EP2855197A1 - Locking unit for a vehicle seat - Google Patents

Abstract

The invention relates to a locking unit (10) for a vehicle seat (1), comprising a pivotally mounted rotary latch (20) for locking to a bolt (12), said rotary latch (20) comprising a rotary latch hole (24) for pivotably mounting on a bearing pin (51) which protrudes through the rotary latch hole (24), and a detent (30) which secures the locking unit (10) in the locked state in the event of a crash, in which the rotary latch (20) supports itself on a first contact point against the detent (30). Said rotary latch (20) comprises at least one recess area (25) which enables said rotary latch (20) to deform in the event of a crash, said recess area (25) being arranged at a distance from the rotary latch hole (24) in the radial direction.

Description

 LOCKING UNIT FOR A VEHICLE SEAT

The invention relates to a locking unit for a vehicle seat having the features of the preamble of claim 1. The invention also relates to a vehicle seat with the features of claim 10. State of the art

From DE 10 2008 051 832 A1 a generic locking unit for a vehicle seat is known. Such a locking unit comprises a pivotally mounted rotary latch for locking with a bolt. A pawl pivotally mounted about another pivot axis secures the catch in the locked state. A clamping element called a tolerance compensating pawl exerts a closing moment on the catch and thus eliminates any play between the catch and the bolt. From DE 20 201 1 100 040 U1 also a locking unit for a vehicle seat is known. The rotary latch of this locking unit has a deviating from the circular shape, approximately slot-shaped recess, by means of which it is pivotally mounted on a bush or a bearing pin. The latch and the clamping element are pivotable about the same axis and axially offset side by side on a bearing pin and cooperate with the catch together. In the event of a crash initially only the latch secures the catch by the catch is supported at a contact point on the latch. The crash load, which transmits the bolt in the event of a crash on the catch, is thereby absorbed by the contact point of the catch with the latch.

At high crash load, the rotary latch shifts relative to the bearing pin along the approximately slot-shaped recess until it comes to rest on the housing of the locking unit. This creates a second contact point, which can also accommodate the crash load.

task

The invention is based on the object to improve a locking unit of the type mentioned above, in particular to provide an alternative way to increase the load-carrying capacity in the event of a crash to increase the crash safety of a vehicle seat.

solution

This object is achieved by a locking unit for a vehicle seat with the features mentioned in claim 1. Advantageous embodiments, which can be used individually or in combination with each other, are the subject of the dependent claims.

A generic locking unit for a vehicle seat comprises a pivotally mounted rotary latch for locking with a bolt, wherein the rotary latch has a rotary latch hole for pivotable mounting on a rotary bolt hole projecting through the bearing bolt, and a detent pawl which ensures a locked state of the locking unit in the event of a crash by the catch is supported at a contact point on the latch. According to the invention, it is provided that the rotary latch of the locking unit has at least one recess area, which allows a deformation of the rotary latch in the event of a crash, wherein the recess area is spaced from the rotary latch hole in the radial direction. The recess region is thus formed separately from the rotary latch hole and separated therefrom, for example by a web.

Characterized in that the rotary latch has a recess area, which allows deformation in the event of a crash, and which is spaced from the rotary latch hole in the radial direction, the rotary latch can move in the event of a crash until it comes to rest on the housing of the locking unit, whereby a second contact point is created, which can also accommodate the crash load. Due to the deformation in the event of a crash, the rotary latch advantageously carries out such a displacement, that is to say a translatory movement and / or a tilting movement in order to reach the housing.

According to an advantageous embodiment of the recess area is designed as a continuous opening in the axial direction. Such a shaped recess area is relatively easy to produce, for example by means of punching.

According to an alternative embodiment, the recess area is designed as a notch.

Advantageously, the rotary latch on a hook mouth for receiving the bolt. It is particularly advantageous if the recess region is arranged on the side facing away from the hook mouth of the rotary latch hole. According to an advantageous development of the invention, the rotary latch has at least one relief region which is provided on the side of the rotary latch hole opposite the recess region. The relief area supports the deformation of the rotary latch.

When a clamping element in the locked state exerts a closing moment on the rotary latch, this eliminates a clearance existing between the rotary latch and the bolt. According to an advantageous embodiment of the invention, the rotary latch and the latch are arranged within an at least partially closed housing.

Preferably, the recess portion extends approximately semicircular around the rotary latch hole around.

The object is also achieved by a vehicle seat having the features mentioned in claim 10, which comprises at least one locking unit according to one of the preceding claims.

Figures and embodiments of the invention

In the following the invention with reference to an advantageous embodiment shown in the drawings is explained in more detail. However, the invention is not limited to this embodiment. Show it:

1 shows an exploded view of a locking unit,

2 shows a schematic representation of a vehicle seat,

3 is a plan view of parts of the locking unit according to a first

Exemplary embodiment in the locked state, 4 shows a plan view of parts of the locking unit according to the first embodiment in the event of a crash, and FIG. 5 shows a plan view of parts of the locking unit according to FIG

 second embodiment in the locked state.

In a motor vehicle, a locking unit 10 for connecting a backrest 3 of a vehicle seat 1, in particular a rear seat, is provided on a vehicle structure. The backrest 3 is mounted from a use position in a non-use position pivotally mounted on a seat part 5.

However, the locking unit 10 can also be used at other locations, for example for fastening the seat part 5 of the vehicle seat 1 to the floor structure of the motor vehicle or in a door lock.

The arrangement of the vehicle seat 1 within the vehicle and its usual direction of travel define the directional information used below. In this case, a direction oriented perpendicular to the ground is referred to below as the vertical direction and a direction perpendicular to the vertical direction and perpendicular to the direction of travel is referred to below as the transverse direction. The locking unit 10 has a lock housing, which comprises a first side plate 16 and a second side plate 18. The base surfaces of the side plates 16, 18 are presently flat and arranged in a plane defined by the direction of travel and the vertical direction, ie perpendicular to the transverse direction. Each of the side plates 16, 18 comprises two presently circular bearing bores 13. The first side plate 16 and the second side plate 18 form a receptacle which opens in the direction of a bolt 12 to receive it for locking. In this case, the locking unit 10 is attached to the backrest 3 and the bolt 12 to the vehicle structure. It is also conceivable that the locking unit 10 is attached to the vehicle structure and the bolt 12 to the backrest 3. The portion of the bolt 12 to be received by the receptacle generally runs horizontally in the transverse direction. A rotary latch 20 is pivotally mounted on a first bearing pin 51, which in turn is attached to the first side plate 16 and to the second side plate 18. The rotary latch 20 has for this purpose a rotary latch hole 24, which is penetrated by the first bearing pin 51. The rotary latch 20 also has a hook mouth 21 for cooperation with the bolt 12. By means of a first spring 71, the rotary latch 20 is biased in the opening direction.

The rotary latch 20 has a functional surface 22 which limits the hook mouth 21 partially laterally. In the locked state, the functional surface 22 approximately in the direction of a second bearing pin 52, which is arranged parallel to the first bearing pin 51 and thus also extends in the transverse direction. The functional surface 22 is presently planar, but may for example also be arcuately curved and concave.

On the side facing away from the rotary latch hole 24 of the hook mouth 21, the functional surface 22 opposite, the hook mouth 21 is laterally bounded by a nose 28 of the rotary latch 20.

The rotary latch 20 has a base body, which is delimited in the axial direction by a respective flat base. The width of the functional surface 22 corresponds to the thickness of the base body of the rotary latch 20, ie the expansion of the base body in the axial direction. The first bearing pin 51 is inserted into a respective bearing bore 13 of the side plates 16, 18 and is perpendicular from the base surfaces of the side plates 16, 18. The first bearing pin 51 thus extends horizontally in the transverse direction. In the present case, the preferably metallic first bearing pin 51 is riveted or caulked to the side plates 16, 18. The first bearing pin 51 is preferably in the form of a hollow cylinder, to receive a fastening means, for example a screw, by means of which the locking unit 10 is fastened to the backrest 3 during assembly. Also, the second bearing pin 52 is inserted into a respective bearing bore 13 of the side plates 16, 18 and is perpendicular from the base surfaces of the side plates 16, 18. The second bearing pin 52 thus also extends horizontally in the transverse direction. In the present case, the preferably metallic second bearing pin 52 is riveted or caulked to the side plates 16, 18. The second bearing pin 52 is, as well as the first bearing pin 51, preferably in the form of a hollow cylinder to receive a fastening means, such as a screw, by means of which the locking unit 10 is fixed during assembly to the backrest 3. On the second bearing pin 52, a clamping element 40 is pivotally mounted. For this purpose, the clamping element 40 a present circular clamping element hole 44, which is penetrated by the second bearing pin 52. By means of a third spring 73, the clamping element 40 is biased toward the rotary latch 20. In the locked state, when the hook mouth 21 of the rotary latch 20 receives the bolt 12, the clamping element 40 exerts a closing moment on the rotary latch 20 due to the prestressing by the third spring 73 as a securing element. For this purpose, the clamping element 40 has an eccentrically curved to the second bearing pin 52 clamping surface 41, which is in non-self-locking contact with the functional surface 22 of the rotary latch 20. The clamping surface 41 is present circular arc-shaped and convex. A latch 30 is disposed on the second bearing pin 52 axially adjacent to the clamping element 40 and also pivotally mounted on the second bearing pin 52, so aligned with the clamping element 40. For this purpose, the latching pawl 30 a presently circular detent pawl hole 34 which is penetrated by the second bearing pin 52. By means of a second spring 72, the latch 30 is biased toward the rotary latch 20.

In the present case, the latching pawl 30 is arranged adjacent to the first side plate 16, and the tensioning element 40 is arranged adjacent to the second side plate 18 in the present case. The latching pawl 30 and the clamping element 40 are coupled with a free travel on entrainment, for example by means of a slot-pin guide or by means of an axially projecting driver.

The latching pawl 30 has a latching surface 31, which is located in the vicinity of the clamping surface 41 of the clamping element 40. In the locked state, the latching surface 31 is positioned at a distance from the functional surface 22 of the rotary latch 20. The latching surface 31 is curved in the present circular arc and convex, but may also be flat. The width of the functional surface 22, which corresponds to the thickness of the main body of the rotary latch 20, also approximately corresponds to the sum of the thickness of the latch 30 and the thickness of the clamping element 40. The rotary latch 20 thus has approximately the same material thickness as the latch 30 and the Clamping element 25 together.

According to a first embodiment, the rotary latch 20 on the side facing away from the hook mouth 21 of the rotary latch hole 24 has a recess portion 25. In the present case, the recess area 25 is designed as a continuous opening in the axial direction and extends approximately semicircular around the rotary latch hole 24. The recess region 25 thus penetrates the main body of the rotary latch 20 completely in the axial direction, parallel to the rotary latch hole 24, which is designed here as a circular bore.

The recess area 25 is arranged at a distance from the rotary latch hole 24 in the radial direction. The recess portion 25 is therefore formed separately from the rotary latch hole 24 and separated from this present by a web. The recess area 25 thus has no connection to the rotary latch hole 24. However, the recess area 25 can also be designed differently. For example, the recess portion 25 may be formed as a notch, which extends from the surface of the main body of the rotary latch 20 into the main body, but not through. Also, the semicircular recess portion 25 may be interrupted by one or more webs. Further, the recess portion 25 may have a different shape from the semicircular shape, for example, a rectangular, circular or oval shape. Likewise, a plurality of rectangular, circular, oval or differently shaped recess regions 25 can be provided next to one another and / or separated from one another by webs.

On the side opposite the recess area 25 of the rotary latch hole 24 two relief areas 27 are provided in the present case. The relief regions 27 are thus arranged approximately between the rotary latch hole 24 and the hook mouth 21 of the rotary latch 20. In the present case, the relief regions 27 are circular-segment-shaped and separated from one another by a web extending in the radial direction. In the present case, the relief regions 27 are likewise designed as a continuous opening in the axial direction and penetrate the main body of the rotary latch 20 completely in the axial direction, parallel to the rotary latch hole 24.

The relief regions 27 may also be designed differently from the shape shown here, for example as a notch or with another shape, similar to the recess area. It is also conceivable that only one relief area 27 is provided or that this is completely eliminated.

According to a second embodiment, which is shown in Fig. 5, no discharge area is present.

In Fig. 3, the positions of the rotary latch 20 and the latch 30 of the locking unit 10 according to the first embodiment are shown in the locked state.

The bolt 12 rests in the hook mouth 21 on the nose 28 of the rotary latch 20. In the event of a crash, the rotary latch 20 experiences an opening moment through the bolt 12 and pushes the tensioning element 40, not shown here, away. As a result, the latching surface 31 of the latching pawl 30 first comes into contact with the functional surface 22 of the rotary latch 20. Thus, the latching pawl 30 serves to support the rotary latch 20 and prevents a further rotation of the rotary latch 20 in the opening direction as a securing element. Thus, the latch 30 prevents opening of the rotary latch 20th

If, due to the crash, further loading of the bolt 12 on the nose 28 of the rotary latch 20 occurs, then the rotary latch 20 experiences a translational movement approximately in the direction of loading. The bearing pin 51, not shown in FIG. 3, presses on the side facing away from the hook mouth 21 against the wall of the rotary latch hole 24. The recess area 25 of the rotary latch 20 is compressed and a deformation of the rotary latch 20 takes place. The rotary latch 20 moves into the wall mentioned load direction.

The movement of the rotary latch 20 in the loading direction ends when the rotary latch 20 comes into contact with one of the housing parts 16, 18 or when the rotary latch has set a distance corresponding to the radial extent of the recess portion 25 back. This position is shown in Fig. 4. During the movement of the rotary latch 20 described here, the relief areas 27 also support the deformation of the rotary latch 20. In this case, the relief areas 27 are expanded, whereby their radial extent is increased. The material of the rotary latch 20 in the region between the discharge areas 27 and the rotary latch hole 24 can also tear off, as well as the bridge between the discharge areas 27th

In all embodiments described here, the first bearing pin 51, as shown in Fig. 1, surrounded by a first sliding bushing 61. The first slide bushing 61 is also designed in the form of a hollow cylinder. The first sliding bush 61 is thus located in the radial direction between the first bearing pin 51 and the rotary latch 20th

The second bearing pin 52 is, as shown in Fig. 1, surrounded by a second sliding bush 62. Also, the second sliding bush 62 is formed in the form of a hollow cylinder. The second sliding bushing 62 is thus located in the radial direction between the first bearing pin 51 and the latching pawl 30 and the clamping element 40. The first sliding bush 61 and the second sliding bushing 62 may also be omitted or integrally formed with the first bearing pin 51 and the second bearing pin 52 ,

In the locked state of the locking unit 10, the bolt 12 is in the receptacle formed by the side plates 16, 18 and the hook mouth 21 of the closed rotary latch 20. The clamping element 40 secures by interaction of the clamping surface 41 with the cam 26, the catch 20. Die Rastfläche 31 the latch 30 is slightly spaced from the functional surface 22 of the rotary latch 20.

To open the locking unit 10, the latch 30 is pivoted away from the rotary latch 20, whereby the latching surface 31 of the latch 30 further from the functional surface 22 of the rotary latch 20 is removed. The latch 30 takes the clamping element 40 due to the driving coupling, so that the rotary latch 20 is no longer secured. Due to the bias due to the first spring 71, the rotary latch 20 opens, so pivots in the opening direction. Alternatively or in addition to the bias by the first spring 71, the rotary latch 20 can be taken to open also by the latching pawl 30 or by the clamping element 40. Due to the pivotal movement of the rotary latch 20, the hook mouth 21 retracts from the receptacle formed by the side plates 16, 18 and releases the bolt 12, which moves away from the locking unit 10 counter to the pivoting direction. If the bolt 12 has left the hook mouth 12, then the locking unit 10 is in the unlocked state.

Arrives in this unlocked state, the bolt 12 back into the receptacle formed by the side plates 16, 18 and into contact with the edge of the hook mouth 21, the pin 12 presses the catch 20 in its closed position. The clamping element 40 moves due to its bias by the third spring 73 along the cam 26. Taken by the clamping element 40 or due to the bias of the second spring 72, the pawl 30 pivots on the rotary latch 20, wherein the locking surface 31 of the functional surface 22nd the catch 20 approaches. Thereafter, the locking unit 10 is again in the locked state.

The features disclosed in the foregoing description, the claims and the drawings may be of importance both individually and in combination for the realization of the invention in its various forms. LIST OF REFERENCE NUMBERS

vehicle seat

backrest

seat part

locking unit

bolt

bearing bore

first side plate

second side plate

catch

hook mouth

functional surface

Rotary latch hole

recess portion

relief region

nose

latch

Rest area

Latch hole

clamping element

clamping surface

Tensioner hole

first bearing pin

second bearing pin

first sliding bush

second sliding bush

first spring

second spring

third spring

Claims

Patent claims

Locking unit (10) for a vehicle seat (1),

comprising a pivotally mounted rotary latch (20) for locking with a bolt (12),

wherein the rotary latch (20) has a rotary latch hole (24) for pivotable mounting on a bearing bolt (51) projecting through the rotary latch hole (24), as well as a locking pawl (30), which ensures a locked state of the locking unit (10) in the event of a crash Rotary latch (20) is supported at a contact point on the locking pawl (30),

characterized in that

the rotary latch (20) has at least one recess area (25), which enables deformation of the rotary latch (20) in the event of a crash, the recess area (25) being arranged at a distance from the rotary latch hole (24) in the radial direction.

Locking unit (10) according to claim 1, characterized in that the rotary latch (20) carries out a translational movement and/or a tilting movement due to the deformation in the event of a crash.

Locking unit (10) according to one of the preceding claims, characterized in that the recess area (25) is designed as a continuous opening in the axial direction.

Locking unit (10) according to one of claims 1 to 2, characterized in that the recess area (25) is designed as a notch.

5. Sealing unit (10) according to one of the preceding claims, characterized in that the rotary latch (20) has a hook mouth (21) for receiving the bolt (12).

6. Locking unit (10) according to claim 5, characterized in that the recess area (25) is arranged on the side of the rotary latch hole (24) facing away from the hook mouth (21).

7. Locking unit (10) according to claim 6, characterized in that at least one relief area (27) is provided on the side of the rotary latch hole (24) opposite the recess area (25).

8. Locking unit (10) according to one of the preceding claims, characterized in that a clamping element (40) in the locked state exerts a closing moment on the rotary latch (20).

9. Locking unit (10) according to one of the preceding claims, characterized in that the rotary latch (20) and the latching pawl (30) are arranged within an at least partially closed housing.

10. Locking unit (10) according to one of the preceding claims, characterized in that the recess area (25) runs approximately semicircularly around the rotary latch hole (24).

1 1 . Vehicle seat (1), comprising at least one locking unit (10) according to one of the preceding claims.