KR20140139542A - Motor vehicle door lock - Google Patents

Abstract

The present invention relates to a vehicle door lock comprising an actuating / locking lever mechanism (1, 2) having a first lever (1) and a second lever (2), both levers And can be coupled with each other at a relative position. The at least one first lever 1 comprises a detent spring 5 connected to the first lever for cooperation with at least one detent contour 6 on the other second lever 2.

Description

[0001] The present invention relates to a motor vehicle door lock,

The present invention relates to a vehicle door lock having an actuating / locking lever mechanism with a first lever and a second lever engageable with each other in at least two different relative positions.

The prior art disclosed in DE 23 55 556 A describes a vehicle door lock having a locking mechanism including a barrel case with two tong arms. Two barrel arms are mounted on the bolts, respectively. In addition, a spring supported by two bolts of a barrel is provided.

The general state of the art according to DE 89 16 180 U1 discloses two levers, coupling levers and actuating levers which can be coupled together at different relative positions. One relative position corresponds to the combined state, while the other relative position corresponds to the unjoined state. In principle, these devices have proved successful. However, the known solution requires a kinematically complex design and is less suitable for other applications as the joint position change is made by double stroke operation.

In a more modern vehicle door lock configuration with a so-called quick release function, this quick release function can be implemented in the form of, for example, a substantial " keyless entry " Ensuring that the unlocking operation is shortened. For this purpose, a variety of actuating actions are required, with the aid of which the actuating lever chain is moved directly into the unlocking state or a previously interrupted mechanical connection to the release lever is created (DE 10 2005 043 227 B3 Reference). However, this device is generally successful, but can be improved with regard to the coupling used between the levers incorporated in the quick release unit. In practice, there is a general possibility or risk that, for this device, the two levers engaged during this process do not exactly coincide with each other in their relative positions, which causes malfunctions.

The present invention is intended to solve such a situation.

The present invention is based on the technical problem of the combination of the two lever functions and the development of such a vehicle door lock in such a way that the relative position taken can be safely and reproducibly obtained and maintained.

To solve this problem, the comprehensive vehicle door lock of the present invention is characterized in that it includes a detent spring to which at least a first lever is connected for cooperation with at least one detent contour on the second lever.

The detent spring can be connected to the first lever. In this situation, it is possible for the detent spring and the first lever to form and define a single element. Generally, however, the detent springs can also be connected to the first lever in any possible way. It is possible to couple each detent spring to the first lever by riveting, bolting or the like.

In all cases, the first lever with an associated detent spring ensures that the second other lever is actuated by the detent spring.

For this reason, levers with detent springs are designed as fixed levers in most cases. On the other hand, the second lever having the detent outline is a detent lever which can be disposed at a different detent position with respect to the fixed lever. This means that the detent lever is designed to move its position to other detent positions against the fixed lever and against the force of the detent spring while the fixed lever keeps its position regularly. In most cases, at least two detent locations can be realized. According to an advantageous embodiment, three or more detent positions can also be defined.

In order to achieve this configuration in detail, the detent spring and the detent lever can be arranged on the same plane. In this case, the spring force exerted by the detent spring acts in the direction of the plane of the detent lever acting by the detent spring.

However, it is possible and feasible to arrange the detent spring and the detent lever on different planes. In this case, the detent springs and the detent levers thus form different planes and are arranged with respect to one another at regular angles. In most cases, it has been proven advantageous for the detent springs and detent levers to be arranged orthogonally to one another in this situation. This means that in this situation the detent spring applies a spring force orthogonally to the plane formed by the detent lever.

A particularly cost effective and well functioning solution is characterized by the fact that the detent lever is mounted on the fixed lever in the rotational axis. The detent spring is disposed in the region of the rotating shaft. In this situation, the detent spring ensures that the detent spring acts on the detent lever with an orthogonal force with respect to the axial direction of the rotary shaft when the detent spring and the detent lever are disposed on the same plane. Conversely, the arrangement of the detent springs and the detent levers on different planes, in particular the orthogonal arrangement with respect to each other, causes the detent springs to act on the detent levers with axial force. In this case, the spring force exerted by the detent spring acts in the axial direction of the rotary shaft. Generally, an axial force and a force orthogonal to the axial direction of the rotating shaft can be simultaneously applied to the detent lever.

In a preferred embodiment, the detent spring is a leaf spring. In this case, the first lever or the fixing lever has an L-shaped cross section, and the detent spring is disposed on the L-leg. As a result, the first lever or the fixed lever and the detent spring can be manufactured at the same time, which is particularly cost-effective.

The detent contour may be a detent recess that at least partially receives the leaf spring. The detent recess also provides a stop in most cases. This stop represents the first descent position. In addition, at least another second stop may be provided, which corresponds to another detent position of the detent lever relative to the securing lever.

As part of an alternative method, the detent spring may also be a spring washer. In this regard, a coil spring including a plurality of such spring washers may also be provided. In this case, the detent contour is typically designed as a stop edge that interacts with the protrusion on the detent lever. The detent edge is located on the fixed lever, while the protrusion on the detent lever interacts with the detent edge on the fixed lever. The contact of the protrusion on the detent lever against the detent edge of the securing lever corresponds to the first detent position. When the other detent edge is in use on the securing lever, the detent lever may take a different second detent position. Where the securing lever is a longitudinal strip-like lever, the two longitudinal edges of the lever are each available as a detent edge for the first and second detent positions.

As part of the present invention, a detent lever is designed to take at least three different detent positions. In this situation, it has proven advantageous if the detent spring and detent lever are arranged on the same plane. This allows a leaf spring or a dent spring formed on one L-leg of the fixed lever to cooperate with one polygonal contour at the end of the detent lever. Depending on the number of edges of the polygonal contour or polygonal structure, any number of detent positions between the detent lever and the fixed lever may be provided theoretically. Each detent location corresponds to one edge of the leaf spring adjacent the polygonal structure. In principle, the polygonal structure can also be combined with a spring washer as a detent spring. In this case, the spring washer includes an axial web over the polygonal structure and corresponds to a polygonal structure in which each of the diment positions is rotated about a finger-like spanning axial webs It is feasible.

It has proven advantageous if the detent lever takes two or more detent positions compared to the fixed lever, if at least one detent position can be fixed exclusively and exclusively with a detent spring. This means that in this case the detent position is limited only by the cooperation between the detent spring and the detent outline - without additional stoppage.

On the one hand, at least one of the plurality of detent positions can be fixed with the help of the detents as well as the detent springs. In this case, this is the cooperation between the detent spring on one hand and the detent lever, which on the other hand guarantees that the detent lever takes the respective detent position as a whole. It is also generally feasible, of course, that all detent positions of the detent lever can only be fixed with respect to the securing lever by the detent spring. Also all detent positions can be limited due to the fact that the detent springs and each associated stop ensure that the detent lever takes its desired detent position relative to the fixed lever.

Preferably, the detent lever is an unlocking lever, particularly a quick release lever. In this case, the detent lever may be a part of the unlocking lever chain. Conversely, the securing lever is generally a part of the actuation lever mechanism. To perform the quick release function, the detent lever is turned to the moved position or to the second detent position, as compared to the first detent position or the default position. This operation may be a motor-driven operation or a manual operation. As a result of the quick release lever or detent lever taking this shifted position, the release lever acting on the locking mechanism can be moved directly, for example, through the operating lever chain, so that the locking mechanism can be opened without any delay . The overall operation is quick and reliable and can be reproduced as a base position, and the shifted position of the detent lever or quick release lever as a result of cooperation with the detent spring can be taken accurately and reproducibly. These are the main advantages of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings showing only one embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a first embodiment of a vehicle door lock according to the present invention; Fig.
FIG. 2 is a cross-sectional view of the object of FIG. 1 taken along line AA. FIG.
3 is a detailed view of a modified embodiment of Fig.
4 shows a longitudinal section of a second version of the vehicle door lock of the present invention.
Figure 5 is a plan view of the vehicle door lock of the form of Figure 4;

The figures show a vehicle door lock comprising an operating lever mechanism 1 and an unlocking lever mechanism 2. [ This example shows only the first lever or the locking lever 1 of the operating lever mechanism 1, while the unlocking lever mechanism 2 is also shown as the second lever 2. [ In actual situations, not shown in detail, the actuating lever mechanism 1 and the locking lever mechanism 2 also include other levers which are not further identified and which, in this case, are not important.

As before, the actuating lever mechanism 1 is typically mechanically connected to a handle, for example an inner door handle and / or an outer door handle. The operation of the handle for opening the vehicle door belonging to the illustrated vehicle door lock is such that the first lever or the locking lever 1 is rotated counterclockwise in the embodiment shown in Fig. 3). During this pivoting movement, the detent lever 2 mounted on the fixed lever 1 at the rotary shaft 3 does not reach the indicated release lever 4.

On the other hand, when taking the detent lever 2 position or the second position relative to the first detent position or the basic position, which is shown by the solid line, compared to the fixing lever 1 shown by the dashed line The already discussed swiveling motion of the fixed lever 1 triggered by the handle causes the release lever 4 to operate. As a result, the handle can now open the locking mechanism - not shown in detail - by the release lever 4. The trigger lever 4 acts on the pawl, which is not actually shown - to lift the pawl from the rotary latch. The rotary latch opens and releases the already retained locking pin with the aid of the spring. As a result, the vehicle door can be opened directly.

The described process can be carried out manually, for example by means of a detent lever 2, which moves to the switched position, shown by the dashed line in the basic position, shown by the solid line, and / . Actually both levers 1, 2 are coupled to each other in at least two different relative positions, basic positions and switched positions as described. As the first lever or the locking lever 1 includes the detent spring 5 connected thereto, this coupling is a detent coupling. A detent spring (5) is arranged to cooperate with at least one detent contour (6) in another second lever or detent lever (2). In the embodiment shown in Figs. 1 to 3, a detent spring 5 is formed on the first lever or the fixing lever 1. [ The detent spring 5 and the first lever 1 substantially form a single component element.

It is also clear from the sectional view of FIG. 2 that the fixing lever 1 together with the single member detent spring 5 forms the lever 1, 5 whose cross section is generally L-shaped. The fixing lever 1 defines a longer L-leg, while the detent spring 5 is arranged on a shorter L-leg. In this way, the locking lever 1 and the detent spring 5 can be produced in a single operation and in the same operation to keep the cost at a minimum. The detent spring 5 is also designed as a leaf spring 5.

In the example shown in Figs. 1 to 3, it is evident that the detent spring 5 and the detent lever 2 are arranged on the same plane. This means that the spring force F applied by the detent spring 5 acts in the direction of the plane defined by the detent lever 2. This is indicated in Figure 1 by means of a respective force arrow F for the spring force F exerted by the detent spring 5. [

The aforementioned detent contour 6 on the detent lever 2 corresponds to a detent spring or a leaf spring 5. In the embodiment shown in Figs. 1 to 3, the detent spring 5 or the leaf spring 5 has a rectangular cross section, and thus the contour portion 6 also has a rectangular shape. As a result, the detent contour 6 also forms a stop 7 for the tip of the leaf spring 5.

The cooperation between the stop 7 and the detent spring 5 and the detent lever 2 is the same as that of the first detent 2 of the detent lever 2, Location or default location. When the detent lever 2 is out of this position and is turned to the switched position shown by the broken line, another stop 8 with the effect already described above is provided, Tent contour 6 to ensure that the detent lever 2 occupies a defined shifting position. The detent 8 is formed on the fixing lever 1 (single element), in the same manner as the detent spring 5, and thus the manufacturing process thereof is simple and quick. For the purpose of practical operation it is necessary to define the locking lever 1 and the tilted and connected stop 8 together with the inclined detent spring 5 and thereafter the detent lever 2 with the aid of the rotary shaft 3. [ To the fixing lever 1 is sufficient.

3 shows that the detent lever 2 is not arranged to take the two detent positions shown in Fig. 1, i.e., the basic position and the shifted position, and is suitable for taking two detent positions. The detent lever 2 may also take three or more different detent positions. For this purpose, the detent lever 2 in the embodiment shown in Fig. 3 has one polygonal contour portion 9 with a plurality of edges 10 in the region of its terminus on the rotating shaft portion.

Depending on the number of edges 10 of the polygon contour 9, three, four or more different detent positions of the detent lever 2 may be defined and also arranged relative to the fixed lever 1 . In the example, each detent position corresponds only to a detent lever 2 fixed with a detent spring 4. [ That is, of course, though possible, and not part of the invention, no additional stops are used. In the embodiment shown in Figs. 1 to 3, the detent spring 5 and the detent lever 2 are arranged on the same plane as described. In this design, the detent spring 5 acts on the detent lever 2 with a force or a spring force F extending perpendicularly to the axial direction of the rotary shaft 3, as shown in Fig. Thus, the detent lever 2 can perform the switching function and can be moved to a shifted position in the dashed line at the basic position of the solid line shown in Fig. 1 as described with the help of the motor or manually And can be moved back again.

In principle, the embodiment of Figures 4 and 5 operates in the same manner as already described with reference to Figures 1 to 3. 1 and 3, the main difference is that the detent spring 5 and the detent lever 2 are arranged at an angle with respect to each other according to the embodiment shown in Figs. 4 and 5 . In this case, the detent spring 5 designed with the spring washer 5 exerts a spring force F which extends orthogonally to the plane defined by the detent lever 2. 4 and 5, the dentent spring 5 is also not formed on the fixed lever 1, but is connected to the fixed lever 1 via the rotary shaft 3. [ In fact, in the embodiment shown in Figs. 4 and 5, the rotary shaft 3 is designed as a connecting shaft which is acted on by the spring washer 5 for the pivotable mounting of the detent lever 2 on the fixed lever 1.

The detent spring or spring washer 5 ensures that the detent lever 2 is actuated in the axial direction of the rotary shaft 3 by a spring force F generated by a spring or a washer. In this case, the detent spring 5 thus generates an axial force acting on the detent lever 2 in the manner indicated in Fig. In comparison with the fixing lever 1, the change of the other detent positions of the detent lever 2 is the same as the switching force F _s acting on the end opposite to the protrusion 11 in the embodiment shown in Fig. To operate the detent lever 2. The projecting portion 11 on the detent lever 2 actually cooperates with the stopping edge 6 on the fixed lever 1. As is apparent from Fig. 5, the present embodiment includes two opposing detent edges 6, which are defined on each longitudinal edge of the longitudinally extending securing lever 1.

The detent lever (2) to a to move to the broken-line position or the second detent position in its solid line position or its first detent position shown in Figure 5, the switching force (F _s) is the opposite of the projection 11 Should be applied to the end of the detent lever 2 so that the protruding portion 11 can be "lifted " above the fixing lever 1. The protrusions can then be placed or placed on the other opposite edge 6. In this case, at least two detent positions may be defined as shown in Fig. Of course, two or more detent locations are also feasible.

5 shows that the shifted position of the detent lever 2, which is shown by the dashed line, is able to actuate the release lever 4 again. It is not possible if the detent lever 2 is in the default position indicated by the solid line. In this way, the quick release function can be provided again as already described in detail with reference to the form shown in Figs. The present invention is not limited to this, as the decisive factor is generally the cooperation between the two levers 1 and 2, regardless of the function of the two levers.

Claims (15)

(1, 2) having a first lever (1) and a second lever (2), wherein both levers (1, 2) are engageable with each other in at least two different relative positions, Characterized in that one first lever (1) comprises a detent spring (5) connected to a first lever for cooperation with at least one detent contour (6) on another second lever (2) Door lock. A vehicle door lock according to claim 1, characterized in that the detent spring (5) is formed on the first lever (1). 3. A device according to claim 1 or 2, characterized in that the first lever (1) with the detent spring (5) is designed as a fixing lever (1) and the second lever (2) Is designed as a detent lever (2) which can be arranged at a different detent position compared with the fixing lever (1). The vehicle door lock according to any one of claims 1 to 3, wherein the detent spring (5) and the detent lever (2) are arranged on the same plane. The vehicle door lock according to one of claims 1 to 3, wherein the detent spring (5) and the detent lever (2) are arranged on different planes. 6. The vehicle door lock according to claim 5, wherein the detent spring (5) and the detent lever (2) are arranged orthogonally to each other. A vehicle door lock according to one of claims 1 to 6, characterized in that the detent lever (2) is mounted on a fixed lever (1) in a rotary shaft (3). 8. A vehicle door lock according to claim 7, characterized in that the detent lever (5) is arranged in the region of the rotary shaft (3). A device according to claim 7 or 8, characterized in that the spring (5) acts on the detent lever (2) with an axial force (F) and / or a force (F) orthogonal to the axial direction of the rotary axis Wherein the door lock is a door lock. 10. A device according to any one of the claims 1 to 9, characterized in that the diminutive spring (5) is designed as a leaf spring (5) and the diminutive contour (6) A vehicle door lock characterized by a recess (6). 11. A spindle according to one of the preceding claims, characterized in that the dentent spring (5) is designed as a spring washer (5) and the dent contour (6) Is designed as a stop edge (6). 12. Vehicle door lock according to one of the claims 1 to 11, characterized in that the detent lever (2) is designed to take at least three different detent positions. 13. Vehicle door lock according to one of the claims 1 to 12, characterized in that the detent lever (12) can be fixed in at least one detent position only by means of a detent spring (5). Method according to one of the claims 1 to 13, characterized in that the detent lever (2) can be fixed in at least one detent position by means of a detent spring (5) and also with the aid of stops (7, 8) Wherein the door lock is a lock. 15. A vehicle door lock according to any one of claims 1 to 14, characterized in that the detent lever (2) is designed as an unlocking lever and in particular a quick release lever.

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