EP1085148A2 - Door lock for assisted opening - Google Patents

Abstract

The lock has a latch bolt (12) and locking pawl (14) and motor-driven follower cam (26). The follower cam moves relative to the circumferential axis (30) between an inner radial position where it is outside the engagement area of the pawl and stop (48), and an outer radial position where it is in the engagement area of the pawl and stop. At least a fixed guide slide can be provided on which the cam slides radially outwards against a tensioning spring (28) when the drive is switched on. The cam is mounted on a follower lever (24).

Description

The invention relates to a door lock with a motor-driven Opening aid, especially for doors, flaps or hoods of motor vehicles, with a lock latch between one Releasing locking pin and a locking position pivotable is a pawl, which locks the lock latch between Closed position and a position releasing the lock latch is movable, and a motor-driven, rotating around an axis Driver cam, which the pawl in its the lock latch releasing position, and by a movable stop can be blocked, the driver cam when locking the door lock releases, the driver cam from the engagement area of the Pawl and / or the stop is movable.

Such a door lock, as it is for example in DE 195 05 779 A1 offers the possibility of the electric drive motor after unlocking the lock latch by monitoring the Shut off the motor's current draw when the drive pin runs against the stop and the power consumption due to the blocked motor increases. Such an electronically monitored shutdown works more reliably than fault-prone microswitches.

An essential placed on door locks used in the motor vehicle sector The requirement is that even if the motor drive can be easily opened and closed can. If the motor failed, the driver cam would remain in in a position blocking the pawl and / or the stop, even manual operation of the lock would no longer be guaranteed. In the door lock described in DE 195 05 779 A1 is provided to ensure the emergency opening property that the driver cam compared to a drive element to a limited extent is rotatable, the relative rotation under pretension of a spring he follows. This arrangement means that the driver cam is always under the load of the preloaded spring on the pawl or the stop works, which results in high contact forces, a relatively strong drive motor and appropriately dimensioned mechanical components required do. This also reduces the noise level during the Opening process quite high. The rotatability between the drive element and driving pin also limits the arrangement options the pawl and the stop, because of certain angular distances are essential to enable free rotation.

The object of the present invention is a door lock to create a simpler constructive Adaptation to the required opening forces and the existing one Space allowed.

According to the invention, the object is achieved by a door lock as described in the introduction Type solved, in which the driver cam with reference to the axis of rotation between an inner radial position in which it is is outside the engagement area of the pawl and the stop, and an outer radial position in which it is movable in the engagement area the pawl and the stop.

Because the main direction of movement of the driving cam when moving not in its position releasing the pawl and the stop the actual direction of action of the driver cam, the Driving forces optimal to the force required to open the lock vote. Because the displacement of the driving pin between its two positions mainly in the radial direction, result also greater freedom in the arrangement of the pawl and the stop, because there is little or no movement in the circumferential direction is present.

The lower actuation forces allow smaller drives and use of plastic parts, for example for the driving cams, whereby the opening noises can be reduced. The lower ones mechanical loads may also allow temporal loads Shortening the opening cycle.

The control of the movement of the driver cam can either be mechanical positively controlled in both directions, preferably however, the driver cam moves into its radial outer position against the action of a preloaded spring, which the for returning the driver cam to its radial inner position stores necessary energy.

In a preferred embodiment of the door lock is at least a fixed guide link is provided on which the driver cam with the drive switched on against its tensioning spring slides radially outwards.

The displacement of the driver cam into its radial outer position is thus done by the drive motor of the opening aid, the shift of the driver cam is completed radially outwards before the driver cam engages with the pawl or from the attack is blocked.

The driver cam is preferably arranged on a driver lever, on a drive element rotating around the circumferential axis is pivotally mounted. The swiveling driver lever takes over Guiding the trajectory of the driver cam between its two radial positions.

Under certain circumstances it may be useful to use one of the Pawl separate, separately mounted pivoting opening lever to be provided, the one with the pawl and one with the stop, pivoted block lever cooperates and by the Driving cams can be taken along.

Opposite one that works directly with the pawl The separate opening lever allows driver cams to be freely selected the gear ratio, which makes the driving forces optimal can be tuned to the necessary opening forces, whereby a further noise reduction is possible. The separate arrangement allows also greater scope in the spatial arrangement of the individual Lever.

The release of the driver cam when the door lock is closed can be realized, for example, that the block lever by the pawl or the opening lever when closing the lock latch is pivotable, being an alternative to that from the orbit of the Driving cam pivoting stop also a targeted return of the driver cam in its radial inner position is conceivable. With such a configuration, the stop could be made stationary his.

In a preferred embodiment of the invention it is provided that the spring arrangement is designed bistable so that the driver cam is blocked in its radial outer position, with the help of unlocking means is traceable to its radial inner position.

For example, a manually operated opening device, the Basically provided for all door locks with a motorized opening aid is and acts on the pawl, also on such unlocking means act and thus ensure that the driver cam from the engagement area of the stop or the pawl or the Opening lever moves. It can also be provided that the block hoist or the pawl or the opening lever when closing the Lock latch the blockage of the cam in its radial outer position for example by acting on the unlocking means. Basically, it would be conceivable that the driver cam at bistable trained spring arrangement in normal operation always in its radial Outside position persists and only in its case of an emergency opening radial inner layer is returned, however, during each Repeatedly brought about the operational safety at spatial increase tight arrangement.

As an alternative to the bistable spring arrangement, the geometry of the Contact surfaces of the driver cam on the pawl or the opening lever and the stop should be chosen so that the driver cam in contact with the driving forces in its radial outer position persists. With such an arrangement, the driver cam returns automatically returns to its inner radial position when the drive motor is switched off and / or the block lever or the pawl or the Opening lever from the movement path of the driver cam pivots.

With such a configuration of the spring arrangement, it is expedient to one guide link each in the circumferential direction of the driver cam in front of the contact surface on the pawl and before the stop on the To provide block levers, also with the bistable arrangement of the spring The second leadership backdrop may be useful after an emergency opening to guide the driver cam to the stop.

Fig. 1 bis 5

schematisch den Öffnungsvorgang einer ersten Ausführungsform eines Türschlosses mit Öffnungshilfe;

Fig. 6 bis 11

den Öffnungsvorgang einer weiteren Ausführungsform eines Türschlosses.

In the following, exemplary embodiments of the invention are discussed in more detail with reference to the accompanying drawings. Show it:

1 to 5

schematically the opening process of a first embodiment of a door lock with opening aid;

6 to 11

the opening process of a further embodiment of a door lock.

In Fig. 1 is a schematic view of a door lock 10 in the shown closed rest position. The door lock 10 has the usual Way via a lock latch 12 which is between a closed Closed position and a releasing a locking pin, not shown open position is pivotable. One also swiveling stored pawl 14 locks in a conventional manner Rotary latch 12 with the aid of a catch 16 in its closed position, between the lock latch 12 and the locking blade 14 a tension spring 18 is arranged , which strives to close the rotary latch 12 in its open position swivel. The door lock 10 also has a motor-driven Opening aid 20, with the help of which the pawl 14 in a Lock latch 12 unlocking position is movable. The opening aid 20 has a driven by an electric motor (not shown) Drive element 22, on which a driver lever 24 with a driver cam 26 is pivotally mounted eccentrically. Between the Drive element 22 and the driver lever 24 is a spring 28, the the latter biased towards a rest position in which the Driver cams 26 in a with respect to the axis of rotation 30 of the drive element 22 is located radially inner position. There is also an opening lever 32 provided, as well as a block lever 34 around a common axis 36 is pivotally mounted. The opening lever 32 has a contact surface 38, which will be described later Interacts with the drive cam 26, and a driver surface 40 which cooperates with a lever arm 42 of the pawl. There is also a lever shoulder 44 on the opening lever 32 provided on which an emergency opening device, not shown attacks.

The block lever 34 has an operating lever 46, which with the Opening lever 32 cooperates, and a stop 48, the one another lever arm is arranged.

A microswitch 50 acts with an extension 52 on the lever arm 42 Pawl 14 together and is capable of the closed position the lock latch 12 to capture.

Is now in the rest position shown in Fig. The one Worm acting on an external toothing 54 on the drive element 22 electric drive motor activated, the drive element begins 22 to rotate counterclockwise in the sense of the illustration. The driving lever 24, which also rotates, runs over a stop (not visible) against a first guide link 56, whereupon the driver lever 24 begins to about its axis of rotation 58 (see Fig. 2) pivot, the driver cam 26 with respect to the axis of rotation 30 moved radially outwards. The spring 28 is preloaded until the position shown in Fig. 2 is reached, in which the Driving cams 26 against the contact surface 38 on the opening lever 32 creates.

The inclined with respect to the return direction of the driving cam 26 Contact surface 38 prevents the driver lever 24 under the load of the biased spring 28 can snap back into its original position. As a result, the drive member 22 continues to rotate to take the opening lever 32, (see Fig. 3), the Driving surface 40 and the lever arm 42, the pawl 14 taken becomes. As soon as the catch 16 can no longer hold the lock latch 12, the lock latch 12 snaps into its open position under the load of the tension spring 18 Position, the state shown in Fig. 4 just the moment represents the opening of the lock latch. In this condition the driver cam 26 is still in its radial outer position, however results from the pivoting opening lever 32 a changed position of the contact surface 38, which is the driving lever 24 and thus the driver cam 26 allowed under the load the spring 28 immediately after the rotational angle position shown in FIG. 4 snap back into its radially inner position.

The lock latch 12 is already unlocked at this time, however The drive motor of the opening aid 20 initially continues to run. At a second cam 60, the driver cam 26 is under again Biasing the spring 28 in a radially outer position with respect the axis of rotation 30 moves, engaging the stop 48 arrives at the block lever 34 pivoted into its movement path. In this position, the electric motor is blocked, with a shutdown by monitoring the current consumption on the basis of this Moment of greatly increasing current takes place. This open state with blocked driver cam 26 is shown in Fig. 5.

The lock latch 12 is closed by inserting the locking pin Moved position, the pawl 14 snaps into their Lock latch 12 locking position back, the operating lever 46 of the block lever releases, so that the stop 48 under the load of Spring 28 is pushed outward, thereby releasing the driver cam 26 takes place. Thus, this can return to its radially inner Snap back position so that again the closed shown in Fig. 1 Rest position of the door lock 10 results.

A failure of the drive motor is not critical under any circumstances, because by actuating the emergency opening aid via the lever shoulder 44, for example also in the position of the driver cams shown in FIG. 4 26 can be released so that it snap back into its radially inner position can. Since he is in this position regardless of the rotational position outside the engagement area of the stop 48 and the contact surface 38 is a hindrance to manual opening or Closing the door lock 10 excluded.

6 to 11 show a further embodiment of a door lock 100, which in turn has a lock latch 102 and a pawl 104, which interact via a catch 106 and between which one Tension spring 108 is provided. An opening aid 110 is also provided here, the one from an electric motor (not shown) via a Worm gear (also not shown) driven drive element 112, on which a driver lever 114 with a driver cam 116 is pivotally mounted eccentrically. This gives there is in turn a pivotability of the driving cam 116 between one radial with respect to the axis of rotation 118 of the drive element 112 further inward and a radially further outward position. The arrangement is different from the variant described above the spring 119 (see Fig. 11), however, selected so that the driver lever 114 is bistable, i.e. that it is also in its radial outer position remains without interacting with the stop surfaces to be instructed. The spring arrangement is chosen so that a Dead center of the driving lever 114 in the vicinity of the radial outer position of the driving cam 116 results, so that a pivoting of the Driver lever 114 is sufficient for a very short distance, this in his to snap back radially inner layer. To trigger this Snap action, the driver lever has a first actuating cam 120 and a second actuation cam located further inside 122.

In contrast to the embodiment shown in FIGS. 1 to 5 protrudes a lever arm 124 of the pawl 104 up into the orbit of the driving cam 116 in its radially outer position, so that no additional Opening lever is necessary. Also a lever shoulder 126, on which an emergency release device attacks, is directly on the Pawl 104 is provided. The pawl 104 also has an unlocking lever 128, the function of which will be discussed later becomes.

The lever arm 124 of the pawl also acts directly with an actuating lever 130 of a block lever 132 together, which is pivotally mounted is and has a stop 134 which is in the orbit of the driving cam 116 located in its radial outer position can be pivoted in is.

Now, starting from the closed rest position shown in FIG. 6, the drive of the opening aid 110 is switched on, it starts Drive element 112 in the counterclockwise direction in the sense of the illustration rotate. Again, there is a first guide link that is fixed on the housing side 136 provided that the driver cam 116 under continued Rotation of the drive element 112 by pivoting the driver lever 114 moved radially outward (see Fig. 7). As soon as the driver lever 114 slides over the dead center of the bistable spring arrangement, the driver cam 116 remains in its radial outer position, too after he has passed the guide backdrop 136. With continued rotation of the drive element 112 it meets the lever arm 124 of the pawl 104 and takes it into its position releasing the lock latch 102 with, whereupon the latter snaps open by the action of the tension spring 108. By taking the lever arm 124 moves out of orbit of the driving cam 116, so that this in a corresponding Position of the pawl 104, in which this through the lock latch 102 is prevented from snapping back, the lever arm 124 in its radial Persistent outside position can happen. A snap back of the driver lever 114 after unlocking the rotary latch 102 is omitted.

Finally, the driver cam 116 runs against the stop 134, whereupon the electric motor after detecting an increase in its Power consumption is switched off. The door lock 100 is now in an open waiting position.

The locking pin in turn reaches the engagement area of the lock latch 102, this is turned back into its closed position, whereupon the Pawl 104 snaps back and the lock latch 102 over the catch 106 locked. This releases the block lever 132 so that the Actuating lever 130, for example under the load of a spring on the first actuating cam 120 can act in such a way that the driver lever 114 is moved over the dead center and into its radially inner Location snaps back. Basically, it is also conceivable that the driver cam 116 remains in its radial outer position and at a restart of the electric drive the block lever 132 pivoted by pushing the stop 134 aside.

An emergency opening of the door lock if the opening aid fails 110 is possible with the help of the unlocking lever 128, which is actuated the pawl 104 via the emergency opening aid on the second actuation cam 122 acts and thereby snaps back the driver cam 116 in its radially inner position (see FIG. 11), in which of these is outside the engagement area of the lever arm 124 and of the stop 134 is located so that a hindrance to a manual opening or closing process is excluded. To after an emergency opening the opening aid is immediately ready for operation again To be able to move is a fixed in the area of the stop 134 second guide link 138 is provided which the driver cam immediately after an emergency opening in its radial outside position moves so that it can run against the stop 134. Normally however, there is no interaction between the second management backdrop 138 and the driving lever 114.

Modifications of the previously described exemplary embodiments can consist, for example, in a bistable spring arrangement 6 to 11, an additional opening lever corresponding to that in Fig. 1 to 5 shown door lock is used or a door lock 1 to 5 with a pawl similar to the door lock 100 according to 6 to 11 is designed without an opening lever. Instead of that Driving element created driving element are also other guides of the driver cam to achieve the desired radial movement conceivable, for example linear guides on the drive element.

Claims (11)

Door lock with a motor-driven opening aid (20; 110), in particular for doors, flaps or hoods of motor vehicles, with a lock latch (12; 102) which can be pivoted between a position releasing a locking pin and a locking position, a pawl (14; 104), which is movable between a closed position locking the lock latch (12; 102) and a position releasing the lock latch (12; 102), and a motor-driven driver cam (26; 116) rotating around an axis (30; 118), which takes the pawl (14; 104) into its position releasing the lock latch (12; 102) and can be blocked by a stop (48; 134) which releases the driver cam (26; 116) when the door lock is locked, the driver cam ( 26; 116) from the engagement area of the pawl (14; 104) and / or the stop (48; 134) is movable, characterized in that the driver cam (26; 116) with reference to di e orbital axis (30; 118) is movable between an inner radial position, in which it is outside the engagement area of the pawl (14; 104) and the stop (48; 134), and an outer radial position, in which it is in the engagement area of the pawl (14; 104) and the stop (48; 134). Door lock according to claim 1, characterized in that at least one fixed guide link (56, 60; 136, 138) is provided, on which the driver cam (26; 116) slides radially outwards against a tensioning spring (28) when the drive is switched on. Door lock according to claim 1 or 2, characterized in that the driver cam (26; 116) is arranged on a driver lever (24; 114) which is pivotally mounted on a drive element (22; 112) rotating about the circumferential axis (30; 118) . Door lock according to one of Claims 1 to 3, characterized in that a pivotable opening lever (32) which is separate from the pawl (14) and is mounted separately is provided, which is provided with the pawl (14, 42) and one with the stop (48) , pivotally mounted block lever (34) cooperates and can be taken along by the driving cam (26). Door lock according to claim 4, characterized in that the block lever (34) can be pivoted by the pawl (42) or the opening lever when the lock latch (12) is closed, thereby releasing the driver cam (26). Door lock according to one of the preceding claims, characterized in that the spring arrangement is designed to be bistable in such a way that the driver cam (116) is blocked in its radial outer position, with the aid of unlocking means (120, 122, 128, 130) in its radial inner position is traceable. Door lock according to claim 6, characterized in that a manually operable opening device (126) is provided which acts on the pawl (104) and the unlocking means (122, 128). Door lock according to claim 6 or 7, characterized in that the block lever (132) or the pawl (104) or the opening lever releases the blocking of the driving cam (116) in its radial outer position when the lock latch (102) is closed. Door lock according to one of claims 1 to 5, characterized in that the geometry of the contact surfaces (38, 48) of the driver cam (26) on the pawl or the opening lever (32) and the stop (48) is selected so that the driver cam (26) remains in contact with the driving forces in its radial outer position. Door lock according to one of the preceding claims, characterized in that in each case one guide link (56, 60; 136, 138) in the circumferential direction of the driving cam (26; 116) in front of the contact surface (38; 124) on the pawl (104) or the opening lever (32) and before the stop (48; 134) on the block lever (34; 132) is provided. Door lock according to one of the preceding claims, characterized in that the driver cam (26; 116) and / or the driver lever (24; 114) consist of plastic.

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