The invention relates to a motor vehicle door lock, including a body-side motor vehicle door lock and associated lock housing and a bonnet-side or door-side locking bolt bracket, or vice versa, further including at least one opening/retracting drive for a locking mechanism in the motor vehicle door lock or lock housing, and including a handle for manual emergency opening of the locking mechanism. —The motor vehicle door lock in question is not restrictively a motor vehicle front bonnet lock or motor vehicle tailgate lock; respectively, the aforementioned motor vehicle door lock is a component of the motor vehicle door lock in question in addition to the additionally provided locking bolt bracket.
Such motor vehicle door locks first of all have the two basic components, namely the motor vehicle door lock or the lock housing with the locking mechanism situated therein consisting essentially of a catch and a pawl on the one hand and the associated locking bolt bracket or locking bolt on the other hand. The lock housing is usually provided on the body side, and may for example be attached in the area of a front bonnet or tailgate opening in or on the body. In the first-mentioned case, the motor vehicle door lock is designed as a motor vehicle front bonnet lock. The last-mentioned variant corresponds to a motor vehicle tailgate lock.
In contrast, the locking bolt bracket is situated on the bonnet side or door side. However, the reverse approach may also be used. In this case, the locking bolt bracket is connected to the body, whereas the lock housing and with it the associated motor vehicle door lock is attached to the bonnet or door. As a rule, however, the lock housing is to be found on the body side and the locking bolt bracket is to be found on the bonnet or door side, as is described in vary basic terms in DE 10 2016 117 282 A1 of the applicant.
Such motor vehicle front bonnets or tailgate locks are nowadays generally opened or closed by a motor. The opening/retracting drive for the locking mechanism is provided for this purpose in the lock housing. The opening drive ensures that in the case of a motor vehicle front bonnet lock, for example, a pawl as part of the locking mechanism made up of a catch and pawl, and optionally a drive pawl are opened. The drive pawl in this case is part of the retracting drive and, together with the retracting drive, ensures that, for example, a locking mechanism situated manually in the pre-ratchet position is moved into the main ratchet position and retracted.
In addition, with such motor vehicle door locks or motor vehicle front bonnet locks or also motor vehicle tailgate locks, a handle is provided, with the aid of which the locking mechanism may be opened manually in an emergency via a connecting element. An action of the handle consequently results in the connecting element being acted upon and in this way the locking mechanism experiencing an emergency opening.
In the generic prior art according to EP 0 217 169 A1, a retracting drive is provided, which pivots the catch as part of the locking mechanism from the pre-ratchet position into the main ratchet position. In addition, an emergency release lever is provided, with the aid of which an emergency opening as shown overall in FIG. 2 of EP 0 217 169 A1 may be carried out.
The state of the art has generally proven successful. However, an emergency opening is not generally possible in the case of motor vehicle front and tailgate locks. Due namely to legal requirements, for example, the bonnet or door may only partially open as the associated motor vehicle is being driven, for example, in order to supply fresh air to the front bonnet area or to the area of the tailgate. This is considered to be absolutely necessary, for example, in order to supply people accidentally trapped here with fresh air. For safety reasons, however, a complete opening must be avoided while driving. For this reason, the bonnet or door may only be partially opened until a so-called catch position has been reached. Furthermore, the catch position may usually only be reached while driving with the aid of the emergency opening via the handle. A motorized opening by means of the opening drive, on the other hand, is usually not permitted while driving and is of course specifically possible when the vehicle is stationary.
The catch position corresponds, for example, with motor vehicle bonnet locks, in addition to the locking mechanism made up of catch and pawl, also having a catch hook. When closing a bonnet, a door or a cover with the locking bolt bracket arranged on it, the catch hook in question is pivoted into its closed position, in which it engages behind the locking bolt or locking bolt bracket. The locking bolt or locking bolt bracket is thus secured twice, on the one hand by the catch held in the closed position with the aid of the pawl, and on the other hand by the aforementioned catch hook.
In order to open such a motor vehicle front bonnet lock or also tailgate lock or generally a catch hook lock, the locking mechanism is acted upon with the aid of the opening drive. For this purpose, a handle provided in the interior of a motor vehicle body may be provided, which acts on the opening drive and ensures that the locking mechanism is opened by an electric motor. This means the opening drive only ensures that with its help, the pawl is generally lifted from its engagement with the catch and may accordingly open the locking mechanism in the lock housing. In the process, the catch hook invariably ensures that the locking bolt or locking bolt bracket is held in place. This corresponds to the catch position previously described.
In order to be able to open such a hook lock completely, it is also necessary to pivot the hook which still securing the locking bolt bracket so that the locking bolt bracket and thus the bonnet or tailgate are released. The pivoting of the catch hook in this case is carried out regularly by a vehicle driver, who for this purpose must reach through a gap between the body and the bonnet, for example, at the front of the motor vehicle, in order to operate the catch hook. This gap is created by the fact that after the described opening process of the locking mechanism, the bonnet is set up with the aid of the opening drive at least until the catch position is reached. This is ensured by a spring or may be ensured by any restoring forces of a door seal or bonnet seal.
In practice, motor vehicle front bonnet locks may usually only be opened by an electric motor with the aid of the opening drive from inside the motor vehicle body (when the vehicle is stationary). This is then no longer possible if the on-board supply voltage is insufficient. This means a vehicle driver is still able to get into the motor vehicle in this case because, for example, a lock cylinder with a mechanical key or emergency key ensures that at least the motor vehicle door is opened. However, in the exemplary case described, the battery, which may often be reached via the front bonnet, is not accessible. In addition, plausible solutions for preventing a complete opening of the front bonnet or tailgate while driving are lacking if, in addition, for example, inside the motor vehicle, the handle mechanically coupled to the locking mechanism via the connecting element is acted uoon to open the locking mechanism manually in an emergency. Here, the invention seeks to provide an overall remedy.
The invention is based on the technical problem of further developing such a motor vehicle lock in such a way that a functionally reliable mechanical emergency opening is provided, in particular, without the risk of unintended opening of the bonnet or door.
To solve this technical problem, a generic motor vehicle door lock within the scope of the invention is characterized in that the handle is assigned a locking element, the position of which is checked with the aid of at least one sensor.
The handle is usually mechanically coupled to the locking mechanism via a connecting element. In this way, the locking mechanism is able to be opened manually in an emergency. In the course of the manual emergency opening, the locking mechanism and possibly a drive pawl as part of a retracting drive are usually opened. A catch hook may also be opened. As a result, the locking bolt bracket is completely free and the bonnet may be opened.
In order to prevent an unintentional complete opening, for example while driving, the handle is assigned the locking element. The locking element may be moved into a position that locks and releases at least the handle. For this purpose, the locking element generally interacts with a stop on the connecting element to limit the path of the connecting element.
The handle generally has an extension which at least partially acts on the locking element. In fact, the design is such that when the handle for emergency opening of the locking mechanism of the motor vehicle door lock is acted upon, the extension operates on the locking element and acts on it at least to the extent that the sensor checking the position of the locking element is also acted upon. In this case, however, the locking element does not (yet) ensure that the handle is blocked. This takes place instead with the aid of a locking drive assigned to the locking element. As soon as the locking drive acts on the locking element, the locking element changes from its position in which the handle is released into the position in which the handle is locked.
In this locked position of the handle, the handle can only be acted upon while taking into account a first stroke, with the aid of which the pawl may be opened from its engagement with the catch and, if necessary, a drive pawl. However, the additional and usually provided catch hook ensures in this case that the locking bolt bracket is secured and held in place. Only when the locking element is moved into its handle-releasing position with the aid of the locking drive is the handle able to perform a second stroke following the first stroke and thereby also open the catch hook. The bonnet may now be completely swung open.
The locking element is designed more specifically as a predominantly linearly guided locking slider. The locking slider has a locking lug which moves into a position that locks the handle. In this locking position, the locking nose is situated in front of a stop on the connecting element between the handle and the locking mechanism, so that the action of the handle up to the first stroke is limited by the fact that the stop on the connecting element moves against the locking nose, and consequently the action of the handle up to the first stroke is limited in this manner. This opens only the pawl and, if necessary, a drive pawl. The catch hook continues to secure the catch. After completing this first stroke of the handle, the bonnet transitions into a catch position.
The locking element is generally furnished with a contour that acts on the sensor. This is particularly recommended due to the fact that the sensor is typically designed as a microswitch or a switch in general. The contour provided on the locking element or locking slider ensures that the sensor or switch or microswitch is acted upon with the aid of the contour as soon as the locking element or the locking slider is acted upon with the aid of the handle or of the extension on the handle. In addition, the sensor or switch is also acted upon, as before and unchanged, as soon as the locking drive moves the locking element into the position that locks the handle.
Signals from the sensor are usually processed by a control unit. The control unit then acts on the opening/retracting drive for the locking mechanism and/or on the locking drive for the locking element as a function of signals from the sensor. If, for example, the handle is acted upon and a signal is generated at the sensor, the control unit is able to interpret this in terms of the opening/retracting drive for the locking mechanism being acted upon to open the locking mechanism, for example, when the motor vehicle is at a standstill. For this purpose, the control unit generally also evaluates signals of a speed sensor and/or of at least one door contact switch.
If the control unit determines a significant speed on the basis of signals from the speed sensor, the control unit then generally acts on the locking drive for the locking element in such a way that the locking element is moved from its previously assumed position in which the handle is released into the position in which the handle is locked. This ensures that any actions on the handle while driving result at best in the locking mechanism and possibly the drive pawl being opened. The associated front bonnet transitions into its catch position. The catch hook continues to secure the catch so that the front bonnet is unable to move into its fully opened position. At the same time, the bonnet or front bonnet may be motorically moved into the catch hook position with the aid of the opening/retracting drive in order, for example, to supply a person inadvertently located there with fresh air. If the opening/retracting drive for the locking mechanism should fail, the bonnet or tailgate in question may also be moved into the aforementioned catch position with the aid of the handle for opening the bonnet manually in an emergency.
The signal from the sensor may also be stored and used for a time-delayed action of the opening/retracting drive and/or the locking drive. For example, while driving, an operator may press the handle for manual emergency opening in order in general to thereby communicate his wish to open the bonnet or tailgate. This opening request is not complied with while driving because the control unit has acted on the locking drive for the locking element immediately when the motor vehicle is started up by also evaluating the signals from the speed sensor. As a result, the locking element is in its handle locking position while the motor vehicle is in motion.
Only when the vehicle has come to a standstill is the control unit able to evaluate the stored signal from the sensor in terms of the opening/retracting drive now being acted upon to open the bonnet or tailgate, without the handle being actuated or having to be actuated again. The stored signal from the sensor may in fact be evaluated by the control unit so that when the vehicle is at a standstill, the opening/retracting drive first opens the locking mechanism and then the catch hook.
The locking drive for the locking element is designed to be self-locking according to a particularly advantageous embodiment of the invention. In this way, the control unit is able to de-energize the locking drive after reaching a position that locks or releases the handle. This avoids unnecessary energy consumption for acting on the locking drive after one of its two end positions has been reached. In fact, in this context, the locking drive generally includes a worm wheel, which in general ensures the self-locking design of the locking drive as a whole.
As a result, a motor vehicle door lock is provided which offers a functionally reliable mechanical emergency opening, in particular, without the risk of the bonnet or door being opened unintentionally. The check of the position of the locking element with the aid of the sensor namely provides information about a possible opening request of an operator for manual emergency opening as well as about whether the locking element is in a position in which the handle is released or in a position in which the handle is locked. The signal from the sensor may now advantageously be evaluated by the control unit as a function of the speed and, for example, implemented in such a way that the locking element is moved into its handle locking position at a certain vehicle speed or when a threshold is exceeded for a predefined vehicle speed. The control unit may then de-energize the associated locking drive for the locking element.
The locking element maintains its position in which the handle is locked, by self-locking until the locking drive acts on the locking element in the direction of its releasing position with respect to the handle. This is usually only the case when the motor vehicle has come to a standstill after a previous drive. A potentially stored signal from the sensor assigned to the locking element may now be interpreted as an opening request for the tailgate or bonnet, meaning that the opening/retracting drive opens the bonnet immediately after the vehicle has come to a standstill (for a longer period of time) with no additional action on the handle. In this case, it may also be necessary to evaluate whether the engine is running in order not to misinterpret a waiting position of the motor vehicle as its standstill. For this purpose, the signal of at least one door contact switch is also evaluated with the aid of the control unit. As soon as the motor vehicle is stationary, the engine is switched off and, for example, the door contact switch signals that the vehicle door has been opened; this may be interpreted to mean that the vehicle has actually come to a standstill and the bonnet or tailgate may be opened safely. The essential advantages may be seen herein.
The invention is explained in greater detail below with reference to drawings, which show only one exemplary embodiment. In the drawings:
A motor vehicle lock is shown in the figures. The motor vehicle door lock is composed of a body-side lock housing or motor vehicle door lock with a locking mechanism 1, 2 situated therein and a locking bolt bracket 3 on the bonnet or door side. Furthermore, an opening/retracting drive 4 for the locking mechanism 1, 2 is situated in the lock housing or motor vehicle door lock. In addition, a handle 5, which is mechanically coupled to the locking mechanism 1, 2 via a connecting element 6, is apparent schematically, particularly in
The solid-lined position of the front bonnet 10 corresponds to the closed state of the front bonnet 10, while the dash-dotted illustration forms a slight opening of the front bonnet 10 and, according to the exemplary embodiment, the catch position of the motor vehicle door lock, as will be explained in greater detail below. The dashed-lined position of the front hood 10 on the other hand represents its completely open state.
With the aid of the handle 5, at least the locking mechanism 1, 2 may be mechanically and manually opened in an emergency via the interposed connecting element 6, as is shown in particular in
The position of the front bonnet 10 shown with dash-dots in
In principle, the front bonnet 10 or the locking mechanism 1, 2 may also be opened by an electric motor—usually when at a standstill. The opening/retracting drive 4 is provided for this purpose. For this purpose, the opening/retracting drive 4 may operate on the pawl 2 and, starting from its engagement with the catch 1, lift off from the closed position according to
In the context of the exemplary embodiment, the connecting element 6 is, and not limited to, a Bowden cable. The connecting element or the Bowden cable is connected to the handle 5. The handle 6 is a pivot lever hinged in the vehicle interior of the motor vehicle. It may be seen from
According to the invention, a locking element 13 engaging the connecting element 6 is now also provided. A locking drive 14, 15, 16 is assigned to the locking element 13. The locking element 13 may be moved with the aid of the associated locking drive 14, 15, 16 at least into a position that locks the handle 5 and into a position that releases it. The locking position of the locking element 13 is shown in
In order to assume the locking position of the locking element 13 starting from the released position in
The locking element 13 in the exemplary embodiment is a locking slider 13, which is guided predominantly linearly with respect to the motor vehicle body. The locking element or locking slider 3 has an opening or elongated hole 17 for this purpose. A longitudinally extended and stationary or body-side guide pin 18 dips into the opening or elongated hole 17 in the locking element or locking slide 3. Accordingly, the mutual interaction between the guide pin 18 and the opening or elongated hole 17 results in the desired linear movement of the locking element or locking slider 13. This takes place overall against the force of a spring 19, which pretensions the locking element or the locking slider 3 according to the exemplary embodiment in the direction of its releasing position as shown in
The locking element 13 interacts with a stop 20 on the connecting element 6 to limit the path of the connecting element 6 and consequently the handle 5. This interaction between the locking element 13 or a locking lug 21 at the end and the stop 20 takes place when the locking element 13 has assumed its locking position, as shown in
In the context of the exemplary embodiment, the locking element or locking slider 13 is moved from its releasing position as shown in
Only when the motor vehicle is stationary or is driving at walking speed and the speed sensor 23 transmits this to the control unit 22 does the control unit 22 act on the locking drive 14, 15, 16 to ensure that the locking element 13 is moved from its locking position shown in
The handle 5 performs the previously mentioned stroke A until the locking position is reached, as shown in
The sensing element 7, 8, 9 previously indicated in
The closed position of the bonnet or front bonnet 10 in relation to the pivot lever 8 is shown in solid lines in
The mechanical sensing element 7, 8, 9 interacting with the locking element 13 thus ensures, overall, a purely mechanical locking of the handle 5 or of the connecting element 6. This mechanical lock also functions if the locking drive 14, 15, 16 has failed, for example. It is key that the sensing element 7, 8, 9 locks the opening device 4, 5, 6, specifically the connecting element 6 and thus the handle 5, when the bonnet 10 or door or tailgate is at least partially open, in order to inhibit a complete opening of the bonnet 10. For this purpose, the spring 9 is provided, which pretensions the rod 7 in the direction of the bonnet 10. The rod 7 sensing the underside of the bonnet 10 is, or the linear movements thereof are, converted into rotations of the stationary pivot lever 8, which in the present case is designed as a two-arm lever with a central and stationary axis of rotation.
The (connecting) rod 7 is connected to one end or one arm of the pivot lever 8. The opposite end or the other arm of the pivot lever 8 moves in the open position of the bonnet 10 against the stop 25 of the locking element 13, as shown in
The locking element 13 shown in detail in
A sensor 26 is also apparent in
With the aid of the sensor 26, the position of the locking element or locking slider 13 is checked. At the same time, however, an action upon the handle 5 may also be sensed via the sensor 26. As soon as the handle 5 is pivoted clockwise about the axis Z, for example, in the illustration in
The control unit 22 now acts on the opening/retracting drive 4 for the locking mechanism 1, 2 as a function of signals of the sensor 26 and/or of the sensor assigned to the handle 5. In fact, the signal from the sensor 26 and/or the sensor assigned to the handle 5 may be evaluated with the aid of the control unit 22 in terms of the opening/retracting drive 4 opening the locking mechanism 1, 2. This generally requires that the speed sensor 23 reports the standstill of the vehicle to the control unit 22 and, in addition, at least one door contact switch 24, for example, a vehicle door that is opened by a vehicle driver.
Alternatively or additionally, however, the locking drive 14, 15, 16 may also be acted upon as a function of signals from the sensor 26 with the aid of the control unit 22. According to the exemplary embodiment, a signal from the speed sensor 23 generally results in the locking drive 14, 15, 16 being acted upon with the aid of the control unit 22 in such a way that the locking element 13 leaves its previously assumed position releasing the handle 5 and is moved directly into its handle 5 locking position in order while driving to prevent an accidental opening of the bonnet or front bonnet 10 by acting on the handle 5.
In this case, for example, the signal from the sensor 26 may be stored. This may be repeated with the aid of the control unit 22. In this way, the signal from the sensor 26 may be used for a time-delayed action upon the opening/retracting drive 4. For example, if a vehicle driver acts on the handle 5 for manual emergency opening while driving, the locking element 13 in its locking position ensures that the handle 5 only performs the first stroke A and opens the pawl 2 and, if applicable, the drive pawl. The catch hook 12 continues to remain in its position securing the catch 1. As soon as the motor vehicle comes to a standstill and, for example, at least one door contact switch 24 is actuated, the control unit 22 interprets this as the vehicle at a standstill and may then, without actuating the handle 5 again, act on the opening/retracting drive 4 with a time delay in order to open both the pawl 2 or the locking mechanism 1, 2 and the catch hook 12.
The locking drive 14, 15, 16, previously described in detail above, is designed to be entirely self-locking. As a result, the control unit 22 is able in each case to de-energize the locking drive 14, 15, 16 after assuming a position that locks or releases the handle 5. In this way, unnecessary power consumption is avoided and a vehicle battery is not unnecessarily strained.
In addition and essentially, the design is such that the handle 5 for manual emergency opening of the locking mechanism 1, 2 operates with an extension 28 on the locking element 13 during its pivoting movement about the axis of rotation Z perpendicular to the plane of the drawing. This means the locking element 13 may on the one hand be moved in the linear direction with the aid of the locking drive 14, 15, 16. On the other hand, an action upon the locking element 13 in this linear direction via an action upon the handle 5 is possible by the handle 5 performing a clockwise movement about its axis of rotation Z indicated in
This clockwise movement of the handle 5 corresponds with the extension 28 coupled to the handle 5 adjusting the locking element 13 in the linear direction, according to the exemplary embodiment, pushing it “downwards.” The linear movement of the locking element 13 takes place only to the extent that the locking element 13 is unable to interact with the stop 20 on the connecting element 6, as is shown in
In the event that, for example, the motor vehicle is driving and accordingly the speed sensor 23 reports a correspondingly increased vehicle speed or a vehicle speed above the threshold value to the control unit 22, the control unit 22 ensures that the locking drive 14, 15, 16 is acted upon. This is apparent in the transition from
A further action upon the handle 5 is unnecessary, since the sensor or microswitch 26 is acted upon unchanged during this process, and consequently the associated signal is able to be recorded and stored by the control unit 22, for example, after the vehicle has come to a standstill. This means the signal from the sensor 26 is stored and ensures that the locking drive 14, 15, 16 is acted upon with a time delay. In other words, while driving, the bonnet 10 remains in the partially open and dash-dotted position shown in
In
The handle 5 is in fact furnished in two parts including the interior lever 5a and the Bowden cable lever 5b. The two aforementioned levers 5a, 5b are pivotably coupled to one another with the interposition of the spring 29. The spring 29 in this case is dimensioned in such a way that the Bowden cable lever 5b is carried along for acting upon the interior lever 5a with normal forces. The same applies to the Bowden cable or the connecting element 6, so that as a result the locking mechanism 1, 2 and possibly the drive pawl are opened as a whole. However, if the connecting element 6 is blocked with the aid of the locking element 13, as is indicated in
Number | Date | Country | Kind |
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10 2018 114 063.0 | Jun 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2019/100501 | 6/5/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/238164 | 12/19/2019 | WO | A |
Number | Name | Date | Kind |
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6518720 | Frantz | Feb 2003 | B1 |
9163435 | Zysk | Oct 2015 | B2 |
20030058088 | Franke | Mar 2003 | A1 |
20060255595 | Schretzlmeier | Nov 2006 | A1 |
20130238187 | Zysk | Sep 2013 | A1 |
Number | Date | Country |
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204715943 | Oct 2015 | CN |
10143263 | May 2003 | DE |
102005021740 | Nov 2006 | DE |
202008003845 | Aug 2009 | DE |
202008003845 | Sep 2009 | DE |
102012004792 | Sep 2013 | DE |
102016117282 | Mar 2018 | DE |
102016117282 | Mar 2018 | DE |
102018001021 | Aug 2019 | DE |
0217169 | Apr 1987 | EP |
Entry |
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Translation of International Search Report dated Sep. 2, 2019, for International Patent Application No. PCT/DE2019/100501. |
Number | Date | Country | |
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20210317688 A1 | Oct 2021 | US |