DE112006000041A1 - Locking device for a vehicle seat - Google Patents

Abstract

at a locking device for a vehicle seat, in particular in a crash-active headrest (1) for one Vehicle seat, which is a carrier (5, 11) and a baffle element (39), which by means of a Four joints (19, 25) on the carrier (5, 11) is articulated and in the event of a crash or other triggering event - driven by a spring (15) - in a closer to the head of an occupant Position is extended, with a magnet unit (43) and a gear of levers (45, 47) and / or pawls (49) to the Spring (15) and / or one of the spring (15) acted upon bracket normally hold and release in the event of a crash or other triggering event is one Actuator box (31) designed as a verifiable unit, which the magnet unit (43) and the transmission from the levers (45, 47) and / or pawls (49), wherein a reset pawl (69) provided which is at least partially parallel to the transmission of levers (45, 47) and / or pawls (49) acts with a lower translation.

Description

The The invention relates to a locking device with the features of the preamble of claim 1.

From the DE 102 60 582 C1 is a headrest with a locking device of this type is known which realizes numerous functions with numerous components, for example, in addition to the crash activity nor a comfort setting and a reset of the headrest, which is done by an externally introduced tool. The numerous components make a precise and therefore complex assembly necessary at the end of the headrest is tested.

Of the Invention is based on the object, a locking device to improve the type mentioned. This object is achieved by a locking device with the features of claim 1 solved. Advantageous embodiments are the subject of the dependent claims.

The Locking device according to the invention can in various crash-active units of a vehicle seat, for example a headrest or an anti-submarine bar, be used, but also in general use as a lock ("Electric lock") are used, For example, for securing a vehicle seat or a backrest on the body, for a trunk lid or bonnet, or for folding or setting up rear headrests. Characterized in that an actuator box is designed as a verifiable unit, which the magnet unit and the transmission from the levers and / or Includes the actuator box already before installation in the headrest, especially before installation in the carrier, its full functionality and can be checked. The effort for troubleshooting, for example by replacing the actuator box, is significantly lower than when the headrest is already fully assembled would.

The Lever and pawls of the transmission are so coordinated, that after the crash (or other triggering case) by introducing the Spring (or the strap) and pivoting the pawls and levers lock the magnet unit again and / or can hold, so a reset the headrest done without a separate tool is necessary. For this holds in the event of a crash, preferably one of the levers receiving the spring Latch open. The inventively provided Reset latch acts at least partially parallel to the transmission of levers and / or Latches with lower translation. This is for the reset one opposite the aforementioned counterforce apply lower restoring force.

At least the transmission from the levers and / or pawls is preferably within arranged a largely closed housing of Aktuatorbox. This stands for a modular design a compact, protected by the housing assembly to disposal, which simplifies the assembly of the aforementioned units. By "largely closed" should be understood be that preferably a directly necessary for holding the spring, movable functional part, for example a pawl, from outside of the housing accessible is and / or partially protrudes from the housing, otherwise the Transmission, i. the other levers and pawls as other movable functional parts, from the case be covered, so protected become. Immovable functional parts, for example the magnet unit, can for example, also be arranged within the housing. optional but is at least an immovable functional part from outside of the housing accessible and / or partially protrudes from the housing out, for example, to save material of the housing.

The Gear translated the holding force of the magnet unit to a counterforce to the spring force the driving spring or builds up this drag. The levers and pawls can thereby forming an example 3-pawl system or a toggle system, which may be self-locking or non-self-locking. The magnet unit can be used as a lifting or pulling magnet (in which case the gear is the counterforce build up) or as a magnet (in which case the gear is translated) be educated. The magnet combines a permanent magnet and a compensating electromagnet with field compensation or Force compensation, the latter allows improved tuning. The gearbox does not have to hold the spring directly, but also can hold one of these acted upon hanger.

The Levers and pawls of the transmission preferably form a chain of Transmission links, which are normally the next transmission link lock and / or hold so as to hold the holding force of the magnet unit to translate to the spring. The levers and pawls of the transmission are preferably pivotable, with a few degrees of freedom to a defined total movement to reach. Accordingly, the levers and pawls give in the event of a crash (or other trigger case, for example Precrashfall) free the spring by pivoting.

By Optimized geometries, such as the pawl, can be an increase the insensitivity of the system can be achieved against tolerances that from the spring and / or the manufacture of the components of the actuator box originate.

in the The following is the invention with reference to an illustrated in the drawing Embodiment explained in more detail. It demonstrate

1 an exploded view of the headrest without padding,

2 a section through an actuator box in the holding state without showing the reset pawl,

3 a section through an actuator box in the tripped state without showing the reset pawl,

4 a schematic representation of a 3-pawl system in a non-self-locking variant,

5A a schematic representation of a 3-pawl system in a self-locking variant with magnet,

5B a schematic representation of a 3-pawl system in a self-locking variant with lifting or pulling magnet,

6A a schematic representation of a toggle lever system in a self-locking variant with magnet,

6B a schematic representation of a toggle lever system in a self-locking variant with lifting or pulling magnet,

7A a schematic representation of a magnet unit in a variant with field compensation,

7B a schematic representation of a magnet unit in a variant with force compensation,

8A a schematic representation of a toggle system with optimized geometry of the pawl in the holding state,

8B a schematic representation of a toggle system with optimized geometry of the pawl in the tripped state,

9 a section through the actuator box with reset pawl in the tripped state,

10 a section through modified Aktuatorbox in the holding state without showing the reset pawl, and

11 a side view of the actuator box of 10 ,

A crash-active headrest 1 is intended for a vehicle seat. The orientation of the same in a vehicle and its usual direction of travel define the directions used. A U-shaped bent headrest strap 3 is from a rear bearing shell 5 added. The rear bearing shell 5 is with a front bearing shell arranged in front of it 11 connected. Both cups 5 and 11 together define a carrier.

On the back of the front bearing shell 11 and on the front of the rear bearing shell 5 are the wound sections of a double leg spring 15 each half used. Here are the projecting from the ends facing each other, free support legs 17 on the back of the front bearing shell 11 lie, while the projecting from the opposite ends drive legs 19 , which by means of a transverse leg 21 are connected, on the front of the front bearing shell 11 to come to rest. On a U-shaped lower swing unit 25 is at the two free ends depending on a horizontally arranged swing bearing journal 27 molded, which for storage of the lower swing unit 25 also between the two bearing shells 5 and 11 is recorded.

The locking device is an actuator box 31 , which is a movable hook mouth 33 for receiving the transverse leg 21 having. The actuator box 31 is with the hook mouth 33 ahead in a shaft 35 the front bearing shell 11 used. The actuator box 31 is thus arranged within the carrier and largely enclosed by this. A plate-shaped impact element 39 is on the one hand on the transverse leg 21 the double leg spring 15 and on the other hand at the lower end of the lower swing unit 25 hinged hinged. The transverse leg 21 is under bias in the hook mouth 33 the actuator box 31 introduced and locked there. The described and in 1 illustrated structure of the headrest 1 is still upholstered, bringing the headrest 1 is complete.

Normally, the headrest forms 1 a compact unit. In the event of a crash, the actuator box 31 triggered by crash sensors, whereupon these the transverse leg 21 the double leg spring 15 releases. The impact element 39 , which by means of the drive legs 19 and the lower swing unit 25 forming a four-bar joint on the bearing shells 5 and 11 is hinged, now drives - from the double leg spring 15 powered - in a location closer to the head of an occupant position to intercept the latter early.

There are different possibilities, like the actuator box 31 as locking device internally can be constructed. First, the common features are described.

Within a largely closed housing 41 the actuator box 31 is a magneto unit that can be energized when triggered 43 arranged. The magnet unit 43 is in operative connection with a first lever 45 , which pivotable about a first axis A in the housing 41 is stored. The first lever 45 is in operative connection with a second lever 47 , the pivotable about a second axis B parallel to the first axis A in the housing 41 is stored. The second lever 47 is in operative connection with a latch 49 , which pivotable about a third axis C parallel to the first axis A in the housing 41 is stored. At the latch 49 is the above hook mouth 33 formed, which from outside the housing 41 is accessible and / or with the surrounding area of the pawl 49 partly from the case 41 protrudes. Otherwise are of the functional parts of the actuator box 31 in the present case only the electrical contacts for the magnet unit 43 from outside the case 41 accessible, but also - as in the below 10 and 11 variants are conceivable in which the housing 41 covers only the movable functional parts in the manner described and at least one immovable functional part, such as the magnet unit 43 , also from outside the case 41 is accessible. The hook mouth 33 takes in the initial state, the transverse leg 21 the double leg spring 15 and keeps it locked.

The double leg spring 15 engages with a certain spring force F on the latch 49 on, and said movable functional parts of the Aktuatorbox 31 form a gear which builds up a correspondingly large counterforce or from a holding force of the magnet unit 43 translated. To optimize the geometry of the latch 49 is the part of the hook mouth 33 , which serves as a contact surface for the transverse leg 21 is, arcuately curved about a third axis C offset center of curvature M, as in 2 and 8A indicated, so that the spring force F over the entire tolerance range of the possible positions of the transverse leg 21 in the hook mouth 33 with the same effective lever arm on the latch 49 attacks, ie the system is largely insensitive to such tolerances.

In a three-pawl system as a transmission ( 4 . 5A . 5B ) is between the latch 49 and the second lever 47 a swivel provided without holding action, while the first lever 45 the second lever 47 holds. In a non-self-locking variant ( 4 ) is the magnet unit 43 designed as a magnet, ie it consists of a permanent magnet 43a , a compensation electromagnet 43b and an adhesive plate 43c , By means of - through the permanent magnet 43a defined - magnetic holding force on the adhesive plate 43c Holds the magnet unit 43 the at the adhesive plate 43c attacking first lever 45 firmly, in turn, the second lever 47 holds, ultimately causing the latch 49 is held. When energizing the compensation electromagnet 43b is set up with a magnetic opposing field, a counterforce which the holding force of the magnet unit 43 picks up, causing the lever 45 and 47 and the latch 49 be released. This variant will be described in more detail later.

In a self-locking variant ( 5A and 5B ) holds the first lever 45 the second lever 47 by means of a positive connection, whereby the pawl 49 will hold. In the sub-variant with a trained as a magnet magnet unit 43 ( 5A ) holds the magnet unit 43 the first lever 45 firmly. It engages the first lever 45 an unlocking spring 51 for opening the positive connection whose force is smaller than the magnetic holding force of the magnet unit 43 but stronger than the total force of the magnet unit 43 with energized compensation electromagnet 43b is. In the sub-variant with a designed as a solenoid or tension magnet unit 43 ( 5B ), which does not apply any holding power without being energized, only the positive locking holds the first lever 45 ,

In a toggle system as a transmission ( 6A and 6B ) gets through the first lever 45 and the second lever 47 defines a toggle lever, wherein the first axis A stationary in the housing 41 and the second axis B is movable, for example by means of a roller 53 , Between the two levers 45 and 47 is a joint provided. The handle 49 relies on the role 53 fixed to the housing. Through the use of the toggle lever, the force required to activate remains almost independent of the spring force F. Preferably, the geometry of the pawl 49 further optimized ( 8A and 8B ), placing in the area of the blocking area 49a and the holding surface 49b the handle 49 by a suitable trajectory (in the simplest case a radius) for the role 53 is designed so that the toggle lever system is largely insensitive to production-related geometric tolerances. Through this optimization of the geometry of the pawl 49 Always a force acts horizontally to the knee lever, which provides the toggle free of play and can be used to extend the toggle something. By suitable geometries or bending radii transverse to the release direction of the lever 45 and 47 For example, Zylindersegment-, U- or T-profiles, the insensitivity to buckling is increased.

In the variant with a magnet designed as a magnet magnet unit 43 ( 6A ) holds the mag neteinheit 43 the knee lever bent against a stop 55 , To stretch the knee lever engages the joint between the two levers 45 and 47 the unlocking spring 51 whose force is smaller than the magnetic holding force of the magnet unit 43 but stronger than the total force of the magnet unit 43 at be energized compensation electromagnet 43b is. In the variant with a solenoid designed as a solenoid or tension magnet unit 43 ( 6B ), which does not apply any holding force without being energized, is the force of the unlocking spring 51 so big that they bent the toggle against the stop 55 holds, but smaller than the force exerted by the energized solenoid or pull magnet force. When triggered in both variants by moving the toggle lever the role 53 shifted, causing the latch 49 can open. From the variant with solenoid or pull magnet, a variant can be further developed in which the lever 45 and 47 consist of a bimetal or memory form metal. Such a toggle itself acts as an actuator, which is brought by supply of mechanical, thermal, electrical or magnetic energy in another form, ie from a locked position into an unlocking position.

The magnet unit 43 can in a variant with field compensation ( 7A ), in which the compensation electromagnet is realized 43b spatially around the permanent magnet 43a is arranged around and can build up an opposing field, or in a variant with force compensation ( 7B ), in which the compensation electromagnet 43b spatially separated from the permanent magnet 43a is arranged, for example, next to it, and can build up a counterforce. In both variants, it is based on the interplay of the unlocking spring 51 and the spring force F returning unlocking force smaller than the magnetic holding force on the adhesive plate 43c , but greater than the total force when the compensation electromagnet is energized 43b , However, in the second variant, the formation of the total force, for example, by a lever whose arm lengths as a further degree of freedom a force vote within the magnet unit 43 allow, on this hand, for example, the adhesive plate on the one hand 43c for the permanent magnet 43a and on the other hand, an armature for the compensation electromagnet 43b can be mounted in diving coil design or another adhesive plate.

The above-mentioned three-pawl system in non-self-locking variant with magnet ( 4 ) is described below with reference to a concrete example ( 2 and ( 3 ) explained. The magnet unit 43 has an axially displaceable adhesive plate holder 61 made of plastic, in which the adhesive plate 43c is trapped. Normally, if the actuator box 31 in a holding state, the double leg spring 15 Locked, the adhesive plate becomes 47c from the permanent magnet 43a attracted and in contact with a yoke 63 held. To the adhesive plate 43c is a holding plate 65 molded, which is the two-armed first lever 45 with a holding arm 45a engages behind. With a locking arm 45b is the first lever 45 on the second lever 47 on a finger 47a and locks the second lever 47 , ie prevents a pivoting movement of the second lever 47 , The second lever 47 lies with a nose 47b on a blocking surface 49a the latch 49 on and locks them, ie prevents pivotal movement of the pawl 49 ,

In the event of a crash, the compensation electromagnet 43b energized, so that the total force of the magnet unit 43 decreases, the adhesive plate becomes 43c Approved. Now the spring force F can be the pawl 49 swing up (clockwise in the drawing), causing the double leg spring 15 is released. The handle 49 impinges on the nose 47b , bringing the second lever 47 swings open (in the drawing counterclockwise), until finally with the holding surface 49b in contact with the nose 47b arrives. The second lever 47 is preferably biased slightly opposite to the pivoting direction when opening (ie in the present case clockwise), so that it by applying the holding surface 49b the handle 49 keep open. The hook mouth 33 is open. With the swinging up of the second lever 47 becomes the first lever 45 Approved. This can be the first lever 45 Swing up (clockwise in the drawing), holding the retaining plate 65 raising. The adhesive plate holder 61 shifts therefore relative to the yoke 63 up. The adhesive plate 43c thus remains from the permanent magnet 43a spaced even when the compensation electromagnet 43b is no longer energized. The actuator box 31 remains in the triggered (unlocked) state. If an unlocking spring 51 into the magnet unit 43 integrated, this can be done by moving the adhesive plate holder 61 support.

The headrest 1 can be reset after the crash. This is according to 9 is an extra reset latch 69 provided, which parallel to the axes A, B and C pivotally mounted in the housing 41 is stored. The two-armed reset latch 69 provides a direct, partially parallel to the described gear acting and less translated operative connection between the pawl 49 and the adhesive plate 43c available, which significantly reduces the force to be applied for the reset.

Will the transverse leg 21 the double leg spring 15 in the open hook mouth 33 the latch 49 Introduced, the pawl rotates 49 (counterclockwise in the drawing). The pawl acts on it 49 by means of an integrally formed reset finger 49c the reset latch 69 , which pivots and directly on the holding plate 65 and thus on the adhesive plate 43c acting, which the permanent magnet 43a is fed so that the permanent magnet 43a again the adhesive plate 43c can attract and hold on. The second lever 47 falls (due to its small bias) with his nose 47b behind the latch 49 and act on these again at the Sperrfläche 49a , At the same time, the second lever pivots 47 the first lever 45 to his starting position. The actuator box 31 is again in the hold state.

In a modified embodiment of the Aktuatorbox 31 according to the 10 and 11 is the case 41 formed in the above-mentioned variant, wherein the housing 41 the movable functional parts (ie the gearbox of levers and / or pawls) except for the one on the pawl 49 trained hook mouth 33 which from outside the case 41 is accessible and / or with the surrounding area of the pawl 49 partly from the case 41 protrudes, covering and at least one immovable functional part, in this case the magnet unit arranged at the top in the drawing 43 , also from outside the case 41 is accessible. This variant of the housing 41 is particularly suitable if soiling aspects in the actuator box 31 play no role and the storage and protection from damage to the movable functional parts are in the foreground.

This includes the housing 41 two bearing plates 41a parallel to the pivoting plane of the pawl 49 are arranged, and a storage block 41b that is between the bearing plates 41a at this fitting in the pivoting plane of the latch 49 is arranged. The bearing plates 41a and the storage block 41b have continuous connection openings 71 on, in the present three, through which screws, rivets or other connecting means are inserted and provide by suitable counter-elements or deformation for axial cohesion. Alternatively, one of the two bearing plates 41a in one piece with the bearing block 41b be educated.

The movable functional parts are with play between the bearing plates 41a arranged, ie the bearing block 41b has a slightly larger material thickness than the movable functional parts, which each have approximately the same material thickness. As in all previously described embodiments, the pawl 49 pivotable about the third axis C, which by one in both bearing plates 41a stored bolt is defined, and the hook mouth 33 takes in the initial state, the transverse leg 21 the double leg spring 15 and keeps it locked. The geometry of the latch 49 is optimized in the manner described above.

The transmission is a toggle system, as in the 6A . 6B . 8a and 8B is described and to which reference is expressly made, and in which the first lever 45 and the second lever 47 define a knee lever. The first lever 45 is loose in a funnel-shaped first bearing receptacle 73 of the storage block 41b stored. The first lever 45 has an elongated shape and is located on the second lever 47 opposite end of the first lever 45 at the warehouse block 41b at, wherein the contact point defines the - possibly movable - first axis A.

The second lever 47 has a V-shape, with the fork to the end facing him the first lever 45 receives. The contact point defines the movable second axis B. From the second lever 47 is laterally, ie, parallel to the third axis C, on both sides in each case a bearing pin 75 off, each in a slot 77 the two bearing plates 41a towards the latch 49 to (and away from) is guided. The second lever 47 lies on the to the magnet unit 43 facing side (in the drawing above) at the stop 55 which is present as a pin parallel to the axis C between the two bearing plates 41a is trained. In a second camp recording 79 of the storage block 41b , which are transverse to the first bearing opening 73 opens (in the drawing upwards), is the unlocking spring 51 arranged. The unlocking spring 51 acts on the second lever 47 on the from the magnet unit 43 opposite side (in the drawing below).

That from the first lever 45 opposite end of the second lever 47 is convex and forms the nose 47b with which the second lever 47 - In the hold state of Aktuatorbox 31 - the handle 49 on its blocking surface 49a applied. The toggle takes almost an extended position. The holding surface 49b the latch 49 at which the second lever 47 in the tripped state of the actuator box 31 is applied to these for the transverse leg 21 to keep receptive is in the drawing above the blocking area 49a arranged, ie against the opening direction of the hook mouth 33 ,

In the variant with a magnet designed as a magnet magnet unit 43 Holds the magnet unit 43 the toggle against the stop 55 , For angling the toggle lever, the unlocking spring engages 51 with a tensile force smaller than the magnetic holding force of the magnet unit 43 but stronger than the total force of the magnet unit 43 with energized compensation electromagnet 43b is. In the variant with a magnet designed as a solenoid magnet unit 43 , which does not apply any holding force without being energized, is the pressure force of the unlocking spring 51 so big that they put the toggle against the stop 55 holds, but smaller than the force exerted by the energized solenoid. When triggered will in both variants the second lever 47 from the magnet unit 43 away on the unlocking spring 51 to move, where it superimposed on this pivotal movement a shift along the slots 77 from the latch 49 executes away. The first lever 45 follows the movement of the second lever 47 and pivots in the first bearing seat 73 to the unlocking spring 51 down, in the drawing down. By the movement of the second lever 47 can the latch 49 open, ie pivot about the third axis C. The nose 47b gets to the holding surface 49b which is located radially farther from the third axis C. The toggle is held at an angle until the hook mouth 33 again the transverse leg 21 receives.

1

headrest

3

Headrest bracket

5

rear bearing shell

11

front bearing shell

15

Double leg spring

17

support legs

19

drive leg

21

transverse leg

25

lower swing unit

27

Link journals

31

actuator box

33

hook mouth

35

shaft

39

baffle

41

casing

41a

bearing plate

41b

bearing block

43

magnet unit

43a

permanent magnet

43b

Compensation electromagnet

43c

adhesive plate

45

first lever

45a

holding arm

45b

locking arm

47

second lever

47a

finger

47b

nose

49

pawl

49a

blocking surface

49b

holding surface

49c

Reset finger

51

unlocking

53

role

55

attack

61

Adhesive plate holder

63

yoke

65

Retaining plate

69

Reset latch

71

connecting opening

73

first bearing seat

75

pivot

77

Long hole

79

second bearing seat

A

first axis

B

second axis

C

third axis

F

spring force

M

Center of curvature

Claims (17)

Locking device for a vehicle seat, a) in particular in a crash-active headrest ( 1 ) for a vehicle seat comprising a support ( 5 . 11 ) and an impact element ( 39 ), which by means of a four-bar linkage ( 19 . 25 ) on the carrier ( 5 . 11 ) and in the event of a crash or other triggering event - by a spring ( 15 ) - is extendable in a position closer to the head of an occupant, b) with a magnet unit ( 43 ) and a transmission of levers ( 45 . 47 ) and / or pawls ( 49 ) to the spring ( 15 ) and / or one of the spring ( 15 ) under normal circumstances to hold and release in the event of a crash or other triggering event, characterized in that an actuator box ( 31 ) is designed as a verifiable unit, which the magnet unit ( 43 ) and the gearbox from the levers ( 45 . 47 ) and / or pawls ( 49 ) and that a reset pawl ( 69 ) is provided, which at least partially parallel to the transmission of levers ( 45 . 47 ) and / or pawls ( 49 ) works with less translation. Locking device according to claim 1, characterized in that at least the transmission from the levers ( 45 . 47 ) and / or pawls ( 49 . 69 ) within a largely closed housing ( 41 ) of the actuator box ( 31 ) are arranged. Locking device according to claim 2, characterized in that a first lever ( 45 ) in operative connection with the magnet unit ( 43 ) and pivotable about a first axis (A) in the housing ( 41 ) is stored. Locking device according to claim 3, characterized in that the first lever ( 45 ) in operative connection with a second lever ( 47 ), which is pivotable about a second axis (B) parallel to the first axis (A) in the housing ( 41 ) is stored. Locking device according to claim 4, characterized in that the second lever ( 47 ) in operative connection with a pawl ( 49 ), which is pivotable about a third axis (C) parallel to the first axis (A) in the housing ( 41 ) is stored. Locking device according to claim 5, characterized in that the reset pawl ( 69 ) parallel to the axes (A, B, C) pivotable in the housing ( 41 ) is stored. Locking device according to one of the preceding claims, characterized in that the reset pawl ( 69 ) is formed with two arms. Locking device according to one of the preceding claims, characterized in that normally the magnetic unit ( 43 ) at least indirectly a pivotally mounted first lever ( 45 ) locks and / or holds, in turn, a pivotally mounted second lever ( 47 ) locks and / or holds, which finally a pivotally mounted pawl ( 49 ) locks and / or holds, wherein the pawl ( 49 ) the feather ( 15 ) and / or the spring ( 15 ) holds acted upon strap, in particular by means of a hook mouth ( 33 ). Locking device according to claim 8, characterized in that in the event of a crash by pivoting the first lever ( 45 ), the second lever ( 47 ) and the pawl ( 49 ) the feather ( 15 ) is released. Locking device according to claim 9, characterized in that after the crash by inserting the spring ( 15 ) and / or of the spring ( 15 ) acted upon bow in the pawl ( 49 ) and pivoting the pawl ( 49 ), the reset pawl ( 69 ), the second lever ( 47 ) and the first lever ( 45 ), which the magnet unit ( 43 ) again locks and / or holds, a reset of the headrest ( 1 ) he follows. Locking device according to one of claims 4 to 10, characterized in that the second lever ( 47 ) the handle ( 49 ) normally at a blocking surface ( 49a ) the pawl ( 49 ) in order to lock and / or hold them, and after the crash at one of the blocking surface ( 49a ) adjacent holding surface ( 49b ) the pawl ( 49 ) is applied to the pawl ( 49 ) to keep it open. Locking device according to one of the preceding claims, characterized in that the magnet unit ( 43 ) a permanent magnet ( 43a ), an adhesive plate ( 43c ) to which the permanent magnet ( 43a ) exerts a magnetic holding force, and a compensation electromagnet ( 43b ), which builds up a magnetic opposing field and / or a counterforce in the event of a crash in the event of a crash, so that the total force on the adhesive plate ( 43c ) is reduced and / or the holding power is canceled. Locking device according to one of the preceding claims, characterized in that at least two of the levers ( 45 . 47 ) of the transmission self-locking, in particular by means of a positive connection, or non-self-locking cooperate. Locking device according to one of the preceding claims, characterized in that two of the levers ( 45 . 47 ) of the transmission together form a knee lever. Locking device according to one of the preceding claims, characterized in that the levers ( 45 . 47 ) and / or pawls ( 49 ) have optimized geometries for increasing the insensitivity to tolerances. Locking device according to claim 15, characterized in that the pawl ( 49 ) a circular arc around a center of curvature (M) curved contact surface for the spring ( 15 ) and / or for the spring ( 15 ) loaded in a hook mouth ( 33 ) the pawl ( 49 ) having. Locking device according to claim 15 or 16, characterized in that on the pawl ( 49 ) radiused locking surfaces ( 49a ) and / or holding surfaces ( 49b ) for a lever ( 47 ) and / or a role ( 53 ) of a lever ( 47 ) are provided.