This is a National Stage Application of International Patent Application No. PCT/DE2010/000657, with an international filing date of Jun. 11, 2010, which is based on German Patent Application No. 10 2009 026 921.5, filed Jun. 12, 2009.
1. Field of the Invention
The invention relates to a lock for a motor vehicle with a locking mechanism comprising a catch and a pawl with which the catch can be locked in a closed position. The invention relates, in particular, to a lock with a pawl for engaging in a primary position (hereafter referred to as the “primary-position pawl”), and a pawl for engaging in a first position (hereafter referred to as the “first-position pawl”) and a blocking lever for engaging said primary-position pawl. Such a lock is known from DE 10 2007 003 948 A1.
2. Brief Description of the Related Art
The catch of a motor vehicle lock has a fork-shaped inlet slot into which a locking pin attached to a vehicle door or hatch enters when the vehicle door or hatch is closed. The locking pin then rotates the catch from an open position to a closed position. When the catch reaches the closed position, the locking pin can no longer leave the inlet slot of the catch. In the closed position, the pawl locks the catch such that the catch cannot be rotated back into the open position.
Frequently, a motor vehicle lock has two closed positions, which are taken up consecutively during the closing process of the catch, namely the so-called first position and the so-called primary position.
To prevent the pawl from leaving its locked position unexpectedly, a blocking lever can be provided to block such movement when the catch is locked. Such a blocking lever is necessary for the primary-position pawl of the lock described in DE 10 2007 003 948 A1 because the catch and the primary-position pawl are constructed such that the pawl assuming the primary position pushes the primary-position pawl out of the latched position.
The rotatably arranged blocking lever, known from DE 10 2007 003 948 A1, is biased by a spring. Because of this bias, when the catch is not in the primary position, the blocking lever exerts pressure on the primary-position pawl in the direction toward the catch. This pressure is responsible for ensuring that the primary-position pawl is moved into its locked position when the catch reaches the primary position. The bias then further ensures that the blocking lever is ultimately moved into the blocking position so that the vehicle door or hatch closes completely.
To unlock the lock, the blocking lever is rotated, with the help of the first-position pawl, against the biasing force until the blocking lever sets free the primary-position pawl. The primary-position pawl is then pushed by the catch from the locked position or is stricken by a driver of the first-position pawl, and in this way is moved out of the locked position. Subsequently, the catch rotates into the open position from the primary position due to a commensurate bias. The locking pin can then move out of the inlet slot, and the attached vehicle door or hatch can be pushed ajar.
The object of the invention is to simplify the opening of a lock of the type mentioned above.
The object of the invention is achieved by providing a lock having the characteristics of the first claim. Advantageous embodiments are described in the dependent claims.
To achieve the object of the invention, the catch of the claimed lock comprises an upwardly projecting stop, which, for example, takes the form of a pin rising above the catch. Furthermore, a bracket is provided, which can be moved against the stop by means of a motor such that the catch is moved in this way from the first position and into the primary position. It is thus possible, to move from the first position to the primary position in a motorized manner, which makes it easier to close the vehicle door. The stop acts at the same time as a stop for the pawl. In this way the number of required components is also kept to a minimum.
In one embodiment of the invention, the stop also serves as a stop for the first-position pawl, which thereby locks the catch in this position. In this embodiment, there is also no need for an additional stop for locking the catch using the first-position pawl.
In one embodiment of the invention, the bracket is disposed above the first-position pawl seen from the wall of the housing on which the catch is pivotally mounted. In this way, it is structurally possible to use a pin having a thin diameter, both as a stop for the bracket as well as a stop for the first-position pawl.
In one embodiment of the invention, provided is a guide that guides the locking pin relative to the position of the first-position pawl. On the one hand, the bracket is drawn hereby against the stop. On the other hand, it is possible by the movement of the first-position pawl to redirect the movement of the bracket such that the bracket is not moved against the stop. It is possible to prevent, for example during an emergency, the automatic closing of the door from the first position to the primary position through the movement of the first-position pawl. When the first-position pawl is moved, the locking of the catch by the first-position pawl is also unlocked, simultaneously, and the door or hatch can be opened immediately. Such an emergency can arise, in particular, when a finger is jammed in a door or hatch.
In one embodiment of the invention, the bracket is first guided on an essentially straight line until the bracket has reached the stop. Then, the guide runs in an arcuate configuration such that the bracket can follow the rotational movement of the catch.
In one embodiment of the invention, the catch is connected to microswitches that read the position of the first-position pawl and the primary-position pawl. In this way, the motor-driven movement of the bracket against the stop may be controlled in order to move the catch from the first position to the primary position.
An exemplary embodiment of the invention shown in the figures will be explained hereinbelow in more detail. Advantages of further embodiments of the invention will be illustrated with reference to the exemplary embodiment.
If the catch is not biased by a spring, when said vehicle door or hatch is opened, at least the locking pin 3 causes the rotation of the catch 4 toward the open position as indicated by the arrow 22. The associated torque then pushes the primary-position pawl 6 out of the locked position. However, this is prevented in the primary position by the blocking lever 8, as shown, when the vehicle door or hatch is closed. The blocking lever 8 is also mounted on the housing wall 1 and can be rotated about its mounting axis 9. On a lateral contour area of the blocking lever 8 is disposed an arm 10b of a spring 10. The spring 10 is pre-tensioned such that the arm 10b of the spring 10 presses the blocking lever in the direction toward the shown blocking position (in the direction of arrow 11). The rotational movement of the blocking lever, caused thereby, is limited, as shown, by the stop 12, which is attached to the housing wall 1 in the form of a protruding pin. The stop 12 causes the blocking lever to be oriented always very precisely in the same blocking position, which is particularly important for the proper functioning of the blocking lever. To allow for a low profile, the spring 10 is arranged predominantly laterally next to the blocking lever 8 as well as next to the first-position pawl. Only one arm 10a of the spring 10 extends beyond the blocking lever 8.
Above the primary-position pawl 6 is arranged a first-position pawl. The first-position pawl is also pivotally mounted on the shaft 7 and can, therefore, also be rotated about the axis 7. The outline 13 of the first-position pawl is indicated with dots. The first-position pawl 13 comprises a pin 14, which extends down from the first-position pawl in the direction toward the housing wall 1. At this pin 14, which is attached to the first-position pawl, is disposed the other arm 10a of the spring 10. The other arm of the spring 10 pushes in the direction toward the pin 14 along the arrow 15. In the primary position, the pin 14 also lies closely against the lateral contour area of the blocking lever 8. When the first-position pawl 13 is turned in the direction of the arrow 16, the pin 14 causes the blocking lever 8 to be rotated out of the blocking position. The spring arm 10a can follow the movement of the stop or the pin 14 such that the rotation of the first-position pawl 13 is not hampered by an opposing force, which would otherwise originate from the spring arm 10b. This facilitates the rotation of the blocking lever 8 by the first-position pawl 13 out of the blocking position. When the blocking lever 8 is moved from the blocking position, the primary-position pawl 6 is pushed away by the catch from its shown locked position. Additionally or alternatively, the lateral contour area of the first-position pawl 13 strikes a protruding pin 17, which serves as a stop, and which is attached to the primary-position pawl 6. This has the consequence that the primary-position pawl 6 is rotated out of the shown locked position and releases the catch. The catch then pivots in the direction of the arrow 22 toward the open position and finally sets free the locking pin 3. The corresponding door or gate can then be opened.
The first-position pawl 13 can also lock the catch 4 when a protruding pin 18 of the catch 2 strikes against the lateral contour area 19 of the first-position pawl 13 and thus prevents the rotation of the pawl toward the open position in accordance with the arrow 22. The first-position pawl 13 is preferably biased by a spring (not shown) in the direction toward its locked position. A protruding pin 20, which serves as a stop and is secured to the housing wall 1, prevents further rotation of the first-position pawl beyond its locked position.
The primary-position pawl 6 is preferably not directly biased by a spring. The primary-position pawl 6 is instead appropriately rotated alone by other components, and especially particularly by the rotation of the catch 4, the first-position pawl 13 and/or the blocking lever 8, e.g., by the rotation of the blocking lever 8 into the locked position (primary position). The corresponding rotation of the blocking lever is caused by the supplied tension of the spring 10.
In order to move the primary-position pawl with the help of the blocking lever suitably into the locked position, hook-like endings 6b and 8a have been found to be particularly suitable. The head of the hook 6b of the primary-position pawl acts as a stop for the catch. The tip of the hook 6b is blocked in the primary position by the head of the hook 8a. If the blocking lever 8 is rotated out of the blocking position, then the two hooks 6b and 8a interlock. The top end 6b ultimately pushes the hook 8a so far outward that the lever arm 8b of the pin 14 is lifted, whereby the bias of spring 10 is increased (see also
If the catch is rotated from the open position toward the closed position up to the first position, the first-position pawl then snaps into its locked position, wherein the first-position pawl is then rotated opposite to the direction of the arrow 16 until a further rotation is limited by the stop 20, as shown in
To rotate the first-position pawl out of its locked position, in order to unlock the lock, the first-position pawl is stricken at the grip area 21 and rotated. The striking and rotating of the first-position pawl 13 can be done manually or with the help of a motor. Since the first-position pawl can also be rotated backwards by a motor, a spring that biases the first-position pawl in the locked position is not mandatory. For performance and safety reasons is, however, the provision of such a spring beneficial.
The previously described characteristics of the exemplary embodiment can be applied individually or in combination to the inventive lock.
To move the bracket by means of a motor, the bracket comprises a pin 34 that projects upward. The pin 34 extends into a hole of a lever that is disposed above it. The lever can in turn be rotated about an axis. While the lever is rotated about its axis by means of a motor, the bracket is moved between the initial position and the end position. However, when the first-position pawl is rotated in the direction of the arrow 16 by actuating of a door handle connected thereto, the bracket pivots upward in the direction of the arrow 35. In this way, the bracket loses contact with the pin 18 of the catch, which pin serves as a stop. A forward movement of the bracket toward the end position, then, no longer results in the rotation of the catch 4 toward the direction of the primary position. Instead, the catch is released and can rotate back into the open position.
The slot 33 extends as shown partly in a curved manner such that it and the corresponding end bracket 36 (which is adjacent to the stop 18) eventually follow the rotational movement of the catch and the rotation of the stop 18 associated therewith.
If the catch is locked in the first position by the first-position pawl 13, wherein the pin 18 pushes against the lateral contour portion 19 of the first-position pawl and in this way prevents the rotation of the catch toward the open position, the aforementioned bracket end 36 initially has, advantageously, a small distance to the pin 18, e.g., 1 to 3 mm, so as not to impair the locking of the catch. When the bracket is subsequently driven from the initial position by means of a motor, the bracket reaches the stop 18, then presses the stop 18 toward the primary position while the first-position pawl is not moved. The first-position pawl will generally not move at this time because it is biased, presses against the stop 20, and remains in this position.
The cable 39 is attached to the end of the longer lever arm of the lever 37, as seen from the axis of rotation 38, as compared to the other shorter lever arm with a hole into which at least the pin 34 extends. In this way, the motor force that pulls on the cable 39 is amplified according to the lever rule. It is, therefore, sufficient to use a relatively small motor force to rotate the catch from the first position to the primary position. The cable 39 is hooked into a designated hook of the lever 37.
The lever 37 is advantageously biased in the direction toward the starting position such that the lever 37, and thereby also the bracket 35, can pivot on their own back to their initial positions, even when the motor drive should fail. Therefore, a malfunction of the motor does not result in a malfunction of the lock.
As shown in
Shoe-shaped lever arms, as shown in the figures, are useful for determining at any time the position of the corresponding pawls, with the help of microswitches and with minimal use of materials. These lever arms are useful for controlling the movement of the parts of the lock.
If the bias of the lever 37 is chosen to be appropriately strong, in a certain embodiment of the invention, the spring force turns the lever 37 back into its initial position after the motor drive has stopped.
Number | Date | Country | Kind |
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10 2009 026 921 | Jun 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE2010/000657 | 6/11/2010 | WO | 00 | 11/23/2011 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/142280 | 12/16/2010 | WO | A |
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