阅读说明：本技术 机动车锁 (Motor vehicle lock ) 是由 徐平 于 2020-04-08 设计创作，主要内容包括：本发明涉及一种机动车锁,该机动车锁具有主要包括转动锁叉和锁定爪的锁定机构、驱动装置(6、7、8)和固定元件(5)。该驱动装置(6、7、8)通过齿条元件(9)作用于固定元件(5),其中,齿条元件(9)配备有锁死元件(10)。根据本发明,锁死元件(10)设计为限定齿条元件(9)的至少两个终位置的摇臂(10)。(The invention relates to a motor vehicle lock having a locking mechanism which essentially comprises a rotary catch and a pawl, a drive (6, 7, 8) and a fastening element (5). The drive (6, 7, 8) acts on the fastening element (5) via a toothed rack element (9), wherein the toothed rack element (9) is equipped with a blocking element (10). According to the invention, the blocking element (10) is designed as a rocker arm (10) which defines at least two end positions of the rack element (9).)

1. Motor vehicle lock with a locking mechanism essentially comprising a rotary catch and a pawl, a drive (6, 7, 8) and a fixing element (5), wherein the drive (6, 7, 8) acts on the fixing element (5) via a rack element (9), the rack element (9) being equipped with a blocking element (10),

it is characterized in that the preparation method is characterized in that,

the blocking element (10) is designed as a rocker arm (10) which defines at least two end positions of the rack element (9).

2. Motor vehicle lock according to claim 1, characterized in that the rocker arm (10) is connected with a rack element (9).

3. Motor vehicle lock according to claim 1 or 2, characterized in that the rocker arm (10) is hingedly connected to the rack element (9) by means of a transmission rod (11).

4. Motor vehicle lock according to any one of claims 1 to 3, characterized in that the rocker arm (10) is C-shaped and has two blocking legs (10a, 10 b).

5. Motor vehicle lock according to claim 4, characterized in that the blocking legs (10a, 10b) interact with a stop (13) arranged between the blocking legs (10a, 10 b).

6. Motor vehicle lock according to claim 5, characterized in that the stop (13) is designed as a component of the drive (6, 7, 8).

7. Motor vehicle lock according to claim 6, characterized in that the stop (13) is formed on the worm wheel (8) of the drive (6, 7, 8).

8. Motor vehicle lock according to any of claims 1 to 7, characterized in that the rocker arm (10) is equipped with a return spring (12).

9. Motor vehicle lock according to any one of claims 1 to 8, characterized in that the securing element (5) is hingedly connected to the rack element (9).

10. Motor vehicle lock according to one of claims 1 to 9, characterized in that the fixing element (5) is designed as a fixing rod (5) which interacts with a spring (14) to achieve a position fixing.

Technical Field

The invention relates to a motor vehicle lock having a locking mechanism which essentially comprises a rotary catch and a pawl, a drive and a fastening element, wherein the drive acts on the fastening element via a toothed rack element which is equipped with a blocking element.

Background

Motor vehicle locks typically have a central locking function and, if necessary, an anti-theft security function. All doors equipped with the associated motor vehicle lock can be jointly locked by means of the central locking function. As a result, access from the outside is generally not possible, but the associated motor vehicle door can still be opened from the inside of the motor vehicle. If an anti-theft safeguard function is additionally implemented, opening from the inside is also prohibited in the "anti-theft safeguard" state, so that the associated motor vehicle cannot be opened even if the window pane of the associated motor vehicle door is broken.

In order to lock such motor vehicle locks and also to unlock the anti-theft safeguard, corresponding mechanisms are provided, which usually operate in a rotary or linear manner. In this way, the associated motor vehicle lock is switched into its locked or unlocked state or also into its anti-theft secured or anti-theft secured state.

In addition, it is also possible in principle to implement a child safety function, which is usually implemented in the rear side door of a motor vehicle. In the "child-proof" position, the associated motor vehicle lock cannot be opened from the inside, but can be opened from the outside. As in the case of the anti-theft safeguard, the child safety can in principle also be opened by means of the drive. Furthermore, mechanical solutions for actuating child safety devices are known.

The term "fixing element" is to be understood broadly within the scope of the present application. In practice, the fastening element can be a locking element as well as an anti-theft securing element. A child safety element is also included. In principle, it is therefore possible to adjust or set completely different functional positions of the motor vehicle lock by means of the fastening element.

In the event of an accident in a motor vehicle equipped with such a motor vehicle lock, a movement from the locked position into the unlocked position or, in the case of a theft protection, from the upper safety position into the lower safety position is generally to be avoided in order to prevent the door from being opened unintentionally. For this purpose, the prior art according to DE 102014000680 a1 works with so-called position fixing devices.

The position fixing device is provided for the movably supported carriage and for fixing the position of the movably supported carriage. For this purpose, the position fixing device comprises in the known teaching a tilting device, by means of which the slide can be tilted in the event of excessive acceleration. This results in a compact position protection device and provides a reliable operating mode.

Instead of such a position fixing device, it is also possible in principle to design the drive for the respective fixing element to return into its basic position after the fixing element has been loaded. In this way, the drive is approximately decoupled from the fastening element, so that loading of the drive, for example as a result of a crash, does not act on the fastening element.

In addition, the prior art is directed in principle to reducing the structural outlay. For this purpose, motors or drives have already been used in the prior art of this type according to DE 102014000680 a1 to change the position of the locking device and the anti-theft safeguard as required. The correspondingly adjusted position is then fixed by means of an additionally provided position fixing device. This is relatively complicated because the position fixing device requires a special spring designed as a jaw spring acting on both sides to achieve this. The invention here remedies in its entirety.

Disclosure of Invention

The object of the invention is to further develop such a motor vehicle lock such that different fastening positions can be safely and reliably assumed in a reproducible and structurally simple manner.

In order to solve this technical problem, within the scope of the invention, such a motor vehicle lock is distinguished in that the blocking element is designed as a rocker arm which defines at least two end positions of the rack element.

Thus, with this special blocking element, which is designed as a rocker arm, at least two end positions of the rack element can be defined and implemented for the first time according to the invention. These two end positions may be, for example, a "child safety" function position and a "theft safety" function position. The following possibilities thus exist within the scope of the invention: not only can the distinction be made without any doubt between these two functional positions, but for this purpose only one (single) drive is required for driving the toothed rack element which acts on the fastening element itself. This reduces the structural outlay, since the anti-theft protection and the child protection do not require their own drives.

Instead, according to the invention, a (single) drive is used in order to be able to implement both a child-safety function and an anti-theft safety function by means of the toothed rack element. This is possible because the respective end states, namely the "child-proof" state and the "anti-theft-proof" state, belong to different end positions of the rack element, which are in turn accessed in a targeted and precisely positioned manner by means of the blocking element designed as a rocker arm. In contrast, the "child-resistant" functional position and the "anti-theft-resistant" functional position correspond to a common initial position of the rack element before actuation. In this way, the overall construction outlay is reduced and the functional reliability is increased, since the blocking element or the rocker arm directly delimits the two end positions of the rack element.

To embody and implement this, the rocker arm is usually connected to a rack member. This can basically be done in that the rocker arm is connected to the rack element in an articulated manner by means of a transfer lever. The rocker arm and the transfer lever are usually mounted coaxially with one another. In this case, the rocker arm is often equipped with a return spring.

The return spring is advantageously a bistable spring, i.e. a spring in which: the spring allows loading in one direction and in the opposite direction and ensures a corresponding return movement into the neutral position or neutral zero position, respectively, after the removal of the loading force. In principle, however, and advantageously, it is also possible to work with simple helical torsion springs. This ultimately depends on how the orientation of the respective functional position is switched and realized by means of the rack element.

The rocker arm is generally configured in a C-shape and has two locking legs. In this case, it is also provided that the individual blocking legs of the C-shaped rocker arm interact with stops arranged between the blocking legs. That is, by the C-shape of the rocker arm, the invention opens up the possibility of positioning one or more of said stops between the two dead leg ends.

In this case, it has proven to be particularly advantageous if the stop is designed as a component of the drive. In principle, an additional formation of a stop can thereby be avoided, which again reduces the construction effort. Usually, the stop is formed on the worm wheel of the drive. The present invention is based on the following findings: the drive for the rack element is usually equipped with an electric motor and a drive worm on the output shaft of the electric motor. The drive worm engages with the previously mentioned worm wheel of the drive.

It is also possible, for most purposes, for the worm wheel to have a gear wheel which meshes with the rack element. In this way, different transmission ratios can be achieved as desired, as will be explained further below with reference to the description of the figures.

According to the invention, the stop is formed on the worm wheel anyway. For this purpose, the worm wheel has a stop tab, which is usually formed integrally with the worm wheel (made of plastic), mostly on the rear side. In this way, the stop tab defines two opposing stops on its outer circumference for each blocking leg of the rocker arm which C-shaped surrounds the stop tab. In this way, the two end positions of the rack element can be realized in a particularly simple manner and in a functionally reliable manner.

The fixed member is typically hingedly connected to the rack member. Furthermore, the fastening elements are mostly fastening rods which are loaded with springs. The spring ensures that the fixing rod is fixed in position through interaction with the fixing rod.

For this purpose, the securing lever is usually designed with a cantilever arm which interacts with a leg of a spring designed as a helical torsion spring. The spring leg or spring leg usually has a projection which interacts with the bracket and can interact in such a way that the fastening element or fastening lever is fixed in position in at least three positions described, namely the "unsecured" position, the "anti-theft secured" position and the "child-secured" position. For this purpose, the cantilever is equipped with a recess adapted to the contour of the projection, as will be explained in more detail with reference to the description of the figures.

As a result, a motor vehicle lock and in particular a motor vehicle door lock is provided which is particularly simple in construction both for the child safety function and for the anti-theft safety function, due to the use of one (single) drive device. In this connection, it is additionally helpful if the fixing element, which can be controlled into three different functional positions, is moved by means of a rack element and can be adjusted.

The rack element has for this purpose a blocking element designed as a rocker arm, by means of which at least two end positions of the rack element can be defined. After the force loading from the drive is cancelled, the additionally realized starting position of the rack element is moved in each case by a spring associated with the rocker arm. These are considered to be the main advantages of the present invention.

Drawings

The invention is explained in detail below on the basis of the figures, which show only one embodiment. In the context of the figures, it is,

figure 1 shows a motor vehicle lock according to the invention in the inactive functional position,

figure 2A shows the motor vehicle lock according to figure 1 in the inactive position in a rear view,

figure 2B shows the motor vehicle lock according to figure 2A in the "child-proof" position,

fig. 2C shows the motor vehicle lock according to fig. 2A in the "anti-theft safety" position.

Detailed Description

In the figures, a motor vehicle lock is shown, which is a motor vehicle door lock. The motor vehicle lock has a locking mechanism, not shown in detail, which essentially comprises a rotary catch and a pawl. For releasing and operating the locking mechanism, an actuating lever 1 is provided, which is supported coaxially with the opening lever 2. The locking mechanism can be opened mechanically by means of the opening lever 2 and regardless of the position of the actuating lever 1 and the coupling lever 3.

If the coupling lever 3 is in its coupling position (see fig. 2B), the loading of the actuating lever or outer actuating lever 1 about its axis in the clockwise direction in fig. 1 results in that the actuating lever 1 can open the locking mechanism via the opening lever 2 and the release lever 4 in the following manner: the release lever 4 disengages the pawl falling into the rotary latch fork from its engagement with the rotary latch fork. If, on the other hand, the coupling or outer coupling lever 3 is in its "disengaged" position shown in fig. 1 (and in fig. 2A and 2C), the corresponding opening movement of the actuating lever or outer actuating lever 1 is lost in the case of this example, but opening can still be effected by the opening lever 2 which is driven in a motorized manner. For this purpose, the opening lever 2 is loaded clockwise about its common axis with the actuating lever 1.

The coupling rod or outer coupling rod 3 is transferred by means of the fixing element 5 into the "disengaged" position shown in fig. 1 (and in fig. 2A and 2C), as will be explained in more detail below. For this purpose, drive means 6, 7, 8 for a toothed rack element 9 are additionally provided. The drive means 6, 7, 8 act on the fixing element 5 via a rack element 9, as will be explained in more detail below. Furthermore, the rack element 9 is equipped with a blocking element 10.

According to the invention, the blocking element 10 is designed as a rocker arm 10, which defines at least two end positions of the rack element 9. The rocker arm 10 is connected to the rack element 9 in an articulated manner. For this purpose, a transfer rod 11 is provided. It can be seen that the rocker arm 10 is connected in an articulated manner to the rack element 9 by means of a transfer lever 11. For this purpose, the rocker arm 10 and the transfer lever 11 are coaxially supported. Furthermore, a spring 12 associated with the rocker arm 10 can be seen. The spring 12 is a return spring. Furthermore, the spring 12 is designed as a helical torsion spring and partially encloses with its helical turns a bearing pin which defines the common axis of the rocker arm 10 and the transfer lever 11. Two spring legs extending from the helically wound portion are supported on respective stops of the rocker arm 10. In this way, the pivoting movement of the rocker arm 10 out of its inactive position shown in fig. 1 results in the tensioning of the respective spring or return spring 12. Thus, after the rack element 9 has been relieved of load by the drives 6, 7, 8, the spring or return spring 12 ensures that the rocker arm 10 and the rack element 9, and also the entire drive 6, 7, 8, respectively, are returned to their basic or inactive position (as shown in fig. 1 or fig. 2A).

The rocker arm is C-shaped overall and is equipped with two blocking legs 10a, 10 b. The two blocking legs 10a, 10b can thus interact with a stop 13 arranged between them. The stop 13 is designed according to this embodiment as a rear stop tab or stop rib 13, which is connected to the worm wheel 8 as part of the drive 6, 7, 8 at the rear.

In practice, the drive means 6, 7, 8 essentially consist of an electric motor 6, a drive worm 7 arranged on the output shaft of the electric motor 6 and a worm wheel 8 meshing with the drive worm 7. The worm wheel 8 in turn carries a gear wheel 8a which engages into a rack element 9. In this way, the rotational movement of the worm wheel 8 or the gear wheel 8a is converted into a linear movement of the rack element 9.

The fixing element 5 itself is connected in an articulated manner to the rack element 9, more precisely to the end opposite the toothing of the rack element 9. Furthermore, the fixing element 5 is a fixing rod 5 which is loaded by a spring 14 to achieve a position fixing.

The operation is as follows. Starting from the inactive position shown in fig. 1 and 2A, the loading of the drive 6, 7, 8, which forces the gear wheel 8a (in fig. 1) in the clockwise direction, causes the rack element 9 to move to the left. The rocker arm 10 is thus likewise pivoted in the clockwise direction (in the rear view according to fig. 2A) so that its blocking leg 10a rests against the stop 13 of the worm wheel 8. Thereby creating a "child-safe" position as shown in fig. 2B. After the force application of the drive 6, 7, 8 to the rack element 9 has been cancelled, the restoring spring 12 ensures that the drive 6, 7, 8 and the rack element 9 are restored, to be precise into their initial or inactive position (see fig. 1 and 2A).

The loading of the drive 6, 7, 8, which rotates the gear wheel 8a (in fig. 1) in the counterclockwise direction starting from the initial position, now causes the rack element 9 to move to the right in fig. 1. This results in the rocker arm 10 pivoting in the clockwise direction in fig. 1 (counterclockwise when viewed in fig. 2C), so that its other locking leg 10b again comes to rest against the stop or stop 13. The "arming" function position shown in fig. 2C is now reached. This "anti-theft security" function corresponds to the locking lever 15 connected to the rack element 9 having been loaded on the internal coupling lever 16, in the sense of "disengagement". Usually, the internal coupling lever 16 is mostly in the "coupled" state. At the same time, in the "anti-theft safety" position, the fixing element 5 holds the coupling rod 3 in the "disengaged" position according to fig. 2C. Thus, the motor vehicle lock cannot be opened from the inside nor from the outside.

In contrast, the outer coupling lever 3 is coupled in the "child-proof" position according to fig. 2b, so that in this functional position only the inner coupling lever 16 is decoupled, so that the associated motor vehicle lock cannot be opened from the inside. The coupling-out lever 3 is "coupled" in this case, so that the associated motor vehicle door can still be opened from the outside without any change when the motor vehicle lock is unlocked.

In contrast, the "anti-theft secured" position according to fig. 2C corresponds to the two coupling levers 3, 16 respectively occupying their "disengaged" positions, so that the associated motor vehicle lock can neither be opened from the inside nor from the outside. This is a common and desirable anti-theft security function.

Fig. 2A to 2C show different positions of the fixing element 5 relative to the spring 14 interacting with the fixing element 5. The spring 14 has a boss 14a for this purpose. Furthermore, the fixing element 5 is provided with a recess 5 a. It can be seen that the three different and previously mentioned functional positions, namely the inactive or "arming and unlocking" position, the "child-safety" position and the "anti-theft safety" position, correspond to the fact that the bracket 5b of the fastening element 5 with the front recess 5a is either held in the middle by the projection 14a or is located on one side or the other of the projection 14 a. That is, the interaction between the spring 14 and the fixing element 5 ensures a fixed position of the fixing element 5.

List of reference numerals:

1 actuating lever

2 opening lever

3 external connecting rod

4 release lever

5 fixing element

5a concave part

6. 7, 8 driving device

6 electric machine

7 drive worm

8 worm wheel

8a gear

9 Rack element

10 rocker arm

10a, 10b locking legs

11 transfer rod

12 return spring

13 stop sheet

14 spring

14a convex part

15 locking lever

16 internally coupled to the rod.