WO2016124398A1 - Door handle assembly - Google Patents

Abstract

The invention relates to a door handle assembly (1) for a vehicle door of a vehicle for, in particular, operation of the vehicle door from the inside, said assembly comprising a locking lever (2) that is mounted on a base such that the locking lever can pivot about a pivot axis (s), which locking lever can be connected to an associated door lock by means of a first Bowden cable (31) so as to transmit force, in order to lock and unlock said door lock, wherein the locking lever (2) is pivotally mounted about a pivot axis (s) to pivot from a neutral position to a locking position in order to lock the door lock, and to pivot from a locking position to a neutral position in order to unlock the door lock. In order to ensure a defined neutral position, an automatic retrieval device (6) is provided for retrieving the locking lever (2) from the locking position and/or from the unlocking position into the neutral position in each case.

Description

 The door handle assembly

description

The invention relates to a door handle assembly for a vehicle door of a vehicle for in particular the inside operation of the vehicle door according to the preamble of claim 1.

A problem with such door handle assemblies is that the locking lever on the way to the neutral position follows the movement of a locking lever on which the first Bowden cable engages the door lock side. As a result, the neutral position depends on the movement of the locking lever, which, for example due to unfavorable tolerances of the components and / or deviations in the movement interaction of the components, can lead to large deviations with respect to the prescribed neutral position.

No. 6,988,752 B2 describes a generic door handle arrangement for a vehicle door with the locking lever, which can be pivoted from the neutral position into the unlocking or locking position.

From EP 1 722 047 B1, a door handle assembly for a vehicle door with the locking lever is known, which also serves as a backup of an opening lever provided for opening the door lock.

In US 2013/0 088 022 A1 a limited by a stop locking movement of the locking lever is provided.

EP 0 959 204 B1 discloses a door handle assembly for a vehicle door of a vehicle with the locking lever, the opening lever for opening the door lock and a leg spring, wherein the leg spring presses the opening lever in the direction of its intended closed position. From US 2005 0067 844 A1 it is known to bias a locking lever by means of a spring in the locking position in a door handle assembly.

In US 2014 0217756 A1 a locking lever is disclosed which cooperates with a rubber stop to limit the movement of the locking lever both in the direction of the locking position and in the direction of the unlocking position.

An object of the invention is to provide a generic door handle assembly with a defined neutral position of the locking lever.

The stated object is achieved by the features of claim 1. Advantageous developments are described in the subclaims. The stated object is already achieved by providing an automatic retrieving device for automatically retrieving the locking lever from the locking position and / or from the unlocking position into the neutral position.

By means of the automatic retrieval device, the lever can be automatically brought back into a defined neutral position from the locked position or from the unlocked position. Automatic here means that the retrieval device is designed to bring the locking lever back to the neutral position without further external action by, for example, manual assistance. When the lock lever is released in a position out of the neutral position, the lock lever is automatically pivoted to the neutral position. The entire pivoting movement of the locking lever can usually be constructed such that the locking lever can be pivoted out of the pivoting movement in the central neutral position, for example, into the locking position, out of this back into the neutral position and over the same into the unlocking position. From the latter, a backward pivoting into the central neutral position can take place again. The door handle assembly may have a door inner handle for the inside operation of the door lock. The basis here can serve a handle housing with a conventional recessed grip, on which the locking lever is pivotally mounted. The first Bowden cable of the door handle assembly can usually act with an attack end spaced from the pivot axis force acting on the locking lever. As part of the retrieval device, however, it may be provided that the engagement end is attached via a stop-limited path relatively movable to the locking lever on the same. In this way, deviations can be compensated for here, as opposed to a customary definition of the engagement end on the locking lever via the relative movement of the attack end and locking lever, so that the locking lever can return to its prescribed neutral position by the return device. In the usual determination of the attack end of the locking lever, the locking lever can be prevented by occurring deviations from returning to its proper neutral position. For Kraftmechanisch lighter relative movement, the way in one

 Swing plane extending perpendicular to the pivot axis. The path can be at least equal to an expected maximum total deviation or total tolerance. This may consist of structural deviations, deviations from assembly and / or deviations due to wear.

In particular, the locking lever for attachment of the attack end can have a long hole opening encompassing the way in which the engagement end is mounted displaceably. Here, the slot opening may extend in the circumferential or tangential direction to the pivot axis.

To retrieve the locking lever, the retrieval device can exert a force and / or a moment of force on the lever, which is generated with the pivoting of the locking lever. In the neutral position, the locking lever can be mounted stable in terms of force mechanics. In particular, the return device can have a spring device which is effectively coupled to the pivoting of the locking lever, the pivoting of the locking lever out of the neutral position into the locking position and / or into the unlocking position against a spring force of the spring device. Thus, with the pivoting a spring force can be generated, the acts on the locking lever in the direction of pivotal movement of the locking lever in the unlocking position or in the unlocking position. In this respect, the locking lever can be stored like a rocker. In each case, the spring device can be supported on the load-side on the base and on the force side on the locking lever. This is constructively simple. The locking lever can be compared with a pendulum, which is additionally connected with its free end via the spring device to the base.

In the neutral position of the locking lever, the direction of a spring force of the spring device coupled into the locking lever can intersect the pivot axis. In the neutral position, therefore, the moment of force acting on the pivot axis is equal to zero. With movement of the lever from the neutral position into the locking position or into the unlocking position against the spring force, the moment of force is not equal to zero. If the spring device at several points in each case engages with a single spring force on the locking lever, this can also apply to the total spring force, which results from the sum of the individual spring forces. The moment of force causes a torque in the direction of the neutral position. In terms of force mechanics, the spring force or the total spring force can vertically intersect the pivot axis in the neutral position. The spring force or the total spring force can preferably lie in a pivot plane perpendicular to the pivot axis during the entire pivoting operation of the locking lever.

Structurally simple, the spring device can engage in a first point of force application to the locking lever. The first force application point may be spaced apart from the pivot axis and disposed in the pivot plane perpendicular to the pivot axis. The spring device can engage with at least one spring at the first force application point. Constructively simple, with the pivoting of the locking lever from the neutral position at the first point of force application, a tensile force can be introduced which points away from the pivot axis. The spring may be formed as a tension spring.

In a development of the door handle arrangement, two spaced-apart second force-transmitting elements arranged in the pivoting plane can be attached to the locking lever. handle points are provided for the spring device. With respect to a mirror-symmetry plane contained in the pivot axis, these can be arranged in a force-mechanically advantageous manner opposite one another and at equal distances from one another. If the spring forces acting on these second points of application of force are the same, then in the neutral position with respect to the pivot axis they produce an equal magnitude of force, but opposite directions of force, thereby canceling each other out. Thus, the locking lever can be kept stable in the neutral position force mechanics. If the locking lever is pivoted out of the neutral position, the force moment acting in the direction of the pivoting is amplified, while the other moment of force acting in the direction of pivoting is reduced. Both causes a reinforcement of the moment of force against the pivoting direction into the neutral position.

The second force application points can lie on a common first straight line, which runs perpendicular to the mirror symmetry plane. When the spring device engages the locking lever at a plurality of locations, at least in the neutral position, the first point of force application can also be equal to a point at which the spring device acts on the locking lever with a total summary spring force. The direction of the total spring force can preferably perpendicularly intersect the pivot axis in the neutral position.

The point or the first force application point and the pivot axis can be arranged on a second straight line. Both straight lines can be arranged in the pivoting plane. The two lines can enclose an angle. The angle may have a value of> 0 ° to <90 °, preferably 0 ° or 90 °. In the installed position, the attack end of the first Bowden cable in the neutral position is ideally located on the second straight line, but can also be arranged laterally spaced therefrom thanks to the retrieval device. This acts on the locking lever with its pivoting into the locking position or into the unlocking position into a restoring force in the direction of the first straight line. The restoring force acts perpendicular to a line connecting the pivot axis and the point and the pivot axis intersecting. In a further development of the door handle assembly, the spring device locking lever side attack on two spaced apart second force application points. At each of these can attack a train or pressure generating springs. The two springs can preferably attack the base side at a common third force application point. In a reverse arrangement, they can also be engaged on the base side at a third force application point and on the locking lever side at a common first force application point or in each case at a second force application point. In the neutral position, a third straight line connecting the second engagement point with the third engagement point assigned to it can intersect the pivot axis. The second and / or third force application points may be arranged mirror-symmetrically to the above-mentioned mirror symmetry plane.

In a development of the door handle arrangement, the second points of application of force can be designed as elevations, such as cams, or projections, webs or recesses, which extend away from the locking lever perpendicular to the pivot plane. Following this, the spring device may comprise a leaf spring, which acts in the neutral position spring force effective laterally at both second force application points. In this way act on the pivot axis two equal, with respect to their orientation opposite moments of force on the locking lever and keep the locking lever in the neutral position.

The leaf spring can be fixed with a first end to a housing or a base and be arranged attacking with a second end opposite this at the force attack points. In this case, the leaf spring in the neutral position on both cams and in the locking position and unlocking position each act on a different cam force transmission.

In a further development of the door handle assembly, the spring device may have a spiral spring with torque loading, ie a newly wound spiral spring. This can be arranged to extend in the pivot plane. It may have radially inside an inner end and radially outside an outer end, wherein it is arranged rotationally fixed with the inner end on the pivot axis and fixed with the outer end at the first point of force application. In particular, when larger forces are required, it is advantageous to use a leg spring. The leg spring may comprise a first leg, a second leg, and a winding region connecting the legs. The winding region can be attached to the rotational axis or on the base for rotationally fixed abutment. In the movement between the neutral position and the locking position, the first leg can frictionally engage the locking lever and the second leg can positively engage the base. In the movement between the neutral position and the unlocking position, the second leg can frictionally engage the locking lever and the first leg can frictionally engage the base. With regard to a force symmetry, both legs can be formed with respect to the winding region as preferably the same lever. The locking lever may have a first projection and the base a second projection each for receiving at least one of the legs, wherein the two projections are advantageously spaced parallel to each other and spaced parallel and radially aligned with the pivot axis. The projections may be arranged perpendicular to the pivoting plane. The projections may each be formed as a pin or pin.

The two legs can be arranged parallel or approximately parallel to one another. You can define a receiving space in which the projections are arranged so that they rest in the neutral position laterally on both legs.

In a further development of the door handle assembly can be provided that the first Bowden cable for pivoting the locking lever from the neutral position into the locking position is pressed into pressure. Herbei it is advantageous to limit this pivoting by a stop. Accordingly, the first Bowden cable can be actuated to move the locking lever from the neutral position into the unlocking position.

The present invention is explained below with reference to several embodiments of the door handle assembly shown in a drawing. Each time The sketch of the main building components in the drawing shows:

1 a and 1 b each show a three-dimensional representation of a conventional door handle arrangement with a door inner handle in a neutral position, a cross-sectional view according to the cross-sectional plane II in FIG. 1 a, a cross-sectional view similar to the cross-sectional plane II in FIG. 1 a of a first embodiment of the door handle arrangement according to the invention in a neutral position, a cross-sectional view similar to Figure 3, but in a locking position, a cross-sectional view similar to Figure 3, but in an unlocked position, Figures 6 and 7 each cross-sectional views according to the cross-sectional profile of another embodiment of the door handle assembly according to the invention in the neutral position and

8 shows a further cross-sectional view according to the cross-sectional profile VIII-VIII in FIG. 7.

Figures 1 and 2 each show a view of a door handle assembly 1 according to the prior art. In FIGS. 3-8, different embodiments of the door handle assembly 1 according to the invention are shown, in each case in cross-sectional view, partly in different views or positions. In general, the door handle assembly 1 has a locking lever 2 for locking a door lock (not shown here), which is connected to the door lock via a first Bowden cable 31 shown in FIGS. 1 a and 3-8. The first Bowden cable 31 is designed for the transmission of tensile and compressive forces. Further, an opening lever 4 for actuation of the door lock, not shown here via a dashed line and schematically shown only in Figure 1 a second Bowden cable 32 is provided. Both levers 2,4 are pivotably mounted on a handle housing 5 serving as a base for a door inner handle with a recessed grip 51 about a common sliding axle.

Here, the locking lever 2 for locking the door lock in a first pivotal movement b1 about the pivot axis s from a neutral position (Figures 1-3 and 6-8) in a locking position (Figure 4) pivotable. Furthermore, the locking lever 2 for unlocking the door lock in a second

Pivoting movement b2 against the first pivoting movement b1 to the

Swivel axis s from the neutral position in an unlocking position (Figure 5) pivotally. The cross section shown in Figure 2 corresponds to a cross-sectional profile in Figure 1 a in height of the locking lever 2 and that in a pivot plane S perpendicular to the pivot axis s. The same applies to the cross-sectional views of Figures 3 to 7, however, each with the door handle assembly 1 according to the invention. The pivoting plane S is shown spaced parallel to its actual position for easier readability in Figure 1 a in the direction of the pivot axis s. In FIGS. 3 to 7, the pivot plane S is equal to the plane of the drawing.

As can be seen in FIGS. 1 a and 1 b, the locking lever 2, as is often the case with conventional door handle arrangements 1, is not aligned in the neutral position in accordance with the regulations, but is aligned with the opening lever 4 in a twisted manner. This occurs when deviations become too great, for example with regard to component tolerances, assembly tolerances, wear and the like, or accumulate unfavorably. As a remedy, in the embodiments according to the invention, the door handle assembly 1 according to FIGS. 3 to 8 is provided with an automatic retrieval device 6 for automatically retrieving the locking lever 2 into its neutral position, from which it is previously pivoted in the direction of its locking position or its unlocking position and then it was released. The retrieval device 5 here has a with the pivoting of the locking lever 2 spring force effectively coupled spring device 7 with at least one spring 71, wherein the at least one spring is arranged in each case force transfer effective between the handle housing 5 and the locking lever 2. The pivoting of the locking lever 2 from the neutral position thus takes place against a spring force of the spring device 7. The at least one spring 71 is tensioned pivoting of the locking lever 2 from the neutral position. With the pivoting thus a spring force F is generated, which acts upon actuation of the locking lever 2 against the respective pivoting movement b1, b2 on the locking lever 2 and strives to retrieve the locking lever 2 in its neutral position. It is provided that the spring 71 is already biased in the neutral position, whereby the locking lever 2 is held force-mechanically stable in the neutral position. In the neutral position of the locking lever 2, the direction of the spring force F coupled into the locking lever 2 intersects the pivot axis s and thus exerts no torque thereon.

The first Bowden cable 31 engages with an attack end 33 spaced from the pivot axis s force acting on the locking lever 2. Thus, the first Bowden cable 31 does not hinder the retrieval of the locking lever 2 in the proper neutral position, it is provided that the engagement end 33 is attached via a stop-limited way w relatively movable to the locking lever 2 at the same. This path w is at least equal to an expected maximum total deviation in terms of its length. It runs in the pivoting plane S. It is provided here that the locking lever 2 has a slot opening 21 for attaching the engagement end 33, in which the engagement end 33 is slidably mounted, the slot opening 21 being spaced apart and in the tangential direction Swivel axis s extends over the length of the path w. According to FIGS. 6a and 6b, the spring device 7 engages in each case with a spring 71 designed as a tension spring 72 or, according to FIG. 6c, with two tension springs 72 in a first force application point 81 on the locking lever 2. The first force application point 81 is arranged at a distance from the pivot axis s and in the pivot plane S. Thus, with pivoting of the locking lever 2 from the neutral position out at the first force application point 81, a tensile force is introduced which points away from the pivot axis s.

According to FIG. 3, two spaced-apart second force application points 82 arranged in the pivoting plane S are provided, in which here a leaf spring 73 acts on the locking lever 2. This is clamped on one side on the handle housing 5 and extends parallel to the two Bowden cables 32, 32. The second force application points 82 are arranged mirror-symmetrically with respect to a mirror symmetry plane Sp containing the pivot axis s perpendicular to the leaf spring 73. The second force application points 82 lie on a first straight line gl, which runs perpendicular to the mirror symmetry plane Sp. The locking lever 2 has two protruding projections 22 each having a lower side second force application point 82 against which the leaf spring 73 abuts in the neutral position. If the locking lever 2 is pivoted out of the neutral position, the leaf spring 73 lifts from one of the second force application points 82, and in each case from the second force application point 82, which is behind in pivoting movement b1, b2. Thus, the leaf spring 73 exerts solely on the second force application point 82 in pivoting movement b1, b2 a force or, with respect to the pivot axis s, a torque which is opposite to the respective pivoting movement b1, b2.

Turning again to FIG. 6, the first force application point 81 lies in the neutral position on a second straight line g2 which perpendicularly intersects the pivot axis s, wherein the second straight line according to FIGS. 6a and 6c is perpendicular to the first straight line gl and according to FIG. 6b is parallel to the first straight line gl runs. According to FIGS. 6a and 6b as well as 3, the respective spring 72, 73 acts on the handle housing 5 in a third point of application 83, the third point of application 83 lying on the second straight line g2. According to FIG. 6c, two tension springs 72 are provided, each of which acts on a third force application point 83 on the base side, wherein the two third force application points 83 are arranged mirror-symmetrically to the second straight line g2.

As can be seen for example in FIG. 3, the first pivoting movement b1 of the locking lever 2 into the locking position is limited by a stop 9. This takes into account the distance 91 between the locking lever 2 and stop 9, the so-called overstroke, the necessary transmission path of the first Bowden cable 31 for performing the locking of the door lock and the movement of the engagement end 33 of the first Bowden cable 31 in the slot opening 21st

According to FIGS. 7 and 8, the spring device 7 has a leg spring 74 with a first leg 75, a second leg 76, and one leg 75, 76 connecting winding region 77, wherein the legs 75, 76 each act as a lever. The leg spring 74 is connected to the winding portion 77 on the

Swivel axis s are rotatably mounted and with the legs 75,76 on the handle housing 5 and on the locking lever 2 are non-positively resisted. The two legs 75, 76 run parallel to one another and perpendicular to the pivot axis s. They define a receiving space 78. For this purpose, the handle housing 5 has a first projection 52 and the locking lever 2 has a second projection 23. The two projections 23, 52 are spaced parallel to each other and spaced parallel and arranged radially aligned with the pivot axis s. They pass through the receiving space 78 in the direction of the pivot axis s. They lie in the neutral position laterally on both legs 75,76 here with play frictionally and are kept defined. The leg spring 74 is tensioned by the fact that with the pivoting movement b1, b2 of the locking lever 2 of each in

Pivoting movement b1, b2 rear legs 75,76 is deflected by the first projection 52 of the locking lever 2, while the pivoting movement in b1, b2 front leg 76, 75 for pivotal movement b1, b2 remains statically on the second projection. In this respect, a spring force F is always generated by the spring device 7 outside the neutral position, which presses the locking lever 2 in the direction of the neutral position. Only in the neutral position, both legs 75,76 act laterally on the locking lever 2, but this in opposite directions, so that they cancel and keep the locking lever stable in the neutral position. As with the other embodiments of the spring device 7, the spring 71 formed as a leg spring 74 may be arranged in the neutral position under prestress. For this purpose, they can rest in the neutral position with their legs 75,76 each on both projections 23, 52 laterally. LIST OF REFERENCE NUMBERS

1 door handle assembly

 2 locking levers

21 slot opening

 22 lead

 23 second lead

 31 first Bowden cable

 32 second Bowden cable

33 attack end

 4 opening lever

 5 handle housing

 51 recessed grip

 52 first advantage

 6 retrieval device

7 spring device

 71 spring

 72 tension spring

 73 leaf spring

 74 leg spring

 75 first leg

 76 second leg

 77 winding area

 78 recording room

 81 first force application point

82 second force application point

83 third force application point

9 stop

 91 distance

b1 first pivotal movement b2 second pivotal movement

91 first straight

g2 second straight line F spring force s pivot axis w way

S pivoting plane

Claims

claims

Door handle arrangement for a vehicle door of a vehicle for the particular inside operation of the vehicle door, with a pivotally mounted on a base about a pivot axis locking lever (2) and a first Bowden cable (31), wherein wherein the locking lever (2) by means of the first Bowden cable (31) force-transmitting effect with an associated door lock for locking and unlocking the same is connected, wherein the locking lever (2) for locking the door lock from a neutral position into a locking position and unlocking the door lock from the neutral position to a unlocking position about a pivot axis (s) is pivotally mounted,

 characterized in that

 an automatic retrieval device (6) for retrieving the locking lever (2) from the locking position and / or from the unlocking position is provided in each case in the neutral position.

Door handle assembly according to claim 1,

 characterized in that

 the first Bowden cable (31) having an engagement end (33) spaced from the pivot axis (s) acts forcefully on the locking lever (2), the engagement end (33) being movable relative to the locking lever (2) via a stoppered path (w) is attached.

3. Door handle assembly according to claim 2,

 characterized in that

 the path (w) is at least equal to an expected maximum total deviation, which is composed of structural deviations, deviation from the assembly, deviations due to wear and the like.

4. door handle assembly according to claim 2 or 3,

characterized in that the Vernegelungshebel (2) for attachment of the attack end (33) has a path (w) having slot opening (21) into which the engagement end (33) is displaceably mounted, wherein the slot opening (21) in the circumferential or tangential direction to the pivot axis (s) extends.

Door handle arrangement according to one of claims 1 to 4,

 characterized in that

 the return device (6) has a spring device (7) which is effectively coupled to the pivoting of the locking lever (2), the pivoting of the locking lever (2) out of the neutral position into the locking position and / or into the unlocking position against a spring force (F ) of the spring device (7).

Door handle assembly according to claim 5,

 characterized in that

 in the neutral position of the locking lever (2), the direction of a spring force (F) of the spring device (7) coupled into the locking lever (2) intersects the pivot axis (s).

Door handle assembly according to claim 5 or 6,

 characterized in that

 the spring device (7) acts on the locking lever (2) in a first point of application of force (81), wherein the first point of application of force (81) is arranged at a distance from the pivot axis (s) and in a pivot plane (S) perpendicular to the pivot axis (s) ,

Door handle assembly according to claim 7,

 characterized in that

 with the pivoting of the locking lever (2) from the neutral position at the first point of force application (81) a tensile force is introduced which points away from the pivot axis (s).

9. door handle assembly according to claim 7 or 8,

characterized in that on the locking lever (2) two spaced apart in the

 Swivel plane (S) arranged second force application points (82) for the spring device (7) are provided, which are arranged with respect to a the pivot axis (s) contained mirror symmetry plane (S) facing each other and equally spaced.

10. Door handle assembly according to claim 9,

 characterized in that

 the spring device (7) acts on the locking lever side at two spaced-apart second force application points (82).

1 1. Door handle assembly according to claim 9 or 10,

 characterized in that

 the second force application points (82) are formed as elevations, such as cams or projections (22), webs or recesses extending perpendicular to the pivot plane (S) from the locking lever (2), and in that the spring device (7) is a leaf spring (7). 73) which, in the neutral position, engages laterally at both second force application points (82) in a spring-force-effective manner.

12. Door handle arrangement according to one of claims 9 to 1 1,

 characterized in that

 the spring device (7) has a leg spring (74) with a first leg (75), a second leg (76), and a winding region (77) connecting the legs (75), (76), wherein the winding region (77) the pivot axis (s) or is attached to the base and wherein, in the movement between the neutral position and locking position, the first leg (75) frictionally engages the locking lever (2) and the second leg (76) frictionally engages the base, and , in the movement between the neutral position and unlocking position, the second leg (76) frictionally engages the locking lever (2) and the first leg (75) frictionally engages the base.

13. Door handle assembly according to claim 12, characterized in that

the locking lever (2) has a first projection (52) and the base has a second projection (23) in each case for the force absorption of at least one of the legs, the two projections (23), (52) spaced parallel to one another and spaced parallel and radially in alignment with the swivel axis

(s) are arranged.

Door handle assembly according to claim 12 or 13,

characterized in that

the two legs (75), (76) are arranged parallel or approximately parallel to one another and define a receiving space (78) in which the projections (23), (52) are arranged such that they respectively laterally on both legs in the neutral position (75), (76).

Door handle arrangement according to one of claims 1 to 14,

characterized in that

the first Bowden cable (31) for pivoting the locking lever (2) from the neutral position into the locking position is pressed into pressure and that this pivoting is stop-limited.