Patent Application
20110169282
The present invention relates to a lock unit comprising at least one catch, wherein the catch has a primary position and a first position. An additional main pawl with an axis of rotation as well as a blocking pawl are provided, wherein the blocking pawl blocks the main pawl upon engagement with the catch. Further, the lock unit comprises a first pawl, which is rotatably disposed on the axis of rotation of the main pawl and is engageable with the catch.
Such lock units are mainly used for locking doors and/or hatches of motor vehicles.
Such a lock unit is described, for example, in WO 208/061491 A1. In the locking mechanism described therein comprising a catch, a release lever, a pawl, and a blocking lever, the primary position and the first position of the catch are disposed in two different planes and are actuated by two different levers, namely, the operating lever (for the first position) and the pawl (for the primary position). The locking mechanism has proven successful, but can be further improved.
Such lock units may be improved in this context, as an important example, by reducing the release forces and increasing the operational comfort. In addition, one must also consider that these components are mass-produced. The technical and cost factors must, therefore, also be taken into account. The integration of such lock units into motor vehicles must occur while taking into account the tight installation space available as well as the desirability of a long lifetime and a variety of operating activities. The noise of the lock unit or the locking mechanism plays an important role during its actuation.
On this basis, it is the task of the present invention to solve the prior art problems, at least partially. In particular, a lock unit is taught, which features reliable operation and low noise. In addition, components of the locking mechanism are actuatable and movable toward one another by simple means.
These tasks are achieved with a lock unit having the features as in claim 1. Advantageous embodiments of the locking device are given in the dependent claims. It should be noted that in the claims, individually listed features can be combined in any technologically sensible way and to show further embodiments of the invention. The description, especially taken together with the figures, provides more details of the invention and the particularly preferred embodiments.
Accordingly, a lock unit is taught, which comprises at least one catch, wherein the catch comprises a primary position and a first position, a main pawl with an axis of rotation, a blocking pawl, which arrests the main pawl upon engagement with the catch, and a first pawl, which is rotationally disposed on the axis of rotation of the main pawl and is engageable with the catch. In addition, the lock unit comprises at least one elastic element that provides tension, at least part of the time, between the blocking pawl and the first pawl, wherein the tension is the largest in the open position of the catch.
Such a lock unit is normally arranged in a (at least partially) sealed lock housing, which is disposed on the vehicle body, especially on the door of the vehicle. Such a lock unit comprises a locking mechanism, of which the catch is a key component. The catch is used for fixing a catch bolt (also called a locking bolt or a latch pin). The catch, in its closed position, surrounds a part of the catch bolt. In this closed position, the main pawl sits closely against the primary position of the catch. The primary position is particularly a recess or a projection at the circumference or the side area of the catch. The main pawl is rotatably mounted on an axis of rotation, which is disposed away from the axis of rotation of the catch. The catch, in addition to its open position and its closed position, also has an intermediate position, the so-called first position. In this first position, the closing movements of the lock unit or the vehicle door are not completely finished. However, the catch is already blocked to prevent the catch bolt from being released. In this first position, the first pawl engages with the catch, namely, the first pawl contacts the first position of the catch. The first position may be formed as a protrusion or recess on the periphery or side surface of the catch. The main pawl and the first pawl are mounted on a common axis of rotation and can be pivoted relative to one another, especially because of their asynchronous engagement with the catch. The arrangement of the main pawl and the first pawl on a single axis leads to a particularly compact design of the locking mechanism. Moreover, it should be noted that the catch, the main pawl, the blocking pawl and/or the first pawl may be components made of metal fabricated by stamping.
Known are locking mechanisms, in which the main pawl alone holds the catch in the closed position. However, also known are locking mechanisms, in which the catch and the pawl form a “self-opening mechanism.” In such a locking mechanism, the catch is spring-loaded, and a force acts on the catch in a closed position via the door seals and the catch bolt. Because of this force, the catch transfers a moment of rotation onto the main pawl when the catch and the pawl contact each other in the area of the primary position. This means that the main pawl must be secured or blocked so that it is not pushed away by the catch. For this purpose is provided a blocking pawl, which arrests the main pawl during its engagement with the catch. The blocking pawl, which blocks the self-opening mechanism, is positioned such that the blocking pawl rests against the main pawl on the side of the main pawl, which lies opposite the catch. In this way, the blocking pawl works against the moment of rotation formed by the catch with respect to the main pawl. This blocking pawl is preferably also pivotable.
Moreover, provided is also an elastic element, which acts between the blocking pawl and the first pawl such that these components are tensioned against each other, and the motion of one element is transferred onto the other via the elastic element. This interaction of the elastic element with the blocking pawl and the first pawl need not apply for all available positions of the lock unit, but such a design is preferred. The elastic element is particularly designed or arranged such that by moving the blocking pawl and/or the first pawl, a variable spring force is achieved between these components. It is particularly preferred that the largest spring force is provided when the lock unit is in the open position. However, in a preferred embodiment, a positive spring force is also deployed in the closed position. Thus, in the closed position, the blocking pawl acts on the main pawl such that the main pawl is positioned in front of the primary position of the catch, and, additionally, the first pawl is pre-tensioned toward the catch via the elastic element such that the elastic element is fixed in a predetermined position and is relatively quiet, even during operation of the vehicle and vibrations associated therewith. In principle, the elastic element can also be executed in several parts, although a one-piece design is preferred. In principle, a plurality of elastic elements may act between the blocking pawl and the first pawl, but to reduce the number of parts, it is preferred to provide a single elastic element. The elastic element is most preferably made of a metallic material.
It is preferred also that the at least one elastic element, at least during the closing operation of the lock unit, transfers a moment of rotation both onto the blocking pawl as well as onto the first pawl. Thus, the elastic element acts, in particular, as a return spring for these components such that the components are able to assume their preferred stop positions. Especially in this case, the restoring force, provided by means of the elastic element, should be the greatest in the arrangement in which the blocking pawl and the first pawl are in the open position of the catch up until the first position and, thereafter, the restoring force should be partially reduced, wherein the remaining restoring force should be at least sufficiently large so as to pivot the blocking pawl against the catch when the primary position is reached. To ensure reliable operation of the components, it is preferred that, in this phase, a spring force acts between the blocking pawl and the first pawl.
Such a configuration of the elastic element increases the safety during operation of the lock unit. In known locks, many individual reset springs are used, which allow for a closing movement, even when the single reset spring is broken. Thus, it is not evident to the user that a malfunction is present. In contrast, when the elastic element of the lock described here is faulty, the drive for the first pawl, which engages with the catch, fails to engage with the catch, and, at the same time, the spring force is secured against the catch such that the lock unit can no longer be closed. Thus, a sensor-based monitoring of the components can be easily implemented.
According to a further embodiment of the lock unit, the elastic element comprises a spring, and the spring is preferably mounted together with the blocking pawl. The elastic element can, in principle, also include other components, but an implementation with a single spring is preferred. The elastic element is most preferably made of a metallic material. For a space-saving arrangement, the spring is mounted on the rotational axis of the blocking pawl. It is possible that a part of the spring is positioned such that it is stationary, but it is also possible that the entire spring can rotate about a rotational axis of the blocking pawl, depending on the different positions of the blocking pawl and/or the first pawl. In any case, it should be ensured that the position of the spring between the two elements, the blocking pawl and the first pawl, is maintained safely. Principally, it is possible that the elastic element or spring cooperates with the outer contour of the blocking pawl and/or the first pawl, but is also possible that the elastic element, or, as the case may be, a spring, engages into a corresponding recess (for example, a side surface, which may be a hole) of the blocking pawl and/or the first pawl.
In addition, in a preferred embodiment of the lock unit, the blocking pawl and/or the first pawl are connected to an actuating element. The actuating element may be implemented, in particular, as a lever and is used for, example, to initiate an opening movement, wherein it is connected by a lever mechanism and/or Bowden cables with a door handle. The blocking pawl and the first pawl can move synchronously or asynchronously with the actuating element. Even a single actuation is possible.
Moreover, advantageously, the catch moves the main pawl alone out of the closed position when the blocking pawl sets free the main pawl. The preceding sentence relates in particular to the so-called “self-opening mechanism” described above.
In a further embodiment of the invention, the main pawl is engageable with the primary position and the first pawl is engageable with the first position, wherein the main pawl and the primary position are disposed in a first plane and the first pawl and the first position are disposed in a second plane. In other words, the blocking of the catch in this locking mechanism occurs in two different planes, perpendicular to the axis of rotation of the catch. The first position is implemented, e.g., as a projection on the side of the catch. It is particularly preferred that the blocking pawl is disposed in the first plane.
In this context, it is preferred that a first leg of the elastic element lies tightly against a first backdrop of the first pawl, at least part-time, and a second leg of the elastic element lies tightly against a second backdrop of the blocking pawl, at least part-time, wherein the first leg of the elastic element is disposed in the second plane and the second leg of the elastic element is disposed in the first plane.
The first leg and the second leg of the elastic element are preferably of an L-shaped design, whereas the portion of the elastic element that connects the legs is wire-like and is disposed like a spiral around the bearing of the blocking pawl. With their short bent end portion, the legs contact the first backdrop of the first pawl or the second backdrop of the blocking pawl at the circumference. It is preferred that, during the movement of the first pawl, the first leg is relatively free to move on the first backdrop of the first pawl, or, as the case may be, is led along the first backdrop of the first pawl. To this end, the first backdrop of the first pawl preferably has a guide section of several millimeters, for example, up to 5 mm or up to 10 mm. In addition, it is also preferred that such a fixation of the second leg at the blocking pawl is not implemented, but rather that a fixed position at the blocking pawl is realized. This is especially made possible because the contact point of the second leg at the blocking pawl turns with the entire surface structure such that the distance to the bearing does not change.
In a further embodiment of the lock unit, the first pawl comprises an arm for limiting the rotational angle, which rests part-time against a stop for limiting the rotational angle. The first pawl not only has an arm that is ultimately brought in contact with the first position of the catch, but, in addition, also has a smaller arm for limiting the rotational angle, which particularly projects laterally. In addition, in this lock unit, provided is a stop for limiting the rotational angle in a position between the first pawl and the blocking pawl. This stop for limiting the rotational angle may be implemented as a pin and, when appropriate, may be surrounded by cushioning material.
When the catch has reached a position between the first position and the primary position, the first pawl is actuated by means of the elastic element into a position such that the arm for limiting the rotational angle presses against the stop for limiting the rotational angle. In other positions of the catch up until the open position, the first pawl lies tightly against the catch and is fixed in a predetermined position by means of the elastic element and the catch.
The invention has particular application in a motor vehicle comprising at least one inventive lock unit described herein.
The invention and the technical background are explained in more detail hereinbelow with reference to the figures. The figures show particularly preferred embodiments of the invention, but the invention is not limited thereto.
First, it must be noted that identical components are labeled in the figures with identical reference characters.
The catch 2, which is usually mounted to rotate on a rotational axis 23, comprises a catch bolt recess 22, a primary position 8, and first position 9. In the closed state, shown in this figure, the catch bolt 21 is securely received and held in the catch bolt recess 22 of the catch 2. The rotation of the catch 2 (here clockwise), which is a result of the preloaded spring tension, is hampered because the main pawl 3 fits tightly against the primary position 8 of the catch 2. Within this contact area, a force is transmitted from the catch 2 onto the main pawl 3, which is not directed onto the axis of rotation 4 of the main pawl (self-opening mechanism). The force transmitted from the catch 2 onto the main pawl 3 results in a torque on the mail pawl 3 in the clockwise direction.
In order to prevent the rotation of the main pawl 3 as a result of the torque 24 and, in turn, to prevent the opening of the lock unit 1 by releasing the catch 2, the main pawl 3 is blocked from pivoting in the clockwise direction by the blocking pawl 5, which is pivotably disposed on the axis of rotation 26 of the blocking pawl. In other words, the blocking pawl 5 forms a stop 25 for the main pawl 3 in the closed position of the lock unit 1, wherein the applied force is transferred through the axis of rotation 26 of the blocking pawl. Thus, the main pawl 3 is securely fixed to the primary position 8 of the catch 2. Consequently, even during a further counter-clockwise rotation of the catch 2 (for example, when the door seal is compressed), a secure positioning of the main pawl 3 is guaranteed by the blocking pawl 5.\
On the blocking pawl 5, rotatably arranged around the axis of rotation 26 of the blocking pawl 5 is an elastic element 7. This elastic element 7 is implemented as a (return) spring 10 and comprises a first leg 14 and a second leg 15. The first leg 14 is engaged with a first backdrop 16 of the first pawl 6, and the second leg 15 is engaged with a second backdrop 17 of the blocking pawl 5. The first backdrop 16 and the second backdrop 17 are implemented such that the end sections 28 of the first leg 14 and of the second leg 15 can slide on the respective surfaces (guide section 29).
Alternating torques are imparted onto the blocking pawl 5 and the first pawl 6 via the elastic element 7. It is preferable that the current spring force is changed or set only by the positions of both components, the blocking pawl 5 and the first pawl 6. In order to limit the resultant anti-clockwise rotation of the first pawl 6, the first pawl 6 comprises an arm 12 for limiting the angle of rotation, which strikes a hollow cylindrical stop limiter 13 in the closed position of the lock unit 1.
In the second plane 19 (see
An actuating element 27 is provided for initiating the opening sequence. The actuating element 27 simultaneously actuates the blocking pawl 5 and the first pawl 6, wherein the actuating element 27 is implemented, e.g., as a pivotable lever plate.
The device illustrated in
| Number | Date | Country | Kind |
|---|---|---|---|
| 20 2008 012 706.8 | Sep 2008 | DE | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/DE09/01318 | 9/18/2009 | WO | 00 | 3/18/2011 |
