Patent Application
20140291998
The present invention relates to a locking mechanism for a motor vehicle lock comprising at least a rotary catch, a pawl, and a blocking lever. Such motor vehicle locks are used for motor vehicles, in particular for locking of doors, tailgates, or similar.
Known lock units, as described in DE 10 2007 003 948 A1, consist of a rotary catch, a first pawl with a pawl rotation axis, and a blocking lever, where in the locked position the catch transfers a pivoting moment onto the first pawl, which is fixed by the blocking lever. In that, the catch transfers an opening moment onto the pawl. Furthermore, a second pawl is provided, which is mounted to the pawl rotation axis and which may be engaged with the pawl via a blocking lever. In this embodiment the first pawl forms a so-called fully-closed stop pawl, the second pawl forms a so-called preliminary-closed stop pawl. Usually, the lock unit is at the same time activated through a second pawl which during the opening process normally deviates the blocking lever so that the catch on its own pushes away the first pawl as soon as the blockage is released.
From DE 10 2008 061 524 A1, a lock unit of the generic kind is known, which consists of a spring loaded catch, a pawl, and a blocking lever for the pawl, with an opening moment towards the catch, so that the lock positions fully-closed stop and preliminary-closed stop may be accomplished by means of only one pawl with a blocking lever. Consequently, there is no need for a second pawl.
The lock unit according to DE 10 2009 029 674 A1 also does without a second pawl and in addition is designed in a way that it blocked the pawl in preliminary-closed stop as well as in fully-closed stop, however, without a positive locking of the catch and the pawl in both positions. Such lock units have already been produced in high quality and serial production and have proved particularly with regard to operational comfort and noise development.
The present invention presents a locking mechanism for a motor vehicle lock which consists of few components only and at the same time guarantees high operational safety along with small operating force.
More particularly, the present invention provides a lock mechanism for a motor vehicle lock comprising a rotary catch, a pawl for positive locking the catch in a preliminary-closed stop position as well as in a fully-closed stop position, and a blocking lever for blocking the pawl, when the pawl is in its preliminary-closed position as well as in its fully-closed stop position.
In a preferred embodiment of the invention the blocking lever is designed so that it can overtravel the pawl from its preliminary-closed stop position as well as from its fully-closed stop position.
In a further embodiment the lock mechanism for a motor vehicle lock comprising a rotary catch, a pawl for positive locking the catch in a stop position and a blocking lever for blocking the pawl when the pawl is in its preliminary stop position and in its fully-closed stop position, wherein the blocking lever is designed so that it can overtravel the pawl from both the preliminary-closed stop position and the fully-closed stop position.
In a further preferred embodiment of the invention the pawl has two lever arms, arranged in opposite directions to a pawl rotational axis, with a pawl detent arm with a detent surface and a blocking surface, and with a pawl driving arm.
Also, the lock mechanism according to the invention comprising a blocking lever with two lever arms which preferably are arranged in opposite directions to a blocking lever rotation axis, wherein one lever arm acts as blocking lever release arm with a pawl driver arm, and wherein the lever arm possesses a blocking arm with a blocking surface for the pawl, and a pawl driver arm.
In one embodiment of the invention the blocking lever is blocking the pawl via the blocking arm in pawl fully-closed position as well as in pawl preliminary-closed position when the blocking arm surface contacts the blocking surface of the pawl in pawl opening direction.
In a further preferred embodiment the locking mechanism shows, that the blocking lever ensures that the pawl is completely released from the preliminary-closed position as well as from the fully-closed stop position by means of the release driver arm rising from the blocking lever release arm
In an embodiment, the lock mechanism may also be designed so that the blocking lever when releasing the pawl is driven by a lock release lever connected to the door or hatch opening mechanism or by the rotary catch via the blocking lever driving arm.
In an other embodiment the lock mechanism is designed so, that the blocking lever when releasing the pawl is driven by the blocking lever driving arm via a recess in the catch.
In a further embodiment of the invention, the pawl and the blocking lever are both spring-preloaded in clockwise direction.
A further embodiment of the invention shows, that the rotary catch consists of two segments which form the lock bolt inlet, with one segment acting as preliminary-closed stop), and the second segment acting as fully-closed stop, where the stops are beveled and provided with self-opening moments.
In particularly, the invention relates to a motor vehicle lock with a lock mechanism for securing of a motor vehicle door.
Such vehicle locks are regularly used to secure hatches, i.e. vehicle doors or tailgates. The motor vehicle lock is normally mounted in or at a motor vehicle hatch or door. The lock bolt, interacting with the motor vehicle lock of the hatch, is normally mounted to the car body. However, a reversed array of the motor vehicle lock and the lock holder may be possible and in accordance with the invention.
The present invention enables the provision of a low-noise locking mechanism for a motor vehicle lock that may be opened without much effort, and which at the same time guarantees high operational safety. The locking areas of the fully-closed stop and the preliminary-closed stop are beveled in a way which allows the self-opening of the lock unit after the catch has been blocked into the fully-closed stop and the preliminary-closed stop. Consequently, the invention provides a self-opening locking mechanism unit. Especially caused by pressure in the door seals the rotary catch normally exerts a certain pressure on the pawl, this pressure causing the pawl to be pressed out of the stop position. In order to block locks of this kind a blocking lever is needed to stop the pawl that in locked position is tending to open. The blocking lever may be released with relatively low force. Afterwards the lock unit basically opens on its own.
Moreover, the invention enables the provision of a locking mechanism for a motor vehicle lock is provided that with the positive locking of the catch and the pawl ensures the secure blocking of the pawl by the blocking lever in preliminary-closed stop as well as in fully-closed stop position. That means, even if in the closing process the respective door or hatch does not reach the fully-closed position, interlocking will be secured by the blocking lever.
Additionally, in both stop positions a secure gliding of the pawl can be guaranteed. This is achieved with by the so-called overtravel of the pawl opening movement, in fully closed stop position through a driver in the blocking lever that is activated through the door opening chain, in preliminary stop position through the rotary catch. As used herein, overtravel means driving the pawl via a driver until the respective interlocking is completely and securely deactivated.
The blocking lever not only can guarantee secure interlocking of the lock in both the preliminary -closed stop and the fully-closed stop position, but due to the overtravel can also guarantee the secure releasing of the pawl out of both positions. In case of the fully-closed stop position the blocking lever will be driven by the lock release mechanism caused by the door handle, in case of the preliminary-closed stop the lever will be driven by the pawl.
Thus, the lock provides for highly reliable closing of doors or hatches. It is advantageous that this locking mechanism is composed of few parts only and does not need two pawls. Thus, costs are reduced and less space for mounting the lock is needed. The lock unit may be produced at low material cost.
Further advantageous embodiments of the invention are presented by combining features of the appended claims in any technologically sensible manner, thus defining further embodiments of the invention. In addition, characteristics presented in the claims are further specified and explained in the descriptions, and further preferred embodiments of the invention will be illustrated.
The invention as well as the technical surrounding field will be further explained with the below figures. The figures show special embodiments; the invention is not limited to these figures.
Furthermore, the pawl 9 has a pawl drive arm 23 on the far side of the catch for pivoting of the catch 9 into the opening direction 25. The blocking lever 14 has two lever arms 16, 17, which preferably arranged in opposite direction to the blocking lever axis 15, with one lever arm 17 acting as drive lever 17 with a release arm driver 20, the other lever arm 16 being equipped with a pawl blocking arm 19 with a blocking area 19 and a catch-driven (6) blocking lever driving arm 24. Both the pawl 9 as well as the blocking lever 14 are spring-preloaded in clockwise direction.
Even if a door or hatch of a motor vehicle 31 does not reach the fully-closed position 41 of the lock, locking of the pawl 9 is obtained by the blocking lever 14. The blocking lever drive arm 24 of the blocking lever 14 has inserted in only a part of the thickness of the catch 6 recess 21.
