DE102017102549A1 - MOTOR VEHICLE LOCK - Google Patents

Abstract

The invention relates to a lock (1) for a motor vehicle, in particular a side door lock, comprising a locking mechanism (7), a release lever (6), an actuating lever (2) and a clutch lever (3), wherein the release lever (6) by means of the clutch lever (3) with the actuating lever (2) can be coupled and a means for controlling the clutch lever (3), wherein the clutch lever (3) by means of a control cam (11) is feasible.

Description

The invention relates to a lock for a motor vehicle, in particular a side door lock comprising a locking mechanism, a release lever, an actuating lever and a clutch lever, wherein the release lever is coupled by means of the coupling lever with the actuating lever and a means for controlling the clutch lever.

A lock for a motor vehicle, which is also called locking system, are mostly installed locking mechanism consisting of a catch and at least one pawl. The locking mechanism in the lock acts together with a lock holder, which is attached either to the body of the motor vehicle or the door, flap, sliding door, etc. The relative movement between the lock holder and catch thereby causes the catch to be pivoted, and at the same time the pawl engages with the catch.

Depending on the embodiment, there are one or two-stage locking mechanism, which then have a pre-locking and / or a main locking position. The pawl is preferably spring biased into engagement with the catch. To unlock, that is to release the pawl of the catch a release lever is used. In this case, the pawl is acted upon by the release lever, that the pawl is disengaged from the catch and the catch moves from the detent position to an open position. The movement of the catch is usually done by means of a spring element and / or due to a tensile load resulting from the lock holder in combination with the door seal.

For actuating the release lever, an actuating lever is used. The operating lever may be, for example, an inside operating lever or an outside operating lever. With the help of the operating lever, the release lever is moved and unlocks the locking mechanism.

To increase safety in motor vehicles systems are used, which are equipped with inertia elements. In this case, the inertia elements counteract an external impulse and thereby prevent, for example, a side door of a motor vehicle from being inadvertently opened. An impulse may be introduced, for example, by a collision in the vehicle. If, for example, a pulse is introduced into the motor vehicle in a side impact such that, for example, a door handle of a side door is accelerated, the deflection of the door handle can cause the actuating lever to be activated and the locking mechanism to open, which leads to unintentional opening of the side door can. To prevent such unwanted events, mass inertia-based locking system have become known, which counteract the unintentional opening of a door lock.

From the DE 20 2013 104 118 U1 is a motor vehicle door lock is known, which is provided with a mass inertia. The motor vehicle lock comprises a locking arrangement which is equipped with a control lever and a coupling element. In this case, the coupling element is designed with a spring arrangement. In an unactuated operating lever locks the locking assembly or is unlocked spring-driven only upon actuation of the actuating lever. If, during the actuation of the actuating lever, an actuating speed which is above a predetermined limit speed occurs, the inertia of the control lever ensures that the actuation of the actuating lever takes place with a delay.

In addition, from the DE 20 2012 007 312 U1 a motor vehicle lock with an actuating lever and a clutch assembly known. The actuating lever cooperates with the clutch assembly such that the actuating lever in question disengages the engaged clutch assembly and leaves the disengaged clutch assembly in the disengaged state.

If, in the event of an accident, an actuation of the actuating lever occurs at an actuating speed above a certain limit speed, then the actuating lever executes an idle stroke due to the inertia-related delayed engagement of the clutch arrangement.

From the DE 10 2014 001 490 A1 is a mass inertia-based actuation system for a release lever has become known. The actuating lever cooperates with a clutch lever, which is mounted pivotably on the release lever. In this case, a seated on the operating lever spring engages the clutch lever and thus enables the clutch lever engages upon actuation of the actuating lever. When engaged, the locking mechanism can be unlocked using the release lever. In addition, a locking lever is provided, by means of which the clutch lever as well as in the event of an inertia-related accident is disengageable.

Another mass inertia-based flow system in a lock for a motor vehicle with a separate inertia element is from the DE 10 2014 002 581 A1 known. A clutch lever is mounted on an operating lever and is spring-biased in a position in which the clutch lever upon actuation of the Operating lever comes into engagement with the release lever.

In case of overriding a limit speed of the operation of the operating lever, a locking lever acts on the coupling member, so that the coupling member is disengaged from the release lever. The locking lever in turn is spring biased on the trigger and can follow the movement of the actuating lever when the actuating lever is actuated at a normal operating speed. In the event of an accident, and thus an excessive speed of the operating lever, the control lever can not follow the movement of the actuating lever by the mass-engagement element engaged with the control lever and engages with the clutch lever. The control lever then causes the clutch lever is deflected. A locking of the trigger mechanism for the lock can in this case take place in that, for example, the inertia element in the deflected state in which the control lever is engaged with the clutch lever, is fixed, so that even with a further actuation of the operating lever unlocking of the locking mechanism can not take place.

The safety systems known from the prior art are usually based on the fact that the coupling member is controlled by means of a spring element. Spring elements can have strong fluctuations in the spring constants due to material properties and manufacturing processes. A defined interpretation of the springs therefore requires a lot of effort. In addition, a control by means of a spring element is always associated with uncertainties, as well as, for example, temperature fluctuations can affect the spring properties.

The object of the invention is to provide a mass inertia-based actuation system for a lock of a motor vehicle, with which a defined control of the clutch behavior can be provided in an actuation system of a locking device of a motor vehicle lock. The object of the invention is to provide an improved lock for a motor vehicle. Moreover, it is an object of the invention to provide a structurally simple and inexpensive way to secure a lock in the event of an accident.

The object is achieved by the features of independent claim 1. Advantageous embodiments of the invention are specified in the dependent claims. It should be noted that the embodiments described below are not restrictive, but rather any variation possibilities of the features described in the description, the subclaims and the drawings are possible.

According to claim 1, the object of the invention is achieved in that a lock for a motor vehicle, in particular a side door lock is provided comprising a locking mechanism, a release lever, an actuating lever and a clutch lever, wherein the release lever is coupled by means of the coupling lever with the actuating lever and a means for controlling the clutch lever, wherein the clutch lever is guidable by means of a control cam. The inventive design of a control cam in which the clutch lever is feasible, the possibility is now created to perform the clutch lever regardless of engagement with a spring element and thus forcibly bring about a defined movement of the clutch lever.

A positive guidance of the clutch lever includes a defined position control of the clutch lever at any time, which in turn includes a high level of safety and functionality. In particular, large forces can be transmitted by a positive guidance of the clutch lever in a control cam, so that even with a slow but executed with high force actuation of the actuating lever, it can not lead to malfunction. In particular, the coupling member at any time in a defined position and by the formation of the control cam to the different applications of the lock in the motor vehicle adaptable.

The lock for a motor vehicle also includes such locks, which are used for example in sliding doors, rear locks, side doors, flaps or covers, such as a hood. In this case, the lock usually comprises a locking mechanism consisting of a catch and at least one pawl. The locking mechanism can be formed with a pre-rest and / or a main catch, with one or two pawls can be used.

A trigger is the lever that acts directly on the ratchet. The release lever acts on the pawl and releases the pawl from engagement with the catch. Between the operating lever and the trigger lever acts a clutch lever. Upon actuation of the actuating lever and preferably of the external actuating lever, the clutch lever comes into contact with the trigger lever and thus enables actuation of the trigger lever, whereby the locking mechanism can be unlocked. The clutch lever is guided in a control cam, so that a defined orientation of the clutch lever on the Release lever is possible. On the one hand, the orientation of the coupling lever can be controlled, in addition, the deflection behavior of the coupling lever can be adjusted by the contour of the contour. It is possible to control the deflection angle as well as the deflection speed of the clutch lever by the contour of the contour. Depending on the existing way when operating the operating lever can thus be adjustable, the movement of the clutch lever.

In a preferred embodiment of the invention, the clutch lever is pivotally mounted in the actuating lever. The inclusion of the coupling lever in the actuating lever and in particular in the external actuating lever has the advantage that with a small number of components, a coupling of the actuating lever with the trigger lever is possible. In addition, the transmission of the movement from the actuating lever to the trigger is directly possible. The pivotable mounting of the clutch lever in the operating lever makes it possible here that the clutch lever on the one hand in the operating lever can be stored and simultaneously guided by the control cam.

If the clutch lever can be guided by means of a control lever, this results in a further advantageous embodiment of the invention. The inclusion of the clutch lever or the guiding of the clutch lever in a control lever makes it possible here that the control cam can follow the movements of the actuating lever. The control cam is thus movable together with the actuating lever and in engagement with the clutch lever together with the clutch lever. From this arrangement, it can be seen that the control lever can act as a control member when the control lever performs a relative movement to the actuating lever.

In a normal operation of the operating lever of the control lever follows by the engagement of a spring between the actuating lever and the control lever of the movement of the actuating lever. The clutch lever is mounted in the operating lever and follows the movement of the operating lever. If the operating lever is moved in normal operation with a speed assignable to the operation, then the control lever follows the movement of the actuating lever. The acting between the control lever and the actuating lever spring is designed so that a coincident movement between the control lever and the operating lever is carried out in normal operation.

Only in the case of an excessive speed of the actuating lever, as can be done for example in the case of an accident, the actuating lever is accelerated so much that it comes to a relative movement between the control lever and the operating lever. A relative movement between the control lever and the actuating lever then requires that the coupling lever is guided in the control cam of the control lever and can be deflected by the geometry of the contour of the control lever. The deflection of the clutch lever in this case causes the clutch lever disengaged from the release lever. The lock remains locked.

The spring or the spring element is advantageously arranged between the actuating lever and the control lever, so that a movement of the actuating lever can be transmitted to the control lever. Thus, in a conventional, for example, a manual operation of an outside door handle connected to the operating lever, the control lever follow the pivoting movement of the operating lever. The operating speed of the operating lever is measurable and should not exceed 300 mm / s, preferably 400 mm / s and more preferably 500 mm / s in a conventional, that is a normal operation. In a normal operation, which can also be described as a comfort range, there is no relative movement between the actuating lever and the control lever. Above the comfort range, for example, there may be an accident and the relative movement between the actuating lever and control lever, whereby the clutch lever is disengaged and an opening of the locking mechanism can be prevented.

If the spring element is designed as a leg spring, wherein one leg can be connected to the actuating lever and one leg can be connected to the control lever, this results in a further embodiment variant of the invention. By means of a leg spring can on the one hand a structurally favorable connection enables, since the legs are easily connectable to the lever, and on the other hand can be adapted to the requirements of the castle by the connection, the spring force of the spring element.

It may also be advantageous if at least one leg of the spring element can be fastened by means of an adjusting means, in particular an eccentric, so that a tolerance range of the spring element can be adjusted. In a normal operation in the comfort of the castle, a relative movement between the operating lever and control lever should be prevented. In order to compensate for a tolerance range of the spring element, which can result, for example, due to manufacturing tolerances, materials and / or bearing tolerances, it is now possible to compensate or adjust a tolerance of the spring element. Thus, it is possible to set an already mounted spring relative to the lock and adjust.

An eccentric has proved to be advantageous in this case, wherein by means of the eccentric a Connection of a spring leg to the control lever and / or the actuating lever is customizable. For example, the control lever and / or the adjusting means may be made of plastic, wherein the adjusting means with the receiving lever, for example, can be caulked to show only one way of preventing rotation of the adjusting. The actuating lever is preferably made of a metallic material, preferably made of steel. Consequently, it is possible to compensate for a speed field due to the spring tolerance, for example 90 mm / s, or to adjust it by means of the adjusting means.

In a further embodiment of the invention, there is an advantage if the control lever is mounted at least with the actuating lever, in particular an external operating lever, in a common axis. A common storage of the control lever and the actuating lever allows a structurally favorable design, which requires a small footprint. In addition, the actuating paths and lever moments are easily matched to each other by the common bearings. In particular, the moments to be transmitted, which are required on the one hand to trigger the locking mechanism and, moreover, control the movement of the clutch lever can be made available, are easily adjustable.

If the control lever interacts with a mass inertia lever, this results in a further advantageous embodiment of the invention. A mass inertia lever is a lever which is pivotally mounted in the motor vehicle lock and counteracts a pulse from an accident. In this case, the inertia element is preferably designed as a lever and mounted centrally. In this case, a symmetrical load distribution around the pivot point can be advantageous. The control lever is directly engaged with the inertia lever. As already explained above, there is a relative movement between the actuating lever and the control lever to a deflection of the clutch lever. Due to the inertial mass of the inertia lever of the control lever is supported in its inertia behavior, so that further security is given to keep the control lever in position in the event of an accident. If the mass inertia lever counteracts the impulse of the impact, the inertia lever remains in its position and holds the control lever counter to the deflection of the actuating lever or the external actuating lever in its initial position. Thus, only the actuating lever is deflected by, for example, a moving door handle and the control lever remains in its initial position. Upon actuation of the actuating lever of the clutch lever follows by its storage in the operating lever, the movement of the actuating lever, wherein the clutch lever is guided by the control cam of the control lever and is deflected accordingly. The actuation of the operating lever in the event of an accident thus has no effect on the release lever, so that the lock remains closed even in the event of an accident.

If the control lever is guided in a control contour of the inertia lever, this results in a further embodiment of the invention. By an immediate guidance of the control lever in a contour of the inertia lever results in an advantageous design solution that is equipped with a minimum number of components. Moreover, it is advantageous if the control lever engages in the contour of the inertia lever such that a point of application of the control lever is arranged in the control contour close to the pivot point of the inertia lever. By a point of attack or a leadership of the control lever in the inertia lever in the vicinity of the pivot point of the inertia lever, the control lever is a high inertia in the event of an accident. In particular, in the case in which there is a symmetrical mass distribution about the pivot point of the inertia lever, in the case of an accident, the inertia lever can oppose the control lever a maximum moment of inertia.

Advantageously, the control contour extends from an approximately centrally located pivot point of the inertia lever to a radial end of the inertia lever. This results in a further advantageous form of the control contour, since on the one hand the inertia lever can oppose the control lever in the event of an accident, a maximum moment of inertia, whereas at a normal actuation of the operating lever, the control lever along the control contour in the inertia lever with increasing deflection of the actuating lever has to apply a lesser moment to deflect the inertia lever. As a result, the operation of the lock of the motor vehicle is facilitated. The advantageous embodiment of the control contour along the extension of the inertia lever thus has a positive effect on the behavior in the accident and at the same time in the normal operation of the castle.

A further advantageous embodiment of the invention results when the control lever has an engagement means, in particular an extension, wherein upon actuation of the engagement means, the clutch lever can be brought out of engagement with the release lever. The control lever may have an engagement means, in which, for example, a central locking element of the lock can engage. Advantageously, the engagement means may for example be formed as an extension which protrudes from the control lever. The Engagement means can also be formed from an opening, a recess or other geometric design, in which a means for central locking can engage and fixes the control lever in its position. Although the actuating lever or the outer actuating lever can be actuated by the fixing of the engagement means and thus of the control lever, the clutch lever is moved by the control cam in the control lever and disengaged from the trigger lever by the holding or fixing of the control lever. In this way, a locking element can be provided with the simplest structural means, which accesses the existing elements of the flow system and in particular the control lever. By positioning the control lever thus locking is possible. Advantageously, the engagement means as an extension to the control lever, for example, integrally formed. However, it is of course also conceivable to fix the control lever in another non-positive and / or positive form, so that a movement of the control lever can be prevented.

If the engagement means can be actuated electrically, this results in a further advantageous embodiment of the invention. An electrical operation has the advantage of a high level of comfort for the operator, so that the control lever, for example, in the context of a central locking of the vehicle is electrically controlled or positionable or fixable. In this case, an existing lever of a central locking system can be used to engage in the control lever or it is a separate drive providable.

In a further advantageous embodiment, at least part of the coupling lever protrudes into an opening of the actuating lever and can be guided in the opening. In a normal operation of the operating lever, that is, upon actuation of the operating lever with a normal opening speed for the lock, the clutch lever is at one end of the operating lever, for example spring biased on. Now, if the control lever is fixed, which can be done on the one hand on the engagement means and a central locking or by the inertia element, then moves the clutch lever in the control cam of the control lever, wherein the clutch lever is pivoted. In order to enable a pivoting of the clutch lever in the actuating lever, the clutch lever in the opening of the actuating lever is feasible. The guiding of the clutch lever directly in the operating lever offers a further possibility to allow the most constructive simple and thus cost-effective way to guide the clutch lever with full functionality. The construction of the interlocking guides of the inertia lever, control lever, clutch lever and operating lever offers a variety of advantages for the functionality and at the same time offers the opportunity to use all functional advantages with the lowest possible number of components and structurally favorable structure.

In a further advantageous embodiment of the lock, the actuating lever, the control lever and the release lever are mounted on a common axis and / or guide. The common inclusion of the lever has the advantage that the functional unit can be designed kleinstbauend so that with minimal space in the lock of the motor vehicle, a high degree of functionality can be realized. In this case, the levers may be received or stored on a common axis and / or a guide or receptacle of the respective other lever. In particular, the inclusion of the lever on a common axis has the advantage that, in particular for the interaction, for example, between the control lever and the operating lever favorable engagement conditions, for example, for acting between the control lever and the actuating lever spring.

The invention will be explained in more detail with reference to the accompanying drawings with reference to a preferred embodiment. However, it is the principle that the embodiments do not limit the invention, but represent only advantageous embodiments. The illustrated features may be performed individually or in combination with other features of the specification as well as the claims individually or in combination.

• 1 eine Vorderansicht auf einen Teil eines Schlosses eines Kraftfahrzeuges mit den zur Erläuterung der Erfindung wesentlichen Bestandteilen. Die Vorderansicht zeigt die Funktionseinheit in einer Ausgangsstellung, das heißt im unbetätigten Zustand,
• 2 die Rückansicht der Funktionseinheit gemäß der 1 im unbetätigten Zustand, das heißt einer Ausgangsstellung,
• 3 eine Vorderansicht auf die Funktionseinheit des Schlosses bei einer normalen Betätigung des Betätigungshebels zum Auslösen des Gesperres,
• 4 eine Vorderansicht auf die Funktionseinheit bei einer stark beschleunigten Bewegung des Betätigungshebels, bei der das Massenträgheitselement ein Auslösen des Gesperres verhindert und
• 5 eine Vorderansicht auf das Schloss in einer Ausgangsstellung, das heißt im unbetätigten Zustand ohne einen Auslösehebel.

It shows:

• 1 a front view of a part of a lock of a motor vehicle with the essential parts for explaining the invention. The front view shows the functional unit in a starting position, that is in the unactuated state,
• 2 the rear view of the functional unit according to the 1 in the unactuated state, that is a starting position,
• 3 a front view of the functional unit of the lock during normal operation of the actuating lever to trigger the locking mechanism,
• 4 a front view of the functional unit at a greatly accelerated movement of the actuating lever, wherein the inertia element prevents a triggering of the locking mechanism and
• 5 a front view of the castle in a starting position, that is in the unactuated state without a release lever.

In the 1 is a front view of a castle 1 a motor vehicle reproduced. The lock is merely indicated as a dashed line. The castle 1 includes an operating lever 2 , a clutch lever 3 , a control lever 4 , an inertia lever 5 , a trigger 6 and a locking mechanism 7 , The only dashed lines indicated locking 7 is only as part of the lock 7 in the form of a pawl 7 reproduced, on which the release lever 6 immediately intervenes. On the other components of the castle 1 is omitted for clarity, so that only the essential parts for explaining the function of the invention components of the castle 1 are reproduced.

The 1 shows the functional unit 8th of the castle 1 in an unactuated state. To operate the operating lever 2 becomes the operating lever 2 for example by means of a Bowden cable in the direction of the arrow P1 pressed clockwise. Upon actuation of the actuating lever 2 that would be in the operating lever 2 mounted clutch lever over its in the operating lever 2 mounted axle 9 moved. The clutch lever 3 again has a in the 2 better visible cones 10 on, with the clutch lever 3 in the control curve 11 of the control lever 54 engages. Upon actuation of the actuating lever 2 in the direction of the arrow P1 thus takes the operating lever 2 the control lever 4 With. In this case, a spring element acts 12 between the operating lever 2 and the control lever 4 , The spring element 12 Holds the control lever 4 in its initial position, so that there is no relative movement between the operating lever 2 and the control lever 4 comes, being a spring element 12 with a relative force between the control lever 4 and the operating lever 2 acts. To a relative movement between the operating lever 2 and the control lever 4 manufacture is thus the spring force of the spring element 12 , which may be in particular a leg spring or a coil spring to overcome.

Acts the pin 10 the clutch lever 3 with the control lever 4 together, so does the control lever 4 again by means of a guide pin 13 with the inertia lever 5 together. For this purpose, the guide pin engages 13 in a control curve 14 of the inertia lever 5 one. How clear in the 2 it can be seen, is the guide pin 13 can be guided radially outwards in the control cam. The inertia lever 5 is around its axis 15 swiveling around in the lock 1 added. In this case, the inertia lever 5 preferably one with respect to the axis 15 related balanced mass distribution. In other words, the inertia lever 5 around the axis 15 mass balance around. A balanced mass balance in relation to the axis 15 offers the advantage that no natural vibrations due to vibration in the vehicle can arise or can be largely prevented.

Upon actuation of the actuating lever 2 Thus, the clutch lever 3 is operated, and in the case where the operation lever is operated at a normal speed, the control lever follows 4 the movement of the operating lever 2 , As a result, the clutch lever 3 his orientation in the functional unit 8th maintains. A radial end 16 the clutch lever 3 then comes with a stop edge 17 the release lever 6 engaged. Such engagement between the radial end 16 the clutch lever 3 with the stop edge 17 is in the 3 reproduced as normal operation of the castle. Upon actuation of the release lever 6 as they are in the 3 is shown performs the release lever 6 a movement in the direction of the arrow P2 , whereby a trigger arm 18 with the example pawl 7 engaged. The pawl 7 will then be in the direction of the arrow P3 moved, so that the locking mechanism is unlocked.

In the 4 now the case is shown, in which the actuating lever 2 at an excessive speed in the direction of the arrow P1 around the axis 9 is turned around in a clockwise direction. An excessive speed, resulting in too fast movement of the operating lever 2 Over a limit speed leads, on the one hand, the spring element 12 is deflectable and at the same time that the inertia element of the accelerated movement of the actuating lever 2 can not follow. The clutch lever 3 is in the operating lever 2 stored and must be the movement of the operating lever 2 consequences. But there's the control lever 4 remains in its initial position, the pin is 10 the clutch lever 3 in the control curve 11 of the control lever 4 guided. This pivots the clutch lever 3 in the 4 in the counterclockwise direction and disengages from the release lever 6. As clearly in the 4 can be seen, enters the radial end 16 the clutch lever 3 out of engagement with the stop edge 17 the release lever 6 , The release lever 6 remains in its initial position, so that the trigger arm 18 not in contact with the locking mechanism 7 can be brought. During this movement, the clutch lever moves 3 also in the opening 19 of the operating lever 2 ,

To the clutch lever 3 out of engagement with the release lever 6 to bring, the joystick points 4 beyond that, a means of intervention 20 on, in this embodiment as an extension 20 is trained. Will now be in the castle 1 For example, an unillustrated lever with the extension 20 engaged, wherein the lever, not shown, a force F exerts on the extension 20, so the control lever remains 4 also in his Starting position. The persistence of the control lever 4 in its initial position causes that upon actuation of the actuating lever 2 the clutch lever 3 in the control curve 11 of the control lever 4 is guided and thus the clutch lever 3 out of engagement with the release lever 6 arrives. Thus, the castle 1 lockable.

In the 5 is a view of the functional unit 8th , which is also denominated as an active mass barrier or active inertia. Shown is the functional unit 8th in a plan view of the inertia lever 5 , the control lever 4 and that around the axis 9 arranged spring element 12 , It can be seen that the spring element 12 designed as a leg spring and two spring legs 21 . 22 having. The spring legs 21 . 22 are one-sided in the operating lever 2 and opposite in the control lever 4 stored.

To adjust a spring tolerance is a spring leg 22 by means of an adjusting means 23 with the control lever 4 connected. Thus, a speed field, that is an end position of a comfort area for actuating the operating lever 2 adjustable. The spring tolerance is adjustable. In this case, the adjustment means 23 for example, consist of an eccentric, the rotatable in the control lever 4 is included. The spring leg 22 is located on the eccentric and is by means of a rotary movement of the eccentric with respect to the arrangement of the control lever 4 customizable. An adjustment of the spring tolerance is thus possible and the comfort range clearly definable. In other words, a relative force between the operating lever 2 and the control lever 4 adjustable. A relative movement between the operating lever 2 and the control lever 4 is therefore very accurate adjustable.

The spring element 12 is around the axis 9 arranged and can at least partially by the control lever 4 be feasible and or fixable. By a guide and / or fixation of the spring element 12 Safe holding and functional safety can be ensured over the entire service life.

As clearly seen in the embodiment, a plurality of advantages are achieved by the embodiment, wherein only a minimum space requirement is required, with the highest level of security through the structure in particular the introduction of a control cam in the control lever is achieved.

LIST OF REFERENCE NUMBERS

1

lock

2

actuating lever

3

clutch lever

4

control lever

5

Inertia lever

6

sear

7

Lock, pawl

8th

functional unit

9

axis

10

spigot

11

cam

12

spring element

13

spigot

14

cam

15

axis

16

radial end

17

stop edge

18

release arm

19

opening

20

Engaging means, extension

21.22

spring leg

23

adjusting

P1, P2, P3, P4

arrow

F

force

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

• DE 202013104118 U1 [0006]
• DE 202012007312 U1 [0007]
• DE 102014001490 A1 [0009]
• DE 102014002581 A1 [0010]

Claims (13)

Lock (1) for a motor vehicle, in particular a side door lock comprising a locking mechanism (7), a release lever (6), an actuating lever (2) and a clutch lever (3), wherein the release lever (6) by means of the coupling lever (3) the actuating lever (2) can be coupled and a means for controlling the clutch lever (3), characterized in that the clutch lever (3) by means of a control cam (11) can be guided. Lock (1) for a motor vehicle Claim 1 , characterized in that the clutch lever (3) is pivotally mounted in the actuating lever (2). Lock (1) for a motor vehicle according to one of Claims 1 or 2 , characterized in that the coupling lever (3) by means of a control lever (4) can be guided. Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that between the actuating lever (2) and the control lever (4) a spring element (12) is arranged, so that a movement of the actuating lever (2) on the control lever ( 4) is transferable. Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the spring element (12) can be formed as a leg spring, wherein a spring leg (21) with the actuating lever and a spring leg (22) with the control lever (4) is connectable , Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that at least one spring leg (21, 22) of the spring element (12) by means of an adjusting means (23), in particular an eccentric, can be fastened, so that a tolerance range of the spring element (12) is adjustable. Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the control lever (4) is mounted at least with the actuating lever (2), in particular an external operating lever, in a common axis (9). Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the control lever (4) cooperates with a mass inertia lever (5). Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the control lever (4) can be guided in a control contour (14) of the inertia lever (5). Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the control lever (4) has an engagement means (20), in particular an extension (20), wherein upon actuation of the engagement means (20) the clutch lever (3) out of engagement with the release lever (6) can be brought. Lock (1) to Claim 10 , characterized in that the engagement means (20) is electrically actuated. Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that at least part of the coupling lever (3) projects into an opening (19) of the actuating lever (2) and can be guided in the opening (19). Lock (1) for a motor vehicle according to one of the preceding claims, characterized in that the actuating lever (2), the control lever (4) and the release lever (6) are mounted on a common axis (9) and / or guide.

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