mechanism with a lower force is made possible.

This object is achieved in that in a generic locking mechanism of the control body and the locking body, at least in the locked position or in a movement out of the locking position beyond only one translational degree of freedom, the control body by the adjustment of the actuating element in the active position is moved only in a direction of adjustment and he moves the locking body only in a reverse direction, which includes with the adjustment direction of a different angle of 0 ° and 180 ° and preferably extends substantially orthogonal to the direction of adjustment.

According to the invention, therefore, the control body and the locking body are guided in mutually inclined, preferably mutually perpendicular directions, at least in the vicinity of the blocking position. The translation degree of freedom here refers only to a movement of the respective center of gravity of the control body or blocking body. As a result, the condition is created that when releasing the lock, that is, in the moment in which the actuating element is moved out of the active position, the control body can roll on the locking body. Since rolling friction is significantly less than Coulomb friction, significantly lower forces must be used in the locking mechanism according to the invention to overcome the friction and thus to move the latch assembly out of the locked position.

In order to prevent undesired states of the locking mechanism, it can be provided that the locking arrangement can only be brought into the blocking position when the switching component is in the locking position or, in the case of a plurality of locking positions, in one of these locking positions.

In order to facilitate the rolling of the control body on the locking body during adjustment of the actuating element from the active position, it can be provided that the control body and the locking body, at least in the blocking position touch the latch assembly only at one point or only along a line that is substantially orthogonal to the reverse direction and perpendicular to the direction of adjustment. Here, the touch in a point or a line is to be understood as a touch in a contact surface, which results from a contact point or a Berührlinie in unpressurized contact due to the Hertzian pressure occurring during operation of the mechanism under pressure between the locking body and the control body.

Furthermore, the rolling can be promoted by the fact that the control body is a rolling body, that has a favorable contour for rolling, for example, at least partially corresponding to the contour of a roll or ball.

In particular, the control body may be rotationally symmetrical with respect to an axis which is orthogonal to the direction of adjustment and the locking direction in order to promote a rolling. Preferably, the control body is spherical.

Correspondingly, the adjusting body may also be a rolling body which is preferably rotationally symmetrical with respect to an axis which is substantially orthogonal to the setting direction and the blocking direction, wherein the setting body particularly preferably also has a spherical shape.

According to a preferred embodiment, the blocking body and the control body are each rotationally symmetrical components with respect to mutually parallel axes of symmetry, which are substantially perpendicular both to the blocking direction and to the adjusting direction, wherein the two axes of symmetry (X5, X6) in the blocking position of the locking arrangement ( 7 ) lie in a plane which is perpendicular to the adjustment direction (S), since in this configuration a particularly favorable force transmission in the reverse direction is made possible.

The locking mechanism can be structurally realized in a simple manner by providing in the support member a through-hole for guiding the movement of the locking body in the blocking direction, wherein when the switching member is in the locking position and the locking arrangement in the blocking position, a portion of the locking body projecting from the support member in the reverse direction, and this portion is in engagement with a corresponding recess provided in the switching member.

On the one hand to allow engagement with the latching recess in the blocking position and at the same time an interaction with the control body in a simple manner, it can be provided that a dimension of the support member in the reverse direction is smaller than a dimension of the blocking body in the reverse direction.

Preferably, however, the dimension of the support member in the reverse direction is greater than a displacement amount of the locking body in the reverse direction during the entire adjustment movement of the latch assembly so that the locking body remains guided during its entire adjustment by the provided in the support member through hole in the reverse direction.

In particular, in the configuration described above, in which engages in the blocking position of the locking body in a provided on the switching component latching recess, be provided that a surface of the recess at least in a portion relative to a direction of movement of the switching component in a movement out of the locking position out and opposite the reverse direction is inclined. Such an inclination of the surface of the recess allows a force is generated on the locking body against the reverse direction by an adjustment of the switching component from the locking position, which, together with the adjustment of the actuating element from the active position ensures that the Block body and thus the latch assembly moves out of the locked position.

If it is desired that the switching component can be locked in a plurality of different locking positions, for example, a plurality of different latching recesses may be provided in the switching component, which are preferably spaced apart in the direction of movement of the switching component.

Easily controllable switching movements can be achieved in that the switching member is movable by a linear movement, preferably only by a linear movement or by a rotary movement, preferably only about an axis, in the locking position and out of this.

In order to enable a locking mechanism with a small footprint, it is preferred that the switching member and the actuating element move parallel to each other, so that the switching member is movable only by a movement in the direction of adjustment or in the opposite direction in the locking position or out of this.

Alternatively it can be provided for the same purpose that the switching member and the actuator are rotatable only about the same axis, or that one of the aforementioned components only one axis rotatable and the other is only translationally movable along this axis.

Safe guidance and smooth operation of the switching movements can be made possible by the fact that the switching component and / or the actuating element are roller-mounted.

In order to provide a plurality of latch arrangements in a space-saving manner in a locking mechanism and to operate with a single actuator, it is preferred that the support member and / or the switching component and / or the actuator are rotationally symmetrical with respect to an axis of symmetry in the direction of adjustment. In this case, the rotational symmetry of the support component or / and the switching component may be an n-fold symmetry, where n may be the number of different latch arrangements which may be distributed radially about the common axis of symmetry and at regular angular intervals therearound, What can be provided for this purpose in the support member or the switching component for this purpose n corresponding through holes or recesses.

For example, all the aforementioned components may be arranged rotationally symmetrical with respect to an axis and coaxially with each other. In order to achieve a favorable surface pressure between the locking body and a radially outer switching member in the locking position of the latch assembly, it may be provided in particular that the locking body is a roller with a convex generatrix, and the control body is a roller with a concave generatrix, the is complementary to the convexity of the barrier body. The blocking body may therefore be a spherical roller, that is to say a roller whose diameter in the middle is greater than at the edge and in which the control body is a so-called hollow roller, ie a roller whose diameter in the middle is smaller than at the edge , Of course, the above configuration may also be the other way around, so the control body a spherical roller and the locking body to be a hollow role.

Preferably, the actuating element can be rotationally symmetrical with respect to an axis of symmetry in the direction of adjustment and relative to the support member rotatable about this axis of symmetry, so that the rolling movement of the control body can be initiated on the locking body upon release of the lock by a rotation of the actuating element.

It is preferably provided that the locking mechanism further comprises a stop which limits a movement of the control body in the adjusting direction, wherein the stop is preferably part of the support member. In this way, for example, a defined locking position can be ensured regardless of a mounting situation of the locking mechanism.

It can be provided that the actuating element is manually adjustable to and from the active position (eg by a cable pull) and / or the locking mechanism for this purpose is a magnetic, electric, spring-driven, hydraulic or pneumatic drive or a combination thereof. For example, a solenoid for adjusting the actuating element, be provided, which may be biased by a return spring from the active position.

It can be provided that the actuating element between the active and an inactive position is adjustable, and / or the locking arrangement between the blocking position and a release position is adjustable. In particular, by adjusting the actuating element from the active to the inactive position or from the inactive to the active position, the locking arrangement can be moved from the blocking position to the release position or from the release position to the blocking position, optionally with the cooperation of, for example, the switching component.

In order to prevent the blocking body and the control body from undesirably leaving, for example, a receiving space provided for the locking arrangement, it can be provided that, in the release position of the locking arrangement, the blocking body is prevented from moving in the direction opposite to the blocking direction, preferably through the control body. For example, it can be prevented that the blocking body leaves a provided in the support member for guiding the locking body through hole.

Typically, the actuator may be biased out of the active position (eg, toward the inactive position) and / or the switching member may be biased toward movement out of the latched position (eg, toward the release position).

Preferably, the locking mechanism may comprise a plurality of latch arrangements as described in connection with the invention, in particular a plurality of similar latch arrangements, which may for example be arranged radially to a common axis. This can be provided in particular in a locking mechanism with an axisymmetrically designed with respect to this axis actuator.

The locking mechanism according to the invention described above can be used for a variety of switching operations, especially in the field of motor vehicles or any other vehicles, but especially in a parking brake.

In the following, the present invention will be explained in more detail with reference to a particularly preferred embodiment, which is illustrated in the accompanying figures. Showing:

1 Essential components of a locking mechanism according to a first embodiment of the invention in a highly simplified, schematic representation in a longitudinal sectional view in a first end position, wherein the switching member are in the locked position, the latch assembly in the locked position and the actuating element in the active position.

2 shows the item of 1 in an intermediate position.

3 shows the item of 2 in a second end position, wherein the switching member is in the starting position, the latch assembly in the release position and the actuating element in the inactive position.

4 shows the item of 1 in a cross-sectional view along the line IV-IV in 1 ,

It should be noted that all figures are very simplified schematic drawings, which are intended to illustrate the principle of the invention, and in particular are not to scale.

1 shows a locking mechanism 10 according to a first embodiment of the present invention, which can be used in particular for a parking brake of a motor vehicle. The locking mechanism 10 includes, for example, on a vehicle body 17 firmly attached support component 2 and a relative to the support member 2 in at least one locking position and movable out of this and lockable in the locking position switching component 1 ,

In the in 1 shown state is the switching component 1 in the locking position and is there by the latch assembly 7 locked, which is a locking body 5 and a control body 6 includes, in both cases may be rolling, in particular rollers or balls.

The switching component 1 can be so on the support member 2 be provided that it can move linearly only along a direction of movement B, wherein such movement in the in 1 illustrated state by the latch assembly 7 is prevented, present in that the locking body 5 For example, in a on the switching component 1 provided latching recess 11 engages and from the control body 6 in cooperation with the support component 2 is prevented from getting out of the 1 To move out the position shown.

In the in 1 shown state, the control body 6 the locking body 5 in a locking direction E in the recess 11 push in. The tax body 6 in turn can of an existing as a support angle actuator 3 in cooperation with the support component 2 be held and guided.

The actuator 3 is along a direction of adjustment S (ie in this and opposite to this) movable on the support member 2 provided and can in the direction S in the in 1 shown active position and opposite to the adjustment direction S from the active position to be adjusted out.

As in particular by looking at the 1 to 3 it can be seen that the control body 6 and the locking body 5 in the locking mechanism according to the invention each guided so that they at least in the locked position of the latch assembly ( 1 ) or in the movement out of the blocking position (at the moment of movement out of the blocking position), but preferably also during the entire adjusting movement have only one degree of translational freedom, wherein the control body 6 can only move along the direction of adjustment S and the locking body can only move along the direction perpendicular to locking direction E.

Due to this guidance, it is ensured that the control body 6 then when the actuator 3 from the in 1 shown active position, on the lock body 5 in the respective actual contact point P (or in the case of rollers on the contact line) can roll, which leads to a significantly reduced friction, compared to the case known from the prior art in which control and locking body slide past each other so that the release of the lock in the locking mechanism according to the invention requires considerably less force than in the known mechanisms.

Acts a force in direction of movement B on the switching component 1 so press the area 11.1 the recess 11 which are opposite both this direction of movement B and with respect to the adjusting direction S is inclined, the locking body 5 , at the same time in the reverse direction E opposite direction E ', as in the in 1 illustrated triangle of forces is illustrated.

This makes it possible that when the actuating element 3 is moved out of the active position, the control body 6 and the locking body 5 stay in contact with each other and in particular the control body 6 at least in a region near the blocking position between the locking body 5 and a side wall 3.1 from the actuator 3 gets stuck, like out 2 is apparent.

Due to the rolling movement, the center of rotation X6 of the control body moves 6 half as fast as the actuator 3 , so that this in the adjustment of the active position out with a lower support surface 3.2 a piece of the control body 6 removed (cf. 2 ).

It should not be excluded that after a certain adjustment of the tax body 6 down on the support surface 3.2 of the actuating element 3 falls, after which the actuator can be brought into an inactive position, the in 3 is shown, and in which the control body 6 and the locking body 5 can be in touching contact with each other while the locking body 5 so far through the provided in the support member through hole 12 has moved through that, the switching component 1 now freely along the direction of movement B can move.

Will the switching component 1 starting from the in 3 shown position brought back into the locked position, ie in the position in which the locking receptacle 11 the through hole 2 exactly opposite, so can by adjusting the actuator 3 in the direction S the latch assembly 7 back in the 1 shown blocking position can be brought.

It can be provided that in the whole in the 1 to 3 illustrated adjusting movement of the control body 6 only along the direction S and the locking body 5 only along the reverse direction E can move.

A movement of the control body 6 in direction S over the position in the in 1 shown locking position addition can by a stop 4 be prevented, for example, on the support member 2 can be trained.

As the 1 to 3 can show a dimension b of the support member 2 in the reverse direction E be smaller than a dimension d of the locking body in the reverse direction (ie, smaller than a diameter of the locking roller or the locking ball), so that the locking body 5 in each position on at least one side of a piece of the support member 2 protrudes, and may further be greater than a displacement amount of the lock body 5 in the reverse direction during the displacement movement from the blocking position to the release position of the locking arrangement, so that the blocking body 5 during the entire displacement movement in the reverse direction E, the through hole 12 does not completely leave and therefore through the through hole 12 remains in the reverse direction E remains.

The rotational symmetry axes X5 and X6 of blocking bodies 5 and control body 6 , which can be perpendicular to both the reverse direction E and the direction S, can, as in 1 is shown, in the locked position of the latch assembly 7 lie in a plane which is perpendicular to the direction of adjustment S, so that a power transmission from the control body 6 on the lock body 5 can be optimized in the reverse direction E.

How out 4 it can be seen in the lock body 5 to act a spherical roller, ie a roller with a convex generatrix Y5, ie the control body may be a body of revolution, resulting from a rotation of the curve Y5 about the axis of symmetry X5, so that the diameter of the control body 5 is larger in the middle than at the edge. Accordingly, it may be in the control body 6 around a roller with one to the generatrix Y5 of the locking body 5 Complementary concave generating Y6 act. Such a configuration may be particularly advantageous if, for example, the switching component 1 has a curved contact surface to a favorable surface pressure between the switching device 1 and blocking body 5 in the locked position of the latch assembly 7 to reach. Alternatively, blocking bodies 5 and control body 6 However, for example, be cylindrical rollers or balls. In particular, the blocking body and the control body can also have different diameters.

Although this is not explicitly shown in the figures, it may be provided, for example, the actuating element 3 or / and the support component ( 2 ) and / or the switching component 1 with respect to a preferably common Symmmetrieachse X1 form rotationally symmetrical and preferably also coaxial to arrange this axis, with a possible course of such a common axis of symmetry X1 exemplarily in 1 (The figure shows in this case only a partial section of the entire locking mechanism, which results from rotation of the section shown about the axis X1). In the illustrated example of the symmetry axis is the actuator 3 radially furthest inside, the switching component 1 radial provided outermost, but of course it is also possible a different order.

Here, the locking mechanism 10 several bolt arrangements 7 comprise, for example, can be arranged radially to the axis of symmetry X1 and uniformly distributed around it, wherein for guiding or for engaging a plurality of corresponding through holes 12 in the support member 2 or several corresponding recesses 11 in the switching component 1 can be provided. switching device 1 and support member 2 Thus, they can have an n-fold rotational symmetry with respect to X1, where n is the number of bolt arrangements provided 7 is.

The illustrated locking mechanism 10 can be used in particular in a parking brake and serve, for example, to lock the parking brake in the laid state and / or in the inserted state. Furthermore, it can not only be used in motor vehicles but also, for example, in other vehicles of all kinds, such as in water or air vehicles.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1099067 B1 [0002]

Claims (22)

Locking mechanism ( 10 ), preferably for switching operations in a motor vehicle, in particular for a parking brake, comprising: - a supporting component ( 2 ), - a relative to the support member ( 2 ) in at least one locking position and movable out of this and lockable in the locking position switching component ( 1 ), - a latch arrangement ( 7 ) with at least one blocking body ( 5 ) and at least one separate from the blocking body ( 5 ) trained tax body ( 6 ), wherein the locking arrangement ( 7 ) at least when the switching component ( 1 ) is in the locking position, relative to the support member ( 2 ) in a blocking position and is adjustable out of this, wherein the locking arrangement ( 7 ) in the blocking position the switching component ( 1 ) locked in the locking position, and by adjusting the latch assembly ( 7 ) from the blocking position, a movement of the switching component ( 1 ) is released from the locked position, - one of the latch assembly ( 7 ) separately formed actuator ( 3 ), at least when the switching component ( 1 ) is in the locking position, relative to the support member ( 2 ) in an active position and is adjustable out of it, wherein by adjusting the actuating element ( 3 ) in the active position the latch arrangement ( 7 ) is adjusted in the blocking position, characterized in that the control body ( 6 ) and the blocking body ( 5 ) at least in the blocking position or during a movement out of the blocking position have only one translational degree of freedom, wherein the control body ( 6 ) by the adjustment of the actuating element ( 3 ) is moved into the active position only in a direction of adjustment (S) and he thereby the blocking body ( 5 ) moves only in a locking direction (E), which includes with the adjustment direction (S) a different angle from 0 ° and 180 ° and preferably orthogonal to this. Locking mechanism ( 10 ) according to claim 1, characterized in that the locking arrangement ( 7 ) can be brought into the blocking position only when the switching component ( 1 ) is in the locking position or one of the locking positions. Locking mechanism ( 10 ) according to claim 1 or 2, characterized in that the control body ( 6 ) and the blocking body ( 5 ) at least in the locked position of the latch assembly ( 7 ) only at one point (P) or only along a line which is substantially perpendicular to the blocking direction (E) and perpendicular to the direction of adjustment (S). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the control body ( 6 ) is a rolling body. Locking mechanism ( 10 ) according to claim 4, characterized in that the control body ( 6 ) is rotationally symmetric with respect to an axis (X6) which is orthogonal to the direction of adjustment (S) and the locking direction (E), preferably being spherical. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the actuating body ( 5 ) is a rolling body, which is preferably rotationally symmetrical with respect to an axis (X5) which is orthogonal to the direction of adjustment (S) and the locking direction (E), wherein it is particularly preferably spherical. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the blocking body ( 5 ) and the control body ( 6 ) are in each case rotationally symmetrical components, with respect to mutually parallel axes of symmetry (X5, X6) which are perpendicular both to the locking direction (E) and to the adjusting direction (S), wherein the two axes of symmetry (X5, X6) in the blocking position of the locking arrangement ( 7 ) lie in a plane which is perpendicular to the adjustment direction (S). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that in the support member ( 2 ) a through hole ( 12 ) for guiding the movement of the blocking body ( 5 ) is provided in the reverse direction (E), wherein when the switching component ( 1 ) in the locking position and the locking arrangement ( 7 ) are in the locked position, a section ( 5.1 ) of the blocking body ( 5 ) of the support member ( 2 ) projects in the reverse direction (E), and, this section ( 5.1 ) in engagement with a corresponding recess ( 11 ), which in the switching component ( 1 ) is provided. Locking mechanism ( 10 ) according to claim 8, characterized in that a dimension (b) of the support member ( 2 ) in the reverse direction (E) is smaller than a dimension (d) of the blocking body ( 5 ) in the reverse direction (E) and is preferably greater than a displacement amount of the blocking body ( 5 ) in the reverse direction (E). Locking mechanism ( 10 ) according to claim 8 or 9, characterized in that an area ( 11.1 ) of the recess ( 11 ) at least in a portion opposite to a direction of movement (B) of the switching component ( 1 ) and inclined with respect to the locking direction (E). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the switching component ( 1 ) by a linear movement, preferably only by a linear movement, or a rotational movement, preferably only about an axis, in the locking position and out of this is movable. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the switching member is movable only by a movement in the adjusting direction (S) or in the opposite direction in the locking position or out of this. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the switching component ( 1 ) and / or the actuating element ( 3 ) are roller-mounted. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the supporting component ( 2 ) and / or the switching component and / or the actuating element are rotationally symmetrical with respect to an axis of symmetry (X1), which preferably extends in the adjusting direction (S). Locking mechanism ( 10 ) according to one of the preceding claims, wherein the control body ( 6 ) or the blocking body ( 5 ), preferably the blocking body ( 5 ), a roller with a convex generatrix (Y5) and the blocking body ( 5 ) or the control body ( 6 ), preferably the control body ( 6 ), a roller having a concave generator (Y6) complementary to the convex generator (Y5). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the actuating element ( 3 ) rotationally symmetrical with respect to an axis of symmetry (X1) in the adjustment direction (S) and relative to the support member ( 2 ) is rotatably provided about this axis of symmetry (X1). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that it further comprises a stop ( 4 ) comprising a movement of the control body ( 6 ) in the direction of adjustment (S), wherein the stop ( 4 ) preferably part of the support member ( 2 ). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the actuating element ( 3 ) manually in the active position and is adjustable out of this, or / and the locking mechanism ( 10 ) For this purpose, a magnetic, electric, spring-driven, hydraulic or pneumatic drive or a combination thereof. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the actuating element ( 3 ) is adjustable between the active and an inactive position, and / or the latch arrangement ( 7 ) is adjustable between a blocking position and a release order. Locking mechanism ( 10 ) according to claim 19, characterized in that in the release position of the latch arrangement ( 7 ) the actuating body ( 5 ) is prevented from moving in the direction (E ') opposite to the reverse direction (E), preferably by the control body ( 6 ). Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that the actuating element ( 3 ) is biased in one direction from the active position and / or the switching component ( 1 ) is biased to move out of the locking position. Locking mechanism ( 10 ) according to one of the preceding claims, characterized in that it comprises a plurality of latch arrangements ( 7 ), which are arranged, for example, radially with respect to a common axis (X1).

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