The invention relates to a motor vehicle lock having a pawl arrest.
Such motor vehicle locks are generally known, e.g. for locking tailgates, hoods and doors, and comprise a spring-loaded catch which locks a striker or a cotter in a closed position and a spring-loaded pawl which blocks a jacket surface of the catch in a blocking position. A driver having a latch connection element is arranged at the pawl and cooperates with a counter-latch connection element arranged at an end face of the catch to arrest the pawl. It is prevented by this pawl arresting that the pawl pivots back into the blocking position and blocks the catch when the catch does not leave its closed position. Since the pawl cooperates both with the jacket surface and with the counter-latch connection element arranged at the end face, the functional mechanism of the motor vehicle lock is complicated, however.
It is therefore the underlying object of the invention to provide a motor vehicle lock having a simple functional mechanism.
A motor vehicle lock having the features of claim 1 is provided to satisfy the object.
The motor vehicle lock in accordance with the invention comprises a pivotable catch having a jacket surface, a pawl which is acted on by a preloading force and which is pivotable between a blocking position in which the pawl blocks the catch and an unblocking position in which the catch is unblocked, a release lever for pivoting the pawl against the preloading force, and an arresting device for arresting the pawl in a release position in which it releases the catch, wherein a part of the arresting device is formed by the release lever. In other words, the pawl arresting does not take place by a latch connection between the pawl and the catch, but rather by the trigger lever in engagement with the pawl. The arresting of the pawl acting by means of an elastic driver and in the end face direction of the catch is thus dispensed with.
Since the pawl is arrested by the release lever, the pawl can furthermore be arrested up to the complete opening of the catch, whereby an uncontrolled pivoting of the pawl when the catch is opening can be prevented.
Advantageous embodiments of the invention can be seen from the dependent claims, from the description and from the drawing.
In accordance with an advantageous embodiment, the release position of the pawl is located between the blocking position and the unblocking position. The release position, blocking position and unblocking position each represent a different angular position of the pawl so that the release position is located within the range of movement of the pawl, that is between the blocking position and the unblocking position of the pawl. A compact design of the motor vehicle lock thus becomes possible.
In accordance with a preferred embodiment, the catch comprises a link for releasing the pawl from the release position, whereby an additional device for releasing the arresting device can be omitted. The link can particularly advantageously be arranged at the jacket surface of the catch for releasing the arresting device.
In a further advantageous embodiment, the catch only moves into functionally effective contact with the pawl via its jacket surface. This means that the pawl only blocks the catch by means of a contact between the pawl and the jacket surface of the pawl and the pawl also releases the pawl from its release position by means of a contact between the pawl and the jacket surface of the catch. A cooperation of the catch and of the pawl via an end face of the catch can thus be omitted, for example, whereby a larger design freedom of the motor vehicle lock arises.
The release lever can furthermore have a transport cam which pivots the pawl over a cam arranged at the pawl into the unblocking position. On the pivoting of the release lever, the transport cam is moved toward the pawl, for example by a drive motor or also manually, to pivot the pawl into the unblocking position. The transport cam can in this respect particularly simply be designed as a block-shaped projection at the release lever.
In a further preferred embodiment, the release lever has a driver cam via which the release lever pivots the pawl out of the blocking position. This means that the pawl is first moved out of the blocking position via the driver cam until a transport cam of the release lever is moved toward the cam of the driver. The pivot movement of the driver is then transferred from the driver cam onto the transport cam, whereby the release lever can have a compact design.
In accordance with the invention, the arresting device can have a latch connection between the cam of the pawl and the transport cam, whereby a secure arresting of the pawl as well as a secure release of the arresting device becomes possible.
In accordance with a further advantageous embodiment, the jacket surface of the catch has a blocking section which cooperates with a latching section of the pawl in the blocking position of the pawl, a prelatching section which cooperates with the latching section of the pawl in a prelatching position of the pawl, and a support section which cooperates with a support surface of the pawl in the unblocking position of the pawl. The motor vehicle lock can still, for example, lock a motor vehicle door after an initial actuation due to the prelatching section so that an unintentional opening of the motor vehicle door can be prevented. Furthermore, the blocking section, the prelatching section and the support section can be arranged one after the other at the jacket surface of the catch.
A complete opening of the catch is ensured in a particularly simple manner when the pawl is located in an overlifting position in the release position. To reach the overlifting position, the pawl is, for example, pivoted against the preloading force so much that the blocking section and/or the prelatching position of the catch do/does not come into contact with the latching section of the pawl on a pivoting of the pawl.
In a further preferred embodiment, the release lever has a blocking cam which blocks the pawl against a pivoting against the preloading force in the blocking position and/or in the prelatching position. In other words, the pawl can only be pivoted out of the blocking position or the prelatching position when the release lever is pivoted against its preloading force. It is therefore prevented by the blocking cam of the release lever that the pawl accidently leaves the blocking position or prelatching position.
A housing of the motor vehicle lock can be built in a particularly compact manner in that a part of the pawl projects through a window formed in the housing in the release position.
An exemplary embodiment of the invention will be described in the following with reference to the enclosed drawing. There are shown:
The motor vehicle lock 10 comprises a pivotable catch 12 having a jacket surface 14 formed at the outer periphery, a pivotable pawl 16, a release lever 18 for pivoting the pawl 16, as well as an arresting device for arresting the pawl 16 in a release position in which it releases the catch 12. The motor vehicle lock 10 furthermore comprises a housing 20 having a base plate 21 which comprises a left side wall 20a at one side and a right side wall 20b at an oppositely disposed side.
The catch 12 of the motor vehicle lock 10 is configured as a flat, approximately round disk having end faces 12a which are connected by the jacket surface 14. The catch 12 furthermore comprises a fork section 12b which engages through an eyelet of the striker in a closed position of the catch 12 for locking the tailgate.
To block the catch 12 in the closed position, the pawl 16 cooperates with a blocking section 14a which is formed by a latch nose and which is arranged opposite the fork section 12b at the jacket surface 14 of the catch 12 (cf.
The jacket surface 14 comprises a support section 14c which represents a section of the jacket surface 14 arranged approximately tangentially to the pivot axis 12d (cf.
The catch 12 is pivotably supported about a pivot axis 12d (cf.
As already described, the pawl 16 cooperates with the jacket surface 14 of the catch 12 to block the catch 12. For this purpose, the pawl 16 has a latching section 16c and a support section 16d which are each formed on oppositely disposed sides of a triangular projection, with the latching section 16c being arranged in a direction approximately tangential to the pivot axis 16c and the support surface being arranged in a direction approximately radial to the pivot axis 16a (cf.
To raise the pawl 16, the driver 17 is arranged at an end of the pawl 16 disposed opposite the pivot axis 16a. The driver 17 projects from the pawl 16 in a direction parallel to the pivot axis 16a and has a curved section 17a. The driver 17 has a rounded driver edge 17b and a cam 17c at an end of the curved section 17a remote from the pivot axis 16a, which driver edge and cam serve for transferring a pivot movement from the release lever 18 to the driver 17 (cf.
As can be seen in
In addition,
The release lever 18 is pivotably supported by a pin 32 which engages through an opening 18b of the release lever 18 about a pivot axis 18c (cf.
To transfer the pivot movement to the driver 17 of the pawl 16, the release lever furthermore has a driver cam 18e and a transport cam 18f. To pivot the pawl 16, the block-shaped transport cam 18f presses against the cam 17c of the driver 17 and to arrest the pawl, the transport cam 18f latches with the parking indentation 17d of the driver 17.
Furthermore, the release lever 18 has a blocking cam 18g which cooperates with the pawl 16 and which prevents the pawl 16 from leaving the blocking position or prelatching position (cf.
In the following description, the positions of the pawl 16 and of the catch 12 will be explained first as well as the opening process of the motor vehicle lock 10 with reference to
In
When the motor vehicle lock 10 locks the tailgate, e.g. during drive operation of the motor vehicle, the catch 12 is in the closed position L and the pawl 16 is in the blocking position A and the latching section 16c of the pawl 16 and the blocking section 14a of the jacket surface 14 cooperate (cf.
To unlock the striker, the release lever 18 is pivoted by the drive motor 22 against its preloading force, that is clockwise, until the driver cam 18e of the release lever 18 moves toward the driver 17. The driver 17 and accordingly the pawl 16 are pivoted by the release lever 18 until the pawl 16 leaves the blocking position A and the blocking section 14a of the jacket surface 14 and the latching section 16c of the pawl 16 move out of engagement. The catch 12 then pivots into the preclosing position M due to its preloading force.
The prelocking position M of the catch 12 serves, for example, as a security against an unlocking of the tailgate due to an accidental actuation of the motor vehicle lock 10. In the prelocking position, the fork section 12a engages through the eyelet of the striker and secures the striker. The pawl 16 is located in the prelatching position B in which the latching section 16c blocks the catch 12 via the prelatching section 14b of the jacket surface 14.
To release the striker, the release leaver 18 is pivoted further by the drive motor 22, whereby the release lever 18 pivots the pawl 16 over the driver 17 out of the prelatching position B. The latching section 16c and the prelatching section 14b of the jacket surface 14 thereby move out of engagement and the catch 12 pivots due to its preloading force into the open position N in which the catch 12 releases the striker and unlocks the tailgate. Due to this opening of the catch 12 into the open position, the support section 14c of the jacket surface 14 moves onto the support surface 16d of the pawl 16 and pushes the pawl 16 in the blocking position D in which the pawl 16 cannot block the catch 12.
The operation of the pawl arresting will now be explained with reference to
In
It can be recognized in
Furthermore, the functionally effective contact of the pawl 16 and of the jacket surface 14 of the catch 12 is shown in the lower region of
In particular the cooperation between the driver edge 17b and the driver cam 18e of the release lever 18b at the start of the opening process is shown in
The drive motor 22 first starts to rotate and shortens the band 22a in that it winds the band 22a around a band coil 22b, not shown. The release lever 18 is pulled up to the drive motor 22 via the arm 18a connected to the band 22a by the shortening of the band 22a (cf.
After a specific pivot movement, e.g. of 11 degrees, the driver cam 18 abuts the driver edge 17b since the driver edge 17b lies along the rotational path of the driver cam 18e. If the release lever 18 is pivoted further by the drive motor 22, the driver cam 18e pushes the driver 17 over the driver edge 17b and the pawl 16 leaves the blocking position A.
The state is shown in
If the pawl 16 were to pivot back into the blocking position A due to its preloading force with a closed catch 12, the latching section 16c would engage the jacket surface 14 beneath the blocking section 14a, the catch 12 would be blocked by the pawl 16 and the opening process would be aborted in an undesired manner. In order nevertheless to enable the opening process in such cases, the pawl 16 is arrested by means of the pawl arresting (cf.
As
In
In addition, the cam 17c of the driver 17 of the pawl 16 projects in the release position C out of a window formed in the right side wall 20b, whereby the housing 20 can be realized in a compact and symmetrical manner.
The latch connection is shown more exactly in
As can be seen in
The cooperation of the support section 14c and of the support surface 16d is shown in the lower region of
If the catch 12 is again moved into the closed position or preclosed position, the pawl 16 is pivoted by its preloading force into the blocking position or prelatching position to block the catch 12.
Number | Date | Country | Kind |
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13182616.6 | Sep 2013 | EP | regional |