WO2018046043A1 - Motor vehicle door lock - Google Patents

Abstract

The invention relates to a motor vehicle door lock, comprising a locking mechanism (2, 3, 4) accommodated in a housing (1), which locking mechanism consists essentially of a rotary latch (2) and a pawl (3, 4). The lock further comprises a trigger element (8) for the locking mechanism (2, 3, 4) and a storage element (9) connected to the housing (1). Said storage element (9) ensures an unimpeded opening movement of the rotary latch (2) from a closed to an open position. According to the invention, the storage element (9) is designed as an element that can be elastically deformed essentially perpendicular to a plane defined by the housing (1) in order to implement its storage functionality.

Description

 Motor vehicle door lock

The invention relates to a motor vehicle door lock, with a mounted in a housing locking mechanism consisting essentially catch and pawl, further comprising a trigger element for the locking mechanism, and with a memory element connected to the housing, which unimpeded opening movement of the rotary latch from a closed into a guaranteed open position.

In a motor vehicle door lock according to DE 10 2006 032 033 A1, the storage element ensures that the pawl is held in its release position when turning the catch from its closed position to beyond passing the Vorraststeilung addition. For this purpose, the storage position of the storage element corresponds. In order to realize the so-called memory function as a whole, the memory element comprises a support section associated with the trigger element, which enters a memory stage of the rotary latch upon actuation of the triggering element to reach the storage position. The memory level is left after passing the Vorraststeilung again. This prevents the memory element that during the opening movement of the rotary latch, the pawl inadvertently in the catch (again) can occur. Such functional states, that is, for example, an unintentional collapse of the pawl when opening the rotary latch can occur both on tailgates and on side doors. For example, in tailgates such functional conditions are observed when a snow load is on it. With the help of the addressed memory element, such a snow load function can now be mastered, as described in detail, inter alia, the generic state of the art according to WO 201 1/017529 A2. Here, a memory element connected to the housing is realized, which holds the open pawl by the interaction of two latching contours. The pawl is held in this functional position until a pin or bolt arranged on a rotary latch removes the storage element from the pawl. As a result, the pawl engages spring-supported against the catch beyond a detent position.

In order to be able to achieve this in detail, the storage element is advantageously an elongated plastic lever, which may be integrally formed with the housing, which is also made of plastic. The plastic lever is pivoted in a housing plane spanned by the housing to release the pawl. For this purpose, the plastic lever is connected on one side articulated to the housing.

Assuming that motor vehicle door locks typically have lifetimes of at least a decade, if not even several decades, taking into account that plastics will become brittle over time, malfunctions in the described teaching according to WO 201 1/017529 A2 can not be considered last safety be excluded, in particular not after frequent use or long service life. For this purpose, the elongated plastic lever is mainly responsible, which is beyond necessarily deformed significantly in or above and parallel to the clamped housing level in each closing and opening operation. Quite apart from that requires the generic teaching of WO 201 1/017529 A2 both modifications to the catch and the pawl to ensure the desired functionality.

In fact, the catch is equipped with the already mentioned bolt for controlling or lifting the storage lever of the pawl, while the pawl is in turn provided with its own locking pin, which engages behind a Rastausformung on the storage lever in question. As a result, the known teaching requires special tools and / or supplementary assembly steps both for the production of the catch and the production of the pawl. This is particularly disadvantageous in view of the enormous cost pressure in the implementation of such motor vehicle door locks. In the context of a likewise generic or generic type of teaching according to US 4,917,420 a rotatably mounted in the housing storage lever is provided. Due to the additional storage and separate deflection of the storage lever is described in comparison to the WO 201 1/017529 A2 even more technologically sophisticated doctrine.

As already explained above, the memory element in a motor vehicle door lock on a tailgate ensures that the so-called snow load function is realized, that is, any snow that may be present on the tailgate prevents it from opening. In this connection, the memory element ensures that the pawl does not (unintentionally) enter the ratchet again. In motor vehicle side doors one speaks in this context also of the so-called Vorrasthakeln. This is to be understood as meaning a process in which the pawl, which has been raised in the course of the opening of the locking mechanism, again enters or can come into mechanical contact with the revolving latch opening. As a result, the opening movement of the rotary latch may be delayed or even completely prevented. At least the opening process is accompanied by disturbing noises.

In a known from DE 203 07 347 U1 solution is to prevent Vorrasthakelns proceeded so that a drive with the interposition of an eccentric directly or indirectly on the pawl to open the catch works. The eccentric can now be held in the raised position of the pawl with a then incident blocking agent until the opening catch separates the blocking agent from the eccentric.

The invention is based on the technical problem of further developing a generic motor vehicle door lock in such a way that a permanent and functionally correct structure is observed, which at the same time requires the lowest possible operating forces in the realization of the storage function.

To solve this technical problem, a generic motor vehicle door lock in the context of the invention is characterized in that the memory element is designed to implement its memory function substantially perpendicular to a housing plane elastically deformable.

In general, the memory element is equipped with a blocking contour and a release contour. It has proven useful if the locking contour and the release contour protrude relative to the housing level in the direction of a housing interior. In addition, the storage element is regularly formed as at least one side formed on the housing storage lever.

In this way, a particularly functional and durable construction is provided, which at the same time requires low actuation forces to realize the storage function. For this purpose, it is essentially responsible for the fact that the memory element is designed to be elastically deformable substantially perpendicularly in comparison to the housing plane in order to realize its memory function. On the other hand, the genus forming teaching according to WO 201 1/017529 A2 does not work with an elastic deformation of the storage element perpendicular to the housing plane in question, but rather the storage element is deformed in or parallel to the housing plane in question. The invention is based on the fundamental realization that the locking mechanism and the triggering element typically move in or parallel to this housing plane. In order to hold in this process, for example, the pawl and / or the trigger element to realize the memory function, it is sufficient in the context of the invention, when the locking contour engages behind the trigger element and / or the pawl, preferably engages below. The assumption of the associated storage position of the storage element requires in this context and according to the invention no whatsoever radial movements with respect to the festzuhaltende element (trigger element and / or pawl). Rather, it is sufficient if the relevant element (pawl or triggering element) passes over the memory element or the memory lever formed on one side of the housing and in a certain predetermined position snaps the locking contour as it were and engages behind the triggering element and / or the pawl.

Consequently, the storage element according to the invention can be formed in plan view with overlap compared to the trigger element and / or the pawl on the housing so that it is sufficient overall to work with a relatively short storage lever and incidentally a compact design is observed. In addition, the circumstance contributes to the fact that the memory element according to the invention is also arranged in plan view with overlap to the rotary latch on the housing or is connected to the housing. For the realization of the memory function, it is accordingly sufficient if the memory element or the storage lever connected on one side to the housing is deformed by the trigger element and / or the pawl until the storage element can assume its storage position in this respect. For this corresponds to the functional position that the locking contour the memory element, the trigger element and / or the pawl engages behind and engages under.

Since the hereby connected (with the implementation of the memory function) elastic preformations of the memory element according to the invention or the storage lever connected to one side of the housing perpendicular to the housing plane, the storage element or the storage lever can be formed tongue-like total, being in the region of a connection of the storage element the housing no constriction or the like as in the prior art according to WO 201 1/017 529 A2 is required.

Rather, it is sufficient to design the storage element as a one-sided connected to the housing storage lever, wherein the connection or connection area of the storage lever is formed on the housing with a comparable material width as the entire storage lever. Because the observed in the course of the realization of the memory function deformations of the storage element or storage lever are - as explained in detail - perpendicular to the housing level by the storage element or the storage lever is deformed similar to a cantilevered leaf spring against this housing level with its free end. As a result, overall a perfect function of the memory element can be expected even on long time scales, and at the same time a simple structural design is observed.

For the triggering element and / or the pawl, which interact with the locking contour on the storage element, do not require attached thereto additional locking lugs. On the contrary, the blocking contour on the storage element or storage lever is designed and configured in such a way that it forms an already present tangible edge of the trigger element or the pawl behind engage respectively can under attack. Here are the main advantages of the invention. In order to remove the memory element to end the memory function from its previously occupied storage position, the rotary latch is typically equipped with a Aushebekontur. As already described, the storage element holds in its storage position the trigger element and / or the pawl firmly. In order to end the storage function or to transfer the storage element from its storage position into a neutral position, the rotary catch with its lifting contour ensures that the storage element is lifted off the release element and / or the pawl. This usually happens when the catch reaches its open position. Because in this open position of the catch, the pawl can not (more) in a provided on the catch Vorrastkontur or a main catch contour. Rather, the pawl is in the (fully) open position of the rotary latch on an edge. In this position, the storage element is no longer needed, so that the catch lifts the storage element of the trigger element and / or the pawl and consequently the storage element can assume its neutral position.

As already explained, the design in the context of the invention is basically such that the storage element holds the trigger element and / or the pawl in its storage position. This ensures in each case that the catch can freely assume its fully open position, without it coming to the Vorrasthakeln already described. Also, any snow load can not hinder the described opening operation of the rotary latch, because that in its storage position located memory element holds the trigger element and / or the pawl. In general, the memory element operates on the pawl.

In this case, the design can continue to be made so that the pawl is formed in two parts with a first pawl element and a further second pawl element. The first pawl element may be a pre-latching pawl or a pre-latching pawl element. In contrast, the second pawl element is usually designed as a main pawl or Haupttrastklinkenele- ment.

In the context of the invention, the storage element in its storage position regularly acts only on the pre-latching element. For an additional loading of the main pawl or the Haupttrastklinkenele- ment is usually not required because during the opening process of the two-part pawl both pawl elements are lifted from the catch and the catch holds during its opening movement, the main pawl or the Haupttrastklinkenelement directly in the lifted position. In contrast, there is a fundamental risk that the Vorrastklinke or Vorrastklinkenelement can come into the pre-rest or even the main load. In order to prevent this, in the context of the invention, preferably, the memory element only works on the pre-latching element. That is, the memory element acts in its storage position only the pre-latching element. In the following the invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment; show it:

1 to 3 the motor vehicle door lock in conjunction with an opening movement of the locking mechanism,

4 and 5, the motor vehicle door lock according to the invention during a closing movement of the locking mechanism and Fig. 6A, 6B, the storage element in detail, in plan view (Fig. 6A) and in section along the line A-A (Fig. 6B).

In the figures, a motor vehicle door lock is shown, which is initially equipped with a housing 1. The housing 1 biases a housing plane which, in FIGS. 1 to 5 or 6 A, coincides with the plane of the drawing or is arranged parallel thereto. In Fig. 6B, the housing 1 in question is shown in a sectional view. In the housing 1, a lock 2, 3, 4 from a rotary latch 2 and a pawl 3, 4 are stored. The rotary latch 2 has for this purpose an axis 5, whereas the pawl 3, 4 is rotatably mounted about an axis 6.

In the exemplary embodiment and only by way of example, the pawl 3, 4 are formed in two parts. In fact, the pawl 3, 4 has a first pawl element or pre-latching pawl element 3 and a second pawl element or main pawl element 4. Both pawl elements 3, 4 are mounted coaxially with respect to the common axis 6 in the housing 1. The rotary latch 2 has a spring, not shown, which biases the rotary latch 2 in the direction of its opening movement, that is, in the direction of a counterclockwise movement about the axis 5. As soon as the pawl 3, 4 is lifted from the rotary latch 2, the rotary latch 2 passes through this counterclockwise movement of its closed position shown in FIGS. 1 and 5 in the open or fully open position of FIG. 3 on (see. the arrow in Fig. 1). In the closed position of FIGS. 1 and 5, the catch 2 and the locking mechanism 2, 3, 4 is able to catch and hold a locking pin 7 indicated only in FIG. 1, which in the open position corresponding to Fig. 3 is released. The same applies to an associated motor vehicle door. Typically, namely, the motor vehicle door lock shown is inside the associated motor vehicle door, which may be a side door or a tailgate. In contrast, the locking bolt is regularly arranged on a motor vehicle body, not shown, for example, on a B-pillar, a tailgate enclosure etc ..

In addition to the already mentioned locking mechanism 2, 3, 4, the motor vehicle door lock according to the invention additionally has a triggering element 8 for the locking mechanism 2, 3, 4. The triggering element 8 ensures mechanically or electrically - directly or indirectly - that the pawl 3, 4 is lifted from the catch 2, so that the catch 2 spring-assisted from its closed position shown in FIGS. 1 and 5 in the open position of FIG. 3 can go over.

In the exemplary embodiment, the triggering element 8 is one which is motorized from its position shown in FIG. 1 in the position shown in FIG. 3 by a clockwise rotation. As in the example case, the pawl 3, 4 also has a spring which biases the pawl clockwise with respect to the associated axis 6, the described adjusting movement of the trigger element 8 leads in the transition from the closed position of the locking mechanism 2, 3, 4 of FIG 1 in the open position shown in FIG. 3 to the fact that the pawl 3, 4 is pivoted counter to the force of its spring about its axis 6 in the counterclockwise direction and lifted from the catch 2. This indicates another arrow in FIG. 1. As a result of this For example, the catch 2 can perform a spring-assisted rotation about its axis 5 in the counterclockwise direction, as the arrow in FIG. 1 makes clear.

Finally, a further basic structure of the motor vehicle door lock includes a storage element 9 connected to the housing 1, which is shown schematically in FIGS. 1 to 5 and undergoes a detailed representation in FIGS. 6A and 6B. With the help of the storage element 9, an unobstructed opening movement of the rotary latch 2 is ensured from the closed position shown in FIG. 1 in the open position of FIG. 3. In particular, the mentioned memory element 9 prevents the previously discussed extensively Vorrasthakeln and also ensures the desired snow load function when using the illustrated motor vehicle door lock as a tailgate lock. In order to achieve this in detail, the memory element 9 is designed to be elastically deformable substantially perpendicular to the housing plane spanned by the housing 1 in order to realize its memory function. This becomes clear in particular with reference to the sectional representation along the line A-A according to FIG. 6A, which is reproduced in detail in FIG. 6B. This sectional view shows, first of all, that the storage element 9 is designed overall as a storage lever 9 integrally formed on the housing 1. In fact, the memory element or the storage lever 9 has a tongue-like character, as Fig. 6A makes clear. The storage element or the storage lever 9 has a total of a free end 9A and a tailed end 9b.

The tethered end 9b of the storage lever 9 merges integrally into the housing 1 or is connected to the housing 1. For this purpose, the housing 1 and the storage lever 9 are made in one piece from a plastic in the embodiment. Basically, of course, other variants possible, for example, such that it is the case 1 and the storage element 9 are each workpieces made of steel. In any case, the tethered end 9b of the storage element or storage lever 9 is connected to the housing 1, whereas the free end 9a makes no connection with the housing 1. This will be apparent from Fig. 6A.

It can be seen here that the storage element or the storage lever 9 is formed overall as a stamped or molded spring tongue in comparison to the housing 1. In fact, the free end 9a of the storage element or storage lever 9 is received in a recess 10 of the housing 1 and can perform relative to this recess 10 largely movements perpendicular to the housing level, namely elastically deformable. Such movements correspond to the fact that the storage lever 9 can be reciprocated relative to the recess 10 in question within the scope of the illustration according to FIG. 6B, that is to say into a position above and below the housing plane spanned by the housing 1. That is, the memory element 9 can be elastically deformed perpendicular to the housing plane spanned by the housing 1. This allows the memory function to be displayed.

As a rule, the storage element or the storage lever 9 is pivoted by the associated pawl element 3, 4 or, in general, the pawl 3, 4 in a plane below the housing plane spanned by the housing 1.

It is also clear from FIGS. 6A and 6B that the storage element 9 is equipped with a blocking contour 11 and a release contour 12. The locking contour 1 1 is a projecting nose, which the locking pawl 3, 4 or the latching pawl element 3 engages below as soon as the latching pawl element 3 reaches the position shown in FIG. In fact, moves in the transition from Fig. 1 to Fig. 2, the latching pawl element 3 in the illustration of FIG. 6B and with respect to the locking lever 9 with respect to the locking contour 1 1 upwards, and that until the corresponding nose or ., The locking contour 1 1 can engage behind the latching pawl element 3, as indicated by dashed lines in Fig. 6B. The locking contour 1 1 and with it the locking element 9 emerge from the position below the housing level. In this way, the storage element or the storage lever 9 ensures that the latching pawl element 3, starting from the functional position according to FIG. 2 can not (more) perform an unintended clockwise movement about the associated axis 6 (caused by the pawl biasing in this direction Feather). That is, the path of the Vorrastklinken- element 3 in its basic position shown in FIG. 1 is blocked, because in this respect the locking contour 1 1 on the memory element 9, the latching pawl element 3 holds.

As already explained, the storage element or the storage lever 9 in addition to the blocking contour 1 1 additionally on the release contour 12. While the locking contour 1 1 is located in the region of the connected end 9b of the locking lever 9, the release contour 12 is adjacent to the free end 9a of the locking lever 9 is arranged and pronounced. Both contours 1 1, 12 collar against the plane defined by the housing 1 housing level in the direction of the interior of the housing 1 before. As a result, the elements of the motor vehicle door lock arranged above the housing level in question, that is to say in the illustration according to FIG. 6B to the left of the housing 1, can interact with the storage lever 9 as described. In addition, the introductory already described Ensures overlap in supervision, as can be seen in addition to a look at Figs. 1 to 5.

To realize the storage function, the storage element or the storage lever 9 is transferred to the storage position, as shown in FIG. 2 in plan view. For this purpose corresponds to the solid in Fig. 6B position of the storage lever 9, whereas the dot-dashed position of the storage lever 9 is its position in the transition of Vorrastklinkenelementes 3 from the closed position of FIG. 1 to the assumption of the position shown in FIG.

In the storage position (FIG. 2 or solid in FIG. 6B), the storage element 9 holds the pawl 3, 4 or, in the context of the exemplary embodiment, the latching pawl element 3. This applies until the rotary latch 2 with a Aushebekontur 13 attached thereto ensures that the storage element or the storage lever 9 is lifted from the pawl 3, 4 or the pre-latching element 3. This is done to complete the memory function. That is, the rotary latch 2 lifts with its Aushebelkontur 13, the memory element 9 to terminate the memory function or to cancel the storage position, the memory element 9 of the pawl 3, 4 and the pre-latching element 3 from. This happens when the rotary latch 2 reaches its open position or completely open position corresponding to FIG. 3. In fact, the Aushebekontur 13 ensures in this case that the release contour 12 is acted upon by the Aushebekontur 13, in such a way that the storage element or the storage lever 9 deformed, as is generally shown in phantom in FIG. 6B already shown. As a result, the pawl 3, 4 or the latching pawl element 3, 4 of the locking contour 1 1 of the memory element 9 free, so that the pawl 3, 4 spring-assisted to pivot in its basic position corresponding to FIG. 1 about the axis 6 in a clockwise direction. However, this is not possible in the present case because the pawl 3, 4 or the latching pawl element 3 starts against a contour 14 of the catch 2. The rotary latch is now fully open, as shown in FIG.

If now the ratchet 2, 3, 4 are closed starting from the fully open position of FIG. 3, it is only necessary for this that the locking pin 7 shown in FIG. 1 in an inlet mouth 15 of the rotary latch

2 retracts. In this process, the locking pin 7 is caught by the catch 2 and at the same time the rotary latch 2 is pivoted clockwise about its axis 5, as can be seen at the beginning of the closing operation in the transition from Fig. 3 to Fig. 4 and additionally an arrow in the Fig. 3 illustrates.

In this closing operation, the pawl 3, 4 of the storage element 9 is free and can slide the catch 2 with its contour 14 on the pawl 3, 4 along. This process is continued until the pawl 3, 4 in the position shown in FIG. 5 in associated detents or stages of the rotary latch 2 occurs.

Actually interacts in this context, the latching pawl element

3 with a pre-latching stage 16 of the rotary latch 2, whereas the Haupttrastklinken- element 4 rests against a main latching stage 17 and interacts with this. The pawl 3, 4 is still free from the memory element 9 and its locking contour 1 1, because in this entire closing process the latching pawl element 3 relative to the Fig. 6B as it were "below" the locking contour 1 1 and in this process the Memory element 9 deformed as indicated by the dot-dashed representation in Fig. 6B.

It should finally be emphasized once again that the described operation of the memory element 9 and the entire motor vehicle door lock is independent of whether the pawl 3, 4 in two parts as shown or formed only in one piece. In the latter case, only the pre-latching element 3 would be realized as it were and all embodiments would only refer thereto.

Just as well, however, the memory element 9 can also act on the triggering element 8 and hold it in an ineffective position relative to the locking mechanism 2, 3, 4. This is not shown in detail. In addition, not shown is the application of the triggering element 8, which can be done for example mechanically via a door inside handle and or an outside door handle. Alternatively or additionally, however, the textually described electrical opening is possible in such a way that the triggering element 8 - driven by a motor - occupies the described and referenced functional positions.

Claims

claims:

1 . Motor vehicle door lock, comprising a locking mechanism (2, 3, 4) mounted in a housing (1) consisting essentially of a rotary latch (2) and a pawl (3, 4), furthermore having a release element (8) for the locking mechanism (2, 3, 4 ), and with a to the housing (1) connected storage element (9), which ensures an unobstructed opening movement of the rotary latch (2) from a closed to an open position, characterized in that the memory element (9) for realizing its memory function substantially perpendicular is formed elastically deformable to one of the housing (1) spanned housing level.

2. Motor vehicle door lock according to claim 1, characterized in that the storage element (9) with a locking contour (1 1) and a release contour (12) is equipped.

3. Motor vehicle door lock according to claim 2, characterized in that the locking contour (1 1) and the release contour (12) protrude relative to the housing plane in the direction of a housing interior.

4. Motor vehicle door lock according to one of claims 1 to 3, characterized in that the storage element (9) as at least one side of the housing

(1) connected storage lever (9) is formed.

5. Motor vehicle door lock according to one of claims 1 to 4, characterized in that the storage element (9) in its storage position the trigger element (8) and / or the pawl (3, 4) holds.

6. Motor vehicle door lock according to claim 5, characterized in that the storage element (9) in realized storage position with its locking contour (1 1), the trigger element (8) and / or the pawl (3, 4) engages behind.

7. Motor vehicle door lock according to one of claims 1 to 6, characterized in that the rotary latch (2) with a Aushebekontur (13) the memory element (9) for terminating the memory function of the trigger element (8) and / or the pawl (3, 4th ) takes off.

8 motor vehicle door lock according to one claims 1 to 7, characterized in that the pawl (3, 4) is formed in two parts with a first pawl member (3) and a second pawl member (4).

9. Motor vehicle door lock according to claim 8, characterized in that the first pawl element (3) as Vorrastklinkenelement (3) and the second pawl element (4) is designed as a main pawl element (4).

10. Motor vehicle door lock according to claim 9, characterized in that the storage element (9) in its storage position only the pre-latching element (3) acted upon.