The invention pertains to a lock assembly of the type indicated in the introductory clause of Claim 1. Here a mobile part is free to move with respect to a stationary part of the vehicle body, this movement normally being of a pivoting type between a closed position and an open position of the mobile part. The closed position of the mobile part is secured by a lock. Such locks are usually operated electrically and/or by remote control. In an emergency, however, such as when the electrical control system fails, the lock can be unlocked mechanically by using a key to actuate a lock cylinder.
These lock assemblies also include a handle on the mobile part, this handle being free to pivot in a plane perpendicular to the vehicle body. Normally, i.e., when at rest, the handle is in its down position, which is flush with the vehicle body. In this position, the handle protects the lock cylinder. So that the mobile part can be opened manually, the handle is swung out into its open, projecting position. It is thus possible to grip the handle conveniently and to pull the mobile part open. In an emergency situation, the lock cylinder is also accessible to the key when the handle is in its up position.
In the known lock assembly of this type (DE 100 45 224 A1), the lock cylinder is mounted permanently in a housing, which is built into the rear hatch of the vehicle. The opening in the housing is normally closed by a cover, which can be pivoted around an axis parallel to the plane of the cover. In its open position, the cover functions as a handle, which can be used to open the rear hatch. The axis of the stationary lock cylinder is oriented toward the opening in the housing. The output of the stationary lock cylinder is connected permanently to the lock, so that, in an emergency, the lock can be moved by the inserted key between its locking position and its unlocking position. For safety reasons, the lock cylinder must be of considerable length, so that the required number of tumblers can be lined up next to each other in the axial direction. This means that the unit takes up an undesirable amount of space in the area assigned to it in the rear hatch—space which is very limited to begin with.
In a known lock assembly of a different type (DE 199 29 243), the keyhole of the lock cylinder is located behind the cover of the vehicle emblem provided on the mobile part. The key can be provided with access to the lock cylinder simply by pivoting or pushing aside the cover. The emblem does not serve as a handle for opening the mobile part. The lock cylinder rests in the mobile part behind the movable cover.
A lid lock for a trunk lid is known (DE 802 046), which consists of two directly adjacent lock parts, which extend across the joint between the movable trunk lid and the stationary trunk lining. The lock part seated on the lining has a spring-loaded locking bar, which extends across a bottom plate of the adjacent lock part, which is seated on the trunk lid. The actual handle is pivotably supported on the bottom plate and is spring-loaded in the direction toward its down position. Although a lock cylinder moves along with the handle, the insertion opening for the lock cylinder is on the visible side of the handle. As a result, the lock cylinder is accessible to the key both in the down position and also in the projecting position and is therefore always unprotected.
The lock cylinder can therefore easily become dirty and thus unusable. In addition, the lock cylinder serves only to secure the handle in its down position on the bottom plate. No provision is made for an emergency situation. So that the handle can be pivoted into its projecting position, the lock cylinder must be actuated by the key. During this pivoting movement, a profile edge of the handle of the lock part on the lid pushes the locking bar of the adjacent lock part far enough away that it releases the bottom plate.
In a lock assembly according to the not previously published DE 101 23 939 A1, the cover does not serve as a handle by which the mobile part can be swung open, but rather as a rocker to actuate the electrically motorized opening of the mobile part. A lock cylinder is mounted on the rear surface of the cover. When the cover is in its down position, this cylinder points into the interior of the mobile part. The cover is pivotably supported at its center so that it can pivot around a horizontal axis and is held in its covering position by a spring. The cover can be moved from its covering position into three different pivot positions. When the cover, which functions as a rocker, is pivoted around a small angle of 15°, it actuates a microswitch, which electronically opens the lock. In this first pivot position, the rear-side lock cylinder cannot be reached by the key. In an emergency, the cover can be pivoted manually around a larger angle of approximately 45° until a spagnolet, located on the output of the lock cylinder makes contact with a stationary lobe on the mobile part. Now, however, the key can be inserted into the lock cylinder, as a result of which the spagnolet is pivoted away from the lobe, and a mandrel on the lock cylinder comes into alignment with an axially movable pin in the interior of the mobile part. Now the cover can be moved manually into a third pivot position, where the mandrel meets the pin and pushes it axially inward. As a result, an unlocking device inside the vehicle is mechanically actuated.
The invention is based on the task of developing a reliable lock assembly of the type indicated in the introductory clause of Claim 1 which is designed to be more compact in the depth direction. This is accomplished according to the invention by the measures cited in Claim 1, to which the following special meaning attaches:
In the invention, the handle and the lock cylinder form a combination, which moves as a unit during the pivoting movement; this combination carries the first element of a rotating coupler. When the combination is in its outwardly-pivoted, projecting position, the lock cylinder, which is on the rear side, is accessible to the key. When the lock cylinder is turned by the key, the first element is turned as well, for which reason it will be referred to in the following as the “rotating coupler element”. A second, opposing element of this rotating coupler is mounted at a defined point on the mobile part, and when it is turned, its rotational movement is intended to act on the lock. This second, opposing element will be referred to in the following as the “opposing rotating coupler element”.
Normally, in the down position of the combination, the rotating coupler element located on the combination is disconnected from the opposing rotating coupler element, for which reason, aside from the fact that that the lock cylinder is inaccessible to the key, no torque can be transmitted between the lock cylinder and the opposing element. Because the opposing rotating coupler element is mounted in the same perpendicular plane in which the rotating coupler element moves during the pivoting movement of the combination, the coupling area of this first element travels into the opposing coupling area of the opposing element during the last phase of the opening movement, for which reason it is now possible for torque to be transmitted by the key-actuated rotation of the lock cylinder. In the projecting position, therefore, the torque being transmitted is able to move the lock from its unlocking position into its locking position and vice versa.
In the invention, therefore, the lock cylinder assumes two different positions in the mobile part of the vehicle body, one being the down or closed position, the other the outwardly-pivoted, projecting position. In the down position, the lock cylinder is advisably parallel to the handle, which means that it extends essentially in the main direction of the vehicle body. The large available height of the handle can be used to accommodate the lock cylinder. Because the lock cylinder extends in the main direction of the handle, it is possible to install a large number of tumblers in the cylinder, which increase the number of possible permutations. The lock cylinder and the key can have a very extensive code, which improves the anti-theft security of the lock assembly according to the invention. In the depth direction of the mobile part, the inventive lock assembly occupies a surprisingly small amount of space, which corresponds only to the cross section of the lock cylinder. Because the lock cylinder is always oriented in the main direction of the handle, it is accessible to the key even at relatively small pivot angles. In the outwardly-pivoted position, the lock cylinder of the combination extends considerably beyond the vehicle body.
Additional measures and advantages of the invention can be found in the subclaims, in the following description, and in the drawings. The drawings illustrate an exemplary embodiment of the invention:
The drawings show only a part of a rear hatch 10, serving as a mobile part of the car body. A structural unit 11, consisting of a shell-like housing 30 and a handle 21, which normally closes off the opening 31 of the housing, is mounted in the rear hatch 10. Fastening means 39 for the handle can be seen in
It can be seen from
The output 43 of the lock cylinder is normally connected nonrotatably to a first element 45 of a rotating coupler by way of a freewheel coupling 46, comprising several elements known in and of themselves; the coupling point at the end of the rotating coupler consists of the interior space 47 of a fork. This rotating coupler element 45 is also a component of the combination 20 and accompanies its pivoting movement 25. It will be referred to as the “movable rotating coupler element 45”.
In the housing 30, a “stationary opposing rotating coupler element 35” is assigned to this movable rotating coupler element 45; this opposing element has a flat profile piece 37, which serves as its coupling point. When the two parts are coupled together, the flat profile piece 37 fits into the interior space 47 of the fork of the movable rotating coupler element 45. The stationary opposing rotating coupler element 35 is supported rotatably at a defined point in the housing wall 33 by means of a bearing neck 36. On the outside of the housing 31, it is connected nonrotatably by way of an intermediate element 34 and a restoring spring 38 to a driver 16. A link chain 50, which, in the present case consists of a Bowden cable and which leads to the lock in the rear hatch 10, is connected to the driver 16. The core 51 of the Bowden cable, as can be seen at 17 in
In the down position 20.1 of the combination 20, the previously described movement of the driver 16 is not possible, because the cylinder axis 44 of the movable rotating coupler element 45 is separated from the axis of rotation of the stationary opposing element 35 by the angle 19 shown in
The outward pivot angle designated by the number 19 in
Another component of the combination 20, as
The protective sleeve 27, 29 prevents the opposing element 35 from being manipulated during every phase of the pivoting movement 25, but it also functions in this way both in the down position 20.1 of
The narrow sleeve section 27 has a flattened area 28 on the side facing in the direction of the pivoting movement; this flattened area forms the previously mentioned stop which cooperates with the counterstop 48 on the housing. As
As
As can be seen in the side view of
As can be seen in
As can be derived from
Number | Date | Country | Kind |
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102 34 553.8 | Jul 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/07670 | 7/16/2003 | WO | 1/28/2005 |