The invention relates to a motor vehicle door latch, with a locking mechanism fundamentally comprising a catch and a pawl, furthermore with a release element for the locking mechanism, and with a memory element, which guarantees an unimpeded opening movement of the catch from a closed to an open position and also maintains the release element in an ineffective position with regard to the locking mechanism during the opening movement of the catch.
For motor vehicle door latches, the fundamental problem is that, for example, a mechanically initiated opening movement of the locking mechanism does not inevitably also lead to relevant opening of the pertaining motor vehicle door, tailgate, front hood, etc. In fact, for example, the relevant motor vehicle door or flap can be frozen solid. Consequently, the pawl typically lifted from the catch for opening re-engages into the catch after the end of the opening process. As the catch has not opened due to the described blockage of the motor vehicle door, the relevant motor vehicle door latch is closed again. The opening process must consequently be repeated.
In order to control such functional impairments, the state of the art according to DE 10 2006 012 105 A1 works with a drive to lift the pawl and thus to open the locking mechanism. Furthermore, a memory element which is impinged by a spring is executed which keeps the pawl in a lifted position until the catch is opened. To this end, the memory element is maintained adjacent to at least one latch component by means of the relevant spring.
In the class-specific state of the art according to DE 10 2006 032 033 A1, a catch latch is described which is equipped with a storage instrument to maintain the pawl in its release position during rotation of the catch out of its closed position to beyond passing of the pre-ratchet position in a storage position of the storage instrument. For this purpose, the storage instrument comprises a bracing section assigned to a trigger or release element. When the trigger or release element is activated the bracing section steps before a storage step of the catch to reach the storage position. After passing the pre-ratchet position, the bracing section leaves the relevant storage step again.
Within the scope of the also class-specific theory according to DE 10 2012 017 677 A1 or WO 2014/036991 A1 a similar procedure is followed. Because here the memory element maintains the release element in an ineffective position with regard to the locking mechanism during the opening movement of the catch. The pawl is pre-tensioned with the catch in the direction of an external engagement position. Furthermore, a blocking lever interacting with the pawl is assigned to the release element. The blocking lever is located in a frame box around its own axis or rotational axis.
The state of the art has fundamentally been proven, but there is room for improvement. Because the different functions for triggering of the locking mechanism, to execute the actuating movement for triggering and in conjunction with the realized storage position for the described unimpeded opening movement of the catch from its closed to its open position are mainly configured separately from one another. A multitude of constructional elements result. This leads to a protruding and complicated construction on the one hand and can lead to functional defects in particular over long timescales on the other hand. This is where the invention as a whole wishes to provide assistance.
The invention is based on the technical problem of further developing such a motor vehicle door latch in such a way that the number of components is reduced and as many different functions as possible are condensed.
In order to solve this technical problem a class-specific motor vehicle door latch within the scope of the invention is characterized by the memory element at least being formed in two parts with a control lever and a blocking lever interacting with the release element located thereon.
Within the scope of the invention, in the first instance work therefore takes place with at least a dual component memory element. This memory element ensures an unimpeded opening movement of the catch from its closed position to its open position. Because for this purpose the relevant memory element maintains the release element in an ineffective position with regard to the locking mechanism during the opening movement of the catch. The release element is generally a release lever which is often located coaxially to the pawl.
To open the locking mechanism, the release element or release lever is typically pivoted around its common axis compared to the pawl. This pivoting movement of the release element or release lever is generally takes along the pawl and lifts it from the catch in the closed position of the locking mechanism. To this end, the release lever may possess a tap which interacts with a contour on the pawl or vice versa. The release element or release lever and the pawl are located coaxially in a frame box to this end.
A comparable coaxial location in the frame box is observed for the catch and the control lever as a component of the memory element. Thus, an especially compact construction is provided. Furthermore, the control lever uses the axis or rotational axis of the catch and consequently a common bolt anchored in the frame box as a component of the memory element which defines the relevant catch axis. It is a comparable case for the pawl and the release element or release lever which are commonly located on a bolt which is also anchored in the frame box which defines the common pawl axis. With the aid of the control lever and the blocking lever located thereon and interacting with the release element in accordance with the invention, consequently in the first instance the motor vehicle door latch in accordance with the invention can be opened. To this end, the control lever can be moved mechanically and/or in a motorized manner and in particular by means of an electromotor. Due to the coaxial location with the catch it is sufficient to this end if the control lever is pivoted around the common axis with the catch.
The configuration is generally such that the control lever is pre-tensioned with a spring in the direction of its neutral position and is impinged against the force of a spring for interaction with the release element. In order to therefore transfer the control lever from its neutral position to its working position, it is preferred to impinge the control lever as described mechanically or in a motorized manner or by means of an electromotor until the control lever attains its working position. In the working position the control lever with the blocking lever located thereon ensures that the release element or the release lever is pivoted. The direct consequence of this is that the pawl is simultaneously lifted from the catch. Additional a rotational moment is imparted on the blocking lever in a direction of a contour on the locking mechanism.
The working position assumed by the control lever in a motorized manner or mechanically is now frozen or stored so to speak. The same applies to the position of the release element in its ineffective position compared to the locking mechanism. This takes place until the catch has completed its opening movement with regard to the locking mechanism. Only then does the control lever or generally the memory element leave its storage position. The aforementioned spring assigned to the control lever ensures that the control lever is transferred back from its working position into the neutral position.
The blocking lever is advantageously formed as a two-arm lever. A version as an angular lever has proven especially preferable here. The blocking lever possesses a blocking arm which is set up to interact with the release element. Furthermore, a control arm is provided for as a further component of the blocking lever. The blocking arm interacts with a contour on the locking mechanism. The blocking lever can thus be impinged. The impingement of the blocking lever with the aid of the contour on the locking mechanism leads to the blocking lever being pivoted around its axis defined on the control lever.
To this end, the catch is equipped in detail with the contour impinging the blocking arm of the blocking lever. The functionality is configured in such a way that the contour on the catch lifts the blocking lever from the contour on the locking mechanism as soon as the locking mechanism is opened to beyond a ratchet position. Therefore, as soon as the locking mechanism has left the relevant ratchet position and consequently the opening movement of the catch is practically complete, the contour of the catch then interacting with the blocking arm of the blocking lever ensures that the blocking lever is moved from the contour on the locking mechanism. In detail, the blocking arm of the blocking lever and the release element are equipped with corresponding contact surfaces. With mutual contact, i.e. with mechanical contact of the contact surface on the blocking arm of the blocking lever on the one hand and the interacting contact surface on the release element on the other hand, a pivoting movement of the blocking lever occurs. The pivoting movement of the blocking lever due to the interacting contact surfaces commences as soon as the control lever leaves its neutral position. At the same time, the pertaining spring is pre-tensioned hereby. The pivoting movement of the blocking lever is completed in the working position of the control lever. Due to the pivoting movement of the blocking lever, it can interact with a stop fixed to the housing in the working position of the control lever.
In fact, the configuration in detail is such that the blocking lever is adjacent to the relevant stop fixed to the housing with its control arm in the ineffective position of the release element with regard to the locking mechanism. Furthermore, the blocking lever is braced in this ineffective position of the release element on the relevant stop fixed to the housing. The working position of the control lever corresponds to this. Therefore, as long as the blocking lever with its control arm is adjacent to the stop, the release element is automatically maintained in its ineffective position with regard to the locking mechanism. As a consequence hereof, the pawl is also lifted from the catch. Thus, the catch can accomplish its opening movement in an unimpeded manner. The release element is therefore maintained in its ineffective position in respect of the locking mechanism during the opening movement of the catch. In fact, the release element is blocked in this ineffective position because the blocking lever is interposed and is braced with its control arm on the stop fixed to the housing. The storage position of the memory element corresponds to this.
As soon as the catch has mostly completed its opening movement or the locking mechanism is opened to beyond the ratchet position, the contour on the catch enters into an operative connection with the blocking arm on the blocking lever. The interaction between the contour on the catch and the blocking lever ensures that the blocking lever is lifted from the stop fixed to the housing by means of the pivoting movement triggered with the aid of the contour. This all occurs as soon as the locking mechanism is opened beyond the ratchet position. The ratchet position generally corresponds to the main latching position or main ratchet position. The pivoting of the blocking lever is for the purpose of engaging and disengaging the stop fixed to the housing. Once the housing is disengaged, the spring loaded control lever and blocking lever are free to move away from the release lever. The contour on the locking mechanism or the catch therefore controls the memory element and ensures that the storage position of the memory element is lifted. At the same time, the release element leaves its ineffective position with regard to the locking mechanism hereby. This is easily possible because at this time the catch has fully or almost fully completed its opening movement. The described triggering functions overall, the control movement for the memory element and the change from the storage position to the normal function are executed in a functionally particularly simple, compact and cost-effective manner within the scope of the invention. Because the dual-component memory element is practically sufficient for assumption and implementation of the previously described functions which together with the contour on the catch ensures the relevant functional positions. The number of components, i.e. dual-component memory element and contour, is consequently considerably reduced compared to the state of the art. Cost-related and functional advantages result from this.
Hereinafter, the invention is explained in further detail on the basis of a sketch which only depicts an execution example. It shows:
In the figures a motor vehicle door latch is depicted which possesses a frame box 1 with a locking mechanism 2, 3 located therein consisting of a catch 2 and a pawl 3. In the frame box 1 a bolt is respectively determined to define an axis or rotational axis 4 on the one hand and a further bolt to define a further axis or pawl axis 5 on the other hand. Coaxially to the rotational axis 4 a control lever 6 is located as a component of a dual-component memory element 6, 7 also pivotable compared to the frame box 1. Furthermore, a release element 8 formed as a release lever 8 pertains to the basic construction which is located coaxially to the pawl 3 in the frame box 1 on the pawl axis 5.
In
As already explained, the memory element 6, 7 in the execution example is at least configured in a dual-component manner and on the one hand possesses the aforementioned control lever 6 located coaxially to the catch 2 and on the other hand a pivotably located control lever 6 and a blocking lever 7 interacting with the release element or release lever 8. The blocking lever 7 is configured as a two-arm lever. In fact, the blocking lever 7 in the execution example is an angular lever with a blocking arm 7a on the one hand and a control arm 7b on the other hand which stretch respectively at an angle compared to the rotational axis 11 defined on the control lever 6. The construction finally comprises a stop 12 fixed to the housing. The stop 12 fixed to the housing is generally located in or on a housing or housing lid which is not illustrated and stretches above the frame box 1 coinciding with the respective drawing plane so to speak.
It operates as follows.
The impingement of the control lever 6 leads to the control lever 6—as described—being pivoted in a clockwise direction coaxially to the catch axis 4 according to the execution example. This occurs against the force of a spring 6b. In fact, the relevant spring 6b for impingement of the control lever 6 ensures that it is pre-tensioned in the direction of its neutral position illustrated in
In the transfer of the control lever 6 from its neutral position according to
At the same time, by the adjacency of the blocking lever 7 or the described movement of the control lever 6 the release lever 8 is pivoted as indicated in a clockwise direction around its common axis 5 with the pawl 3. As a consequence hereof, the release lever 8 takes along the pawl 3 and lifts it from the catch 2. This can occur by a reciprocal engagement of a tap into a contour between the release lever 8 and the coaxially located pawl 3 and is not depicted in detail. In the storage position of the memory element 6, 7 according to
As a consequence hereof, the catch 2 in the functional position can be opened in a spring-assisted manner according to
At the same time, in the transition from
As the release element or release lever 8 is blocked via the blocking lever 7 bracing the stop 12 fixed to the housing in respect of the housing or motor vehicle door latch housing the release lever 8 cannot accomplish an anti-clockwise direction movement around its axis 5 initiated by a spring, for example. The pawl 3 is consequently maintained in its raised position in respect of the catch 2 with the aid of the release lever 8. This storage position of the memory element 6, 7 or the corresponding ineffective position of the release element 8 in respect of the locking mechanism 2, 3 in
Starting from the storage position in
As soon as the contour 15 can now interact with the blocking lever 7, the contour 15 lifts the blocking lever 7 from the stop 12 fixed in the housing. Because as soon as the contour 15 on the catch 2 interacts with the blocking lever 7, this leads to the blocking lever 7 accomplishing the pivoting movement in an anti-clockwise direction around its axis 11 indicated in
As soon as the blocking lever 7 located on the control lever 6 now accomplishes the anti-clockwise direction movement around its axis 11 indicated in
However, as in the functional position in
This application claims priority to U.S. Provisional Patent Application No. 62/436,123 filed Dec. 19, 2016, which is hereby incorporated herein by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
4334704 | Yamada | Jun 1982 | A |
4927204 | Asada | May 1990 | A |
5897148 | Arabia, Jr. | Apr 1999 | A |
6003910 | Dupont | Dec 1999 | A |
6059327 | Yoshikuwa | May 2000 | A |
6079237 | Hochart | Jun 2000 | A |
6267420 | Miyagawa | Jul 2001 | B1 |
6575507 | Reddmann | Jun 2003 | B2 |
7059640 | Tensing | Jun 2006 | B2 |
7467815 | Larsen | Dec 2008 | B2 |
7475920 | Bigazzi | Jan 2009 | B2 |
9677305 | Bendel | Jun 2017 | B2 |
9874046 | Wittelsbuerger | Jan 2018 | B2 |
20040094971 | Warmke | May 2004 | A1 |
20080224482 | Cumbo | Sep 2008 | A1 |
20150233156 | Scholz | Aug 2015 | A1 |
20180171681 | Hunt | Jun 2018 | A1 |
Number | Date | Country |
---|---|---|
3414475 | Dec 1985 | DE |
10312093 | Mar 2004 | DE |
10 2006 032 033 | Mar 2007 | DE |
10 2006 012 105 | Sep 2007 | DE |
102008009506 | Aug 2009 | DE |
10 2012 017 677 | Mar 2014 | DE |
1669526 | Jun 2006 | EP |
2768761 | Mar 1999 | FR |
3143586 | Mar 2001 | JP |
2003054332 | Jul 2003 | WO |
2014036991 | Mar 2014 | WO |
Entry |
---|
Written Opinion of related International Patent Application No. PCT/IB2017/001430 dated Jun. 28, 2018. |
Number | Date | Country | |
---|---|---|---|
20180171678 A1 | Jun 2018 | US |
Number | Date | Country | |
---|---|---|---|
62436123 | Dec 2016 | US |