1. Field of the Invention
The invention refers to a vehicle door latch with at least one locking mechanism, comprising mainly a catch with a primary position and, where applicable, a first position for an engaging pawl and containing an inlet opening as well as a catch bolt cooperating with the catch.
2. Description of Related Art
In the reference system of the vehicle door latch, the catch bolt moves into the inlet opening. Generally, the catch bolt is located on the vehicle body, opposite to which the vehicle door latch is moved with its inlet opening.
With vehicle door latches of this kind, constant efforts are made to improve soundproofing when, on one hand, the catch bolt moves into the inlet opening and is held by the catch in its primary position, whilst, on the other hand, it also has to be ensured that the pawl cooperating with the catch does not leave the primary position, if the catch carries out an overtravel as part of its closing movement. Such an overtravel is necessary because of the tolerances required between the catch and pawl for the closing and opening movement.
Below, the invention is explained in more detail with reference to only one embodiment illustrated by the following drawings:
FIG. 1 represents a plan view of a vehicle door latch according to the invention with a back plate, catch, pawl and an indicated catch;
FIG. 2 represents an enlarged section of the object shown in FIG. 1, in which the pawl lies against the overtravel stop on the catch; and
FIG. 3 represents the object shown in FIG. 2, with the pawl in primary position.
The invention described herein provides a vehicle door latch with at least one locking mechanism (1, 4), comprising mainly a catch (1) with a primary position (2) and, where applicable, a first position (3) for an engaging pawl (4) and an inlet opening (5) as well as a catch bolt (6) cooperating with the catch (1) and in which at least the catch (1) contains a casing (7) made of soundproofing material and the casing (7) contains a buffer pocket (8) situated behind the primary position (2) in clockwise direction, said buffer pocket being stretched around up to the area of the primary position (2), forming an overtravel stop (9) for cooperation with the pawl 4.
In certain embodiments of the invention described herein, the pawl (4) is at least partially encased by soundproofing material (10).
In certain embodiments of the invention described herein, the pawl (4) contains a surface coating of anti-seizing varnish or anti-corrosion agent.
In certain embodiments of the invention described herein, soundproofing material (10) is a plastic, such as polyurethane.
In certain embodiments of the invention described herein, the casing (7) of the catch (1) contains a buffer pocket (11) between primary position (2) and first position (3).
In certain embodiments of the invention described herein, the transmission ratio of catch (1)/pawl (4) is reduced, i.e. to 2:1.
The invention is based on the technical problem of creating a vehicle door latch of the embodiment described above, that is characterized by noise reduction and a reliable function during the cooperation of the catch, pawl and catch bolt.
In order to solve this technical problem, the invention provides a vehicle door latch with at least one locking mechanism, comprising mainly a catch with a primary position and, where applicable, a first position for an engaging pawl and a catch bolt moving into an inlet opening and cooperating with the catch, with at least the catch containing a casing of soundproofing material and the casing containing a buffer pocket situated behind the primary position in clockwise direction, said buffer pocket being stretched around up to the area of the primary position, forming an overtravel stop for the pawl.
These measures of the invention ensure, in the first instance, that the catch bolt moving into the inlet opening during the closing of a respective vehicle door in the reference system of the vehicle door latch is buffered by the catch during gripping as a result of the buffer pocket integrated in the casing of the catch. Consequently, not only the casing consisting of soundproofing material but, in particular, also the buffer pocket ensures a quieter closing operation as well as a considerable noise reduction when the vehicle door is closed. It is also ensured that the reliable function of the vehicle door latch of the invention is guaranteed even if the catch carries out an overtravel as part of the closing operation, as the overtravel stop for the pawl ensures that the pawl remains in the primary position area of the catch.
The catch carries out a limited overtravel, restricted by a stop, e.g. in the back plate or latch housing, until the overtravel stop comes into contact with the pawl. Due to the cooperation of the overtravel stop on the catch with the pawl, the pawl cannot leave the primary position area and lies flush against the primary position of the spring-loaded catch upon completion of the closing operation.
Also, in case of an overtravel of the catch, a noise reduction between the catch and pawl is achieved, as the overtravel stop of the pawl on the catch is formed by the buffer pocket stretched around into this area, which also guarantees a resilient interception of not only the catch bolt but also of the pawl during overtravel, as part of an overtravel compensation.
Other characteristics offered by the invention are detailed below. The pawl can, for instance, also be only partially encased by a soundproofing material to further enhance soundproofing. This soundproofing material can be a thermoplastic plastic, such as polyurethane. The casing of the catch can also contain a buffer pocket between the primary position and the first position, to achieve further soundproofing, when the pawl is moved from the first position into the primary position. Finally, in a vehicle door latch according to the invention, there is also the possibility of reducing the transmission ration of the catch/pawl to, for example 2:1. This achieves, on one hand, a more compact design and optimizes, on the other hand, kinematics relationships.
The figures show a vehicle door latch with at least one locking mechanism, comprising mainly a catch 1 with a primary position 2 and first position 3 for an engaging pawl 4 and a catch bolt 6 moving into an inlet opening 5 and cooperating with catch 1, said catch bolt being only indicated. As soon as the pawl 4 is lifted, the spring-loaded catch 1 turns clockwise and consequently to the open position. At the same time, the catch bolt 6 is released, allowing the respective vehicle door—not shown—to be opened. The lifting of the pawl 4 can be by purely mechanical means by a lever gear—not shown—or with the aid of a motor and, in particular, an electrical motor. During the closing operation, the catch 1 turns anti-clockwise according to the direction of the arrow in FIG. 1 and is able to carry out an overtravel. It must, however, be ensured that the assigned pawl 4 does not leave the primary position area and then engages easily in the primary position 2.
Catch 1 contains a casing 7 made of soundproofing material. This casing 7 contains a buffer pocket 8 situated behind the primary position 2 in clockwise direction, said buffer pocket being stretched around up to the area of the primary position 2, forming an overtravel stop 9 for the pawl 4. As part of the closing movement and an overtravel, catch 1 rests with its overtravel stop 9 against the pawl 4. This ensures that the pawl 4 does not leave the primary position and then easily engages in primary position 2, especially as the catch 1 is spring-loaded in clockwise direction.—Also the pawl 4 itself can, at least partially, be encased by soundproofing material 10. The pawl 4 can, however, also contain a surface coating of anti-seizing varnish or anti-corrosion agent. Where the pawl is partially encased, this surface coating can be limited to the areas not encased.
The soundproofing material 10 is a thermoplastic plastic, e.g. polyurethane. The casing 7 of catch 1 can also contain a buffer pocket 11 for pawl 4 between primary position 2 and first position 3. This buffer pocket 11 is of a predominantly straight design, whilst the buffer pocket 8, forming the overtravel stop 9, is curved towards the primary position 2. Both buffer pockets 8, 11 are designed as slotted pockets.
The transmission ratio of the catch 1/pawl 4 is reduced to 2:1.—FIG. 1 also shows a stop 12 in the back plate or latch housing, producing the restriction of the overtravel of catch 1, described above. The enlarged view of FIG. 1 shows another modification, in which the buffer pocket 8 can contain reinforcement ribs 13, in order to be able to act easily and permanently as overtravel stop 9.
Number | Date | Country | Kind |
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103 20 443.1 | May 2003 | DE | national |
This is a National Stage Application of International Patent Application No. PCT/DE 2004/000914, with an international filing date of Apr. 30, 2004, which is based on German Patent Application No. 103 20 443.1, filed May 8, 2003. The contents of both of these specifications are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE04/00914 | 4/30/2004 | WO | 11/1/2005 |