EP3298223A1 - Holding element for a door handle device - Google Patents
Holding element for a door handle deviceInfo
- Publication number
- EP3298223A1 EP3298223A1 EP16719834.0A EP16719834A EP3298223A1 EP 3298223 A1 EP3298223 A1 EP 3298223A1 EP 16719834 A EP16719834 A EP 16719834A EP 3298223 A1 EP3298223 A1 EP 3298223A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- receiving element
- door handle
- holding means
- connection
- handle support
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B79/00—Mounting or connecting vehicle locks or parts thereof
- E05B79/10—Connections between movable lock parts
- E05B79/20—Connections between movable lock parts using flexible connections, e.g. Bowden cables
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B77/00—Vehicle locks characterised by special functions or purposes
- E05B77/02—Vehicle locks characterised by special functions or purposes for accident situations
- E05B77/04—Preventing unwanted lock actuation, e.g. unlatching, at the moment of collision
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B79/00—Mounting or connecting vehicle locks or parts thereof
- E05B79/02—Mounting of vehicle locks or parts thereof
- E05B79/06—Mounting of handles, e.g. to the wing or to the lock
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B79/00—Mounting or connecting vehicle locks or parts thereof
- E05B79/10—Connections between movable lock parts
- E05B79/22—Operative connections between handles, sill buttons or lock knobs and the lock unit
Definitions
- the present invention relates to a receiving element according to the preamble of independent claim 1, in particular for a door handle device, and a door handle support for a door handle of a vehicle according to claim 18 and a method for mounting a receiving element according to independent claim 22.
- door handle support which are arranged inside a door of a vehicle and serve to receive a door handle, have a receptacle for a connecting element, wherein the connecting element is connected to a mechanical door lock, so that the door can be opened.
- the receptacle for the connecting element is molded onto the door handle carrier and thus made of the same material.
- the receptacle for the fastener may break due to the crash, causing false tripping the door lock can come, which in the worst case can lead to an unwanted opening of the door.
- the above object is achieved by a receiving element having the features of claim 1, a door handle support with the features of claim 18 and a method having the features of claim 22.
- the receiving element has at least a first and a second holding means for fastening the receiving element on the door handle carrier and at least one fastening means for fastening a mechanical connecting element for actuating the door lock.
- at least the first holding means is used for the positive fastening of the receiving element on the door handle carrier.
- the second holding means of the receiving element is attached to the door handle carrier and / or arranged.
- the receiving element according to the invention is provided in particular for a door handle device which has a door handle for the particular mechanical actuation of a door lock and a door handle support for a vehicle.
- the first and the second retaining means are used for secure attachment of the receiving element on the door handle support, wherein the two holding means are advantageously spaced from each other on the receiving element.
- the fastening means serves to receive and fix the mechanical connecting element, which is connected to the receiving element on the other. If a force for actuating the door handle is exerted and transmitted via the connecting element, then the door lock is actuated (meaning opened) and a door of a vehicle can then be opened.
- the receiving element as an additional component makes it possible by the positive fastening of the receiving element with the at least first holding means on the door handle support, an increased resistance to fracture over the known from the prior art solutions. In this case, the connecting element via the fastening means of the receiving element to extraordinary force effects, eg. B.
- An essential feature of the increased security is the positive fastening of the at least first holding means of the receiving element on the door handle support, whereby a secure positioning of the connecting element is achieved on the door handle support.
- the positive connection between the receiving element and the door handle carrier comes about through a homogeneous (meaning: geometrically complementary) configuration of the holding means and the door handle carrier, so that these two connection partners solve neither existing or nonexistent power transmission.
- the fastening means is arranged between the first holding means and the second holding means and in particular is formed integrally with the receiving element.
- the fastening means can be arranged centrally between the first and the second holding means, so that in each case the same lever for force / moment transmission results between the fastening means and the first and second holding means.
- the fastener closer to the first or closer to the second holding means is arranged.
- the fastening means and the receiving element are made of different materials and as joining partners, in particular cohesively, are connected, wherein different materials with different material properties have an influence on the strength of the receiving element. Consequently, the fastener and the receiving member may have different breaking or bending strengths, ductilities, yield points, yield strengths or tensile strengths.
- the materials can be selected depending on the desired strength and the cost factor.
- the receiving element has a first and at least one second arm, wherein in particular the arms are arranged in a (common) plane.
- the first and the at least second arm serve to receive the force exerted by the connecting element on the fastening means force, so that the force can be transmitted from the fastening means of the receiving element on the door handle support.
- the arms preferably extend at right angles away from the attachment means so that the one arm extends in one direction away from the attachment means and the other arm in the other direction away from the attachment means. It is particularly advantageous if the arms are arranged in a plane, so that the power transmission runs along this plane.
- the receiving element and / or the at least one arm is formed at least almost arcuate and / or angled.
- the receiving element per se and / or the at least one arm has a geometry that is executed arcuate and / or angled.
- the at least one arm, which extends from the attachment means extends in a circular arc from the attachment means.
- "angled" can be understood as meaning that the receiving element and / or the at least one arm extend in a stepped manner from the fastening means
- the door handle support can be made as compact and / or as close as possible to the door handle support and at the same time optimal strength can be achieved Adapted shape of the door handle carrier st, so that a simplified installation and assembly of the door handle carrier is made possible.
- the at least first holding means on the first arm and the at least second holding means may be arranged on the second arm, in particular a plurality of holding means on the first arm and / or the second arm, in particular offset from each other, may be arranged. If in each case a retaining means is arranged on one arm and the fastening means is located between the first and the second arm with the respective retaining means, it is ensured that the force acting on the fastening means can be optimally transmitted to the receiving element and thus to the door handle support.
- the holding means can be arranged at any point along the first and the second arm. Advantageously, however, they are arranged in such a way that an optimal component geometry and / or an optimal breaking strength is achieved.
- an attachment of the receiving element by the first and second retaining means in the immediate vicinity of the fastening means a mounting option, in which the smallest force transmission element on the Receiving element or the fastening means acts.
- a plurality of holding means on the first arm and / or on the second arm in particular offset from each other, are arranged.
- the holding means are arranged offset from one another on the respective arm. This is used in particular in an angled and / or arcuate configuration of the arms of the receiving element to the fact that several power transmission points of the receiving element are present on the door handle support.
- At least one holding means for receiving an axis is formed by the door handle carrier.
- the holding means allows a simple and quick installation of the receiving element on the axis of the door handle support or on the door handle support itself, since the holding means and thus the receiving element needs to be pushed only on the axis.
- the holding means with the axis results in a homogeneous surface pair, which represents a positive connection.
- the pair of surfaces consists of two mutually coaxial cylindrical surfaces, so that there is a positive connection in all directions of the plane perpendicular to the cylinder axis.
- the axle is designed as an axis of rotation by the door handle carrier, the mounting of the receiving element on the door handle carrier is further simplified. It is possible that the receiving element is attached to the at least one holding means on the axis of rotation and is rotated around it, so that the at least second holding means can be arranged at a further point of the door handle carrier. It is also conceivable that the retaining means via a locking ring and / or cotter pin with the axis of rotation from the door handle support, in particular positive and / or non-positive, is attached.
- the at least one holding means can be designed as an opening with a circular or star-shaped or polygonal cross-section, in particular as a polygonal opening.
- the opening which serves as a holding means in the receiving element, can be shaped depending on the application such that a simplified installation and / or a reduction of the degrees of freedom of movement is achieved can be. If the breakthrough is circular, then the receiving element can be rotated about the circular holding means, whereby the assembly is simplified. In a star-shaped, polygonal or polygonal breakthrough, an axial movement around the holding means is prevented, so that a final assembly position can be achieved. As a result, misalignments in the assembly of the receiving element on the door handle support can be largely prevented.
- At least one (in particular the first) holding means is designed as a bayonet closure and / or plug connection and / or rotary connection and / or clip connection and / or latching connection, in particular as a complementary reception of a counter-holding means on the door handle carrier.
- a bayonet closure allows a fast producible and detachable mechanical connection of the two connection partners, wherein by a mutual rotation of the connection partners a positive connection is made or separated.
- the holding means can be secured in two axes against loosening.
- a connector allows a quick and easy installation of the receiving element to the door handle support, which is inexpensive to manufacture and can be mounted without tools.
- a rotary connection allows a secure connection that is configured without play for a reliable attachment to the door handle carrier.
- a clip connection By a clip connection, a fast producible and releasable mechanical connection can be made, which can be produced and released without tools, so that a quick assembly and disassembly can be achieved.
- a latching connection of the two connection partners, ie the holding means with the door handle carrier reaches a positive connection, which, for example, can be produced in multiple stages via different latching steps.
- the holding means is designed as a complementary receptacle of a counter-holding means on the door handle carrier.
- the (respective, in particular the first) holding means can be connected both positively and non-positively and / or additionally cohesively with the counter-holding means on the door handle carrier. It is particularly preferred if the holding means is designed such that it can be mounted without tools on the counter-holding means on the door handle carrier.
- an adapter for receiving the connecting element is arranged on the fastening means, whereby the connecting element is connected to the fastening means.
- the adapter is positive and / or non-positively connected both with the connecting element and with the fastening element.
- the connecting element can be connected to the fastening means of the receiving element such that a reversible mounting of the adapter to the fastening means is feasible.
- the adapter is formed in one piece and / or the same material with the connecting element, in particular with the fastening means.
- the adapter may be formed in one piece and / or material (monolithic) with the fastening means, whereby further costs can be saved during manufacture.
- the adapter and / or the connecting element and / or the fastening means may be made of a plastic and / or of a metallic material and / or of a composite material.
- the adapter is designed as an end sleeve and / or clamp and / or screw connection for the connecting element. If the adapter is designed as an end sleeve, it can, for. B. are placed on the connecting element, so that the diameter of the connecting element increases due to the ferrule, whereby a positive connection of the ferrule can be achieved with the fastener.
- the end sleeve can, for example, be arranged on the connecting element in such a way that, by squeezing the end sleeve, it is positively and non-positively connected to the connecting element.
- the adapter may also be formed as a clamp, wherein z. B. via a spring, the terminal is non-positively connected to the connecting element, so that the terminal is formed positively and / or non-positively with the connecting element and the fastening means.
- the adapter and / or the fastening means comprises a latching connection and / or a clip connection and / or a plug connection and / or a rotary connection and / or a screw connection or a combination thereof, whereby the adapter with the fastener is connectable.
- the receiving element and / or the fastening means reinforcing elements, in particular in the form of forms or reinforcing ribs.
- the reinforcing elements are preferably arranged on the receiving element and / or the fastening means such that the mechanical properties are improved based on the resistance to breakage and stability.
- the reinforcing elements can be achieved by forming the receiving element and / or the fastening means and / or by molding additional material to the receiving element and / or the fastening means, so that higher, mechanical strength can be achieved at the correspondingly particularly stressed areas.
- additional material may be present on the receiving element and / or the fastening means in the form of reinforcing ribs.
- the reinforcing ribs may be formed of the same material and / or material uniformly with the receiving element and / or the fastening means. It may be advantageous if the receiving element has a metallic material and / or a composite material.
- a metallic material is characterized in particular by the fact that a high ductility of the component can be achieved with simultaneous cost-effective production. Furthermore, metallic materials can be easily molded or cast, so that an arcuate and / or angularly configured geometry of the receiving element can be produced inexpensively.
- the receiving element may comprise a composite material, which is advantageously a fiber-plastic composite, in particular carbon fiber reinforced plastics, glass fiber reinforced plastics, aramid fiber reinforced plastics or metal Matrix composites.
- the receiving element is a stamped part and / or a bent part, in particular galvanized and / or coated with a plastic, in particular is foiled.
- a stamped part or a bent part is particularly inexpensive to produce, since the metallic components can be brought by a forming process in the desired shape.
- a metallic stamped part and / or bent part it is particularly preferred if it is galvanized and / or coated or coated with a plastic, so that the chemical properties of the material can be further improved and protected against environmental influences.
- a metallic component which is galvanized, z. B. are protected against oxidation.
- a plastic can also protect the metallic material from environmental influences and at the same time improve the mechanical properties of the component. It can be particularly cost-effective if the stamped and / or bent part is laminated and thus encased with a plastic layer. It is also possible to coat the component with a spray film after the forming process and thus protect against environmental influences.
- the receiving element has material recesses, in particular that the receiving element is designed as a frame construction.
- the receiving element may be formed as a frame construction, so that depending on the desired strength of the receiving element, the geometry of the receiving element can be adjusted accordingly. Accordingly it acts this is a frame structure that can be formed only by individual reinforcing ribs for optimum strength.
- the fastening means is U-shaped, in particular that two legs are arranged to each other such that the adapter is connected at least partially non-positively and / or positively connected with the legs.
- the fastening means can be formed simply by forming the receiving element, so that the fastening means is formed on the receiving element particularly cost-effectively. It is particularly preferred if two legs are arranged relative to one another in such a way that the adapter can be frictionally and / or positively connected at least in sections with the legs. It is conceivable that the two legs are arranged parallel to each other and transition seamlessly into the two arms of the receiving element.
- the receiving element is formed in one piece, wherein at the same time the adapter can be optimally arranged positively and / or positively between the two legs.
- the connecting element serves for the mechanical transmission of the movement from the door handle to the door lock and can preferably be designed as a Bowden cable (outer casing and core) in order to achieve a high degree of functionality while at the same time achieving high flexibility. It is also conceivable that the connecting element is designed as a rope, chain or wire or in the form of a linkage with possibly one or more joints, wherein preferably a sheath is provided in said connecting elements.
- a door handle support is claimed with a receiving element according to the invention. The door handle support is arranged inside the door and serves to receive and / or storage of the door handle.
- the receiving element according to the invention is arranged such that the receiving element is secured with at least one retaining means form-fitting manner on the door handle carrier.
- the connecting element is fastened to the receiving element so that the connecting element has a mechanical connection to the door lock and the door can be opened over it.
- the door handle support according to the invention with a receiving element according to the invention is characterized in particular by the fact that the Safety of the door handle carrier and the receiving element is significantly improved in an accident, since the breaking and deformation resistance of the receiving element is increased, so that a false triggering by a malfunction of the connecting means, which is arranged on the fastening means of the receiving element, at least can be reduced. This prevents that in an accident, the receiving element is destroyed and the door can open independently.
- the door handle support according to the invention is designed such that the receiving element is positively connected to the at least one holding means.
- the at least one further holding means is likewise fastened to the door handle carrier, so that a non-positive connection can be produced on at least two holding means.
- This ensures that the connecting element is securely held on the fastening means and thus on the receiving element, so that a secure positioning of the connecting element can be ensured even in the event of an accident.
- at least one counter-holding means to the holding means is arranged on the door handle support, wherein in particular the counter-holding means is formed complementary to the holding means.
- the arranged on the door handle support counter-holding means is designed such that at least one holding means a positive connection can be produced.
- the counter-holding means serves for a secure connection of the receiving element with the door handle support and at the same time for easier installation and correct positioning of the receiving element on the door handle support, so that it is not such a safety-related component in the vehicle to a faulty mounting and thus to malfunction during operation comes.
- the counter-holding means is formed geometrically complementary to the holding means. This means that the counter-holding means and the holding means are designed such that both connection partners are designed as "male” or "female” connection partners and thus together a bayonet closure and / or a plug connection and / or a rotary connection and / or a clip connection and / or form a latching connection.
- connection partners In the case of a bayonet lock, one of the connection partners has, for example, a longitudinal slot and the other part has a head-like counterpart, which can be inserted into the longitudinal slot and is connected to one another by a plug-and-turn movement.
- the two connection partners by nesting and opposite turning force and positively connected with each other and simultaneously secured against unintentional loosening of the connection partners.
- a plug connection exists if the connection pair z. B. from two mutually coaxial cylindrical surfaces, which can be inserted into each other, are provided, wherein it is z. B. can act around a pin / axis and a hole or a material recess.
- a clip connection can also be referred to as a spring clip, wherein the at least one retaining means is configured such that it has a spring clip, so that the two connection partners engage each other such that a secure hold comes about through the self-locking of the holding means and the counter-holding means. This creates a non-positive connection of the two connection partners, which is characterized by a short assembly time and a reversible assembly.
- the holding means and / or the counter-holding means forms a recess and / or a recess or breakthrough, in which the connection partner can intervene, wherein the connection partner is designed such that preferably a compound with a higher degree is positively connected because not only a radial form-fit comes about, but also in the longitudinal direction of a positive connection can be at least partially effected.
- the door handle carrier has at least one axis, wherein the at least one holding means can be arranged on the axle.
- the axle serves to receive a breakthrough, so that the holding means is rotatably mounted about the axis of the door handle carrier.
- the axis may be configured such that it extends beyond the holding means, so that further components can be arranged on the axis.
- a bearing rocker is provided in the door handle support according to the invention, which is movably mounted in the door handle support.
- this bearing rocker is rotatably arranged about an axis of rotation, wherein this axis of rotation can simultaneously serve to receive and fix the receiving element according to the invention.
- This bearing rocker cooperates mechanically with the movable door handle and is set in motion by actuation of the door handle (by its user). This movement is preferably converted into a pivoting or rotating movement, whereby the connecting element is actuated.
- a neck element for the connecting element is provided on the bearing rocker, in particular for a connecting nipple of a soul configured as a Bowden cable connecting element.
- This attachment element is designed hebeiförmig and preferably rotates with the movement of the bearing rocker (in particular directly) with the already mentioned axis of rotation.
- the neck element is fixed, in particular rotationally fixed, connected to the bearing rocker.
- the bearing rocker is designed as a mass balance weight and can preferably cooperate with a pawl in the form of a crash barrier on the door handle support.
- the mentioned door handle can be configured as a swivel or pull handle or as a combination handle of swivel and pull handle.
- the door handle support is a plastic injection molded part, in particular glass fiber reinforced injection molded part.
- the manufacture of the door handle carrier made of a plastic by an injection molding process allows a cost-effective and at the same time weight-optimized production. In this case, all elements of the door handle carrier can be arbitrarily shaped by the injection molding process, so that at the same time material-saving and stable door handle support can be produced. It is also possible to manufacture the plastic injection molded part of several different material components, so that different material properties can be used at different component sites.
- a method for mounting a receiving element on a door handle carrier of a vehicle is claimed.
- the method according to the invention has at least the following steps:
- the holding and holding means are connection partners in the form of a bayonet closure
- the first holding means can be placed on the counter holding means in a first step, wherein the holding means has a slot which is designed to be complementary to the counter holding means.
- the counter-holding means head-like (with a bar-shaped head) is formed and has almost the same geometric external dimensions, as the holding means on the receiving element.
- the receiving element is rotated about the counter-holding means to the door handle carrier, so that the slot of a holding means, is rotated against the fixed head of the counter-holding means, so that a positive and / or positive connection of the receiving element and the holding means to the Counterhold means and thus made on the door handle support.
- the second holding means are arranged on an axis of the door handle carrier, in particular plugged.
- a door handle system is claimed, wherein the door handle system consists of a door handle according to the invention, a receiving element according to the invention, a connecting element, the door lock and a door handle, so that a secure door handle system is claimed, which also in case of an accident its functionality maintains and malfunctions are largely prevented.
- the door handle support the method for mounting the receiving element and the door handle system, all the advantages that have already been described to the receiving element according to the invention. Further measures improving the invention will become apparent from the following description of some embodiments of the invention, which are shown schematically in the figures.
- FIG. 1 shows a door handle support according to the invention with a first embodiment of the receiving element according to the invention, a first embodiment of the receiving element according to the invention, an embodiment of the receiving element according to the invention with a recorded adapter, a door handle support according to the invention with a receiving element according to the invention, a door handle support according to the invention with a receiving element according to the invention and Figure 6 an inventive Embodiment of the door handle support according to the invention with a receiving element according to the invention.
- the receiving element 10 in this case has two arms 14, 15, wherein at the end of the first arm 14, the first holding means 1 1 and on the second arm 15, the second holding means 12 is arranged. Between the first arm 14 and the second arm 15, the fastening means 13 is arranged, wherein the fastening means 13 has a first leg 13.1 and a second leg 13.2.
- the two legs 13.1, 13.2 are arranged parallel to each other so that the adapter 21 is received between the two legs.
- the adapter 21 has at least one positive and non-positive connection with the at least first leg 13.1.
- the connecting element 20 is arranged, which is connected to a further component of the door handle system, wherein the further component is arranged on the axis 102 on which the second holding means 12 of the receiving element 10 is arranged.
- reinforcing elements 16 are formed, which serve for a further reinforcement of the receiving element 10 and the reinforcing element 16.
- reinforcing elements 16 are in particular formed on the first arm 14, which extend from the first holding means 1 1 to the fastening means 13.
- the first holding means 1 1 is formed here as a bayonet with its connection partner the counter-holding means 101 on the door handle support.
- the first holding means 1 1 is formed on the first arm 14 of the receiving element 10 as a slot, which is mounted around the head-shaped designed counter-holding means 101 of the door handle carrier.
- the receiving element 10 has been rotated by 90 ° during assembly to the counter-holding means 101.
- the head-shaped counter-holding means 101 and formed as a slot first holding means 1 1 forms a non-positive and positive connection.
- the second holding means 12 of the second arm 15 is attached to the axis 102 of the door handle carrier.
- the axis 102 of the door handle carrier 100 is configured such that a further component, in particular a projection element 104, of the door handle system can be arranged on the axle.
- the receiving element 10 and / or the further component in the form of the attachment element 104 for the end of the connecting element 20 can be secured and / or fixed on the axis of rotation 102 by a securing ring 105.
- the fastening element 13 has material formations on its first leg 13.1 and on its second leg 13.2, so that the connecting element 20 or a part of the adapter 21 can be guided by these material formations of the fastening means 13.
- the adapter 21 has a receptacle for the sheath 20. 2 of the connecting element 20 designed as a Bowden cable. In this recording of the adapter 21, an opening for a soul 20.1 of the Bowden cable is provided, wherein the soul 20.1 is performed within the shell 20.2.
- the end of the core 20. 1 is provided with a connecting nipple 20. 3 and is connected to the attachment element 104 of the door handle carrier 100 connected to mechanically transfer a mechanical actuation of the door handle on a door lock can.
- FIG. 2 shows an embodiment of the receiving element 10 according to the invention.
- the receiving element 10 in this case has two arcuate arms 14 and 15, wherein in each case at the ends of the first arm 14, a first holding means 1 1 and at the end of the second arm 15, a second holding means 12 is arranged.
- the perspective of Figure 2 shows the receiving element in contrast to the perspective shown in Figure 1 from the side, which points to the door handle support 100.
- the reinforcing elements 16, in particular on the first arm 14 clearly visible.
- the second holding means 12 is designed on the second arm 15 as a material breakthrough, so that an axis 102 of the door handle carrier is receivable in this.
- the fastening means 13 is designed in the figure 2 seamlessly with the two arms 14, 15, so that a U-shaped configuration of the legs 13.1 and 13.2 of the fastener 13 results. At the one ends of the legs 13.1 and 13.2 extend respectively the first arm 14 and the respective second arm 15 at an angle of 90 ° away from the fastening means. Also on the fastening means 13 in this case reinforcing elements 16 are formed. Furthermore, it can be seen the adapter 21, which is configured with a clip connection 22 and can be configured as a plastic injection molded part. The clip connection is formed by two configured as spring material material formations 22 on the adapter 21, which can be clipped into complementary configured receptacles 22 to the attachment means 13 of the receiving element 10.
- the arrows of Figure 2 which extend perpendicularly from the adapter 21 in the direction of the fastening means 13, as the adapter 21 can be arranged in the fastening means 13.
- the adapter 21 is inserted from above into the fastening means 13, wherein the spring elements 22 of the adapter 21 by force application in the complementarily configured receptacles 22 of the fastener 13 engage or be clipped.
- the first arm 14 and the second arm 15 are designed arcuate in Figure 2, wherein the directions of extension of the arms 14, 15 are formed opposite to each other.
- FIG. 3 shows the receiving element according to the invention, the adapter 21 being in the clipped-in position in FIG. Furthermore, a material recess 17 on the second arm 15 can be seen in FIG. In contrast to the first Arm 14, on which the reinforcing elements 16 are arranged, it is possible due to the different loads on the second arm 15 to make the material recesses 17. This can continue to save weight and material. Furthermore, it can be seen how the clip connection 22 of the adapter 21 engage in the complementarily configured receptacles 22 of the fastening means 13, in particular in the first leg 13.1 of the fastening means 13. This creates a non-positive and positive connection of the adapter 21 with the fastening means 13, in particular with the first leg 13.1 of the fastening means 13.
- FIG. 4 shows a detail of the door handle carrier 100 according to the invention, wherein the receiving element 10 according to the invention is mounted on the holding means 101 of the door handle carrier 100 via the holding means 11.
- the adapter 21 is first pressed by a horizontal movement in the fastener 13 in and rotated in a next step about the longitudinal axis of the adapter, so that the two connection partners of the clip connection 22 can interlock.
- the receiving element 10 is already in a mounted position and thus positively connected to the first holding means 1 1 with the counter holding means 101 of the door handle carrier 100.
- first holding means 1 1 and the counter-holding means 101 as already described in Figure 1, designed as a bayonet closure.
- the second holding means 12 of the second arm 15 is, as already mentioned in Figure 1, designed as an opening for receiving an axis of the door handle carrier 100.
- FIG. 5 is the embodiment of the receiving element 10, which is already shown in Figure 4.
- the adapter 21 is already in a mounted position on the fastening means 13.
- the geometry of the receiving element 10 adjoins the geometry of the door handle carrier 100 due to the different orientation of the curved shape of the first arm 14 and the second arm 15.
- the U-shaped geometry of the Fastener 13 on the receiving element 10 allows the connecting element 20 can extend parallel to the door handle support 100.
- the door handle support 100 according to the invention is shown.
- the receiving element 10 is positively connected to the first holding means 1 1 with the door handle support 100.
- the second holding means 12 is in this case mounted on the axis 102 of the door handle carrier for the bearing rocker 103.
- the bearing rocker 103 may itself also be designed as a mass balance weight for the movable door handle.
- the connecting element 20, which extends from the adapter 21 to another component, the neck element 104, the door handle system, wherein the further component is arranged on the axis 102 of the door handle carrier.
- the door handle support 100 is part of the door handle system, wherein the door handle support 100 on the inside of a door of a motor vehicle can be arranged, in or on the door handle support 100, a mechanical lock cylinder and a door handle mechanism (in particular partially in the form of the bearing rocker 103) can be arranged.
- the connecting element 20 serves for power transmission between the door handle, in particular the door handle mechanism and the door lock. As shown in FIG. 6, the connecting element 20 is configured as a Bowden cable with the core 20. 1 and the sleeve 20. 2, which is positively and positively connected to the adapter 21.
- the end of the connecting element 20, meaning the connecting nipple 20.3 of the core 20.1, is rotatably accommodated in a further component, namely the attachment element 104, which is configured at least rotationally fixed or monolithic with the bearing rocker 103, which bears against the axis 102 of the door handle carrier 100 is firmly mounted.
- the attachment element 104 which is configured at least rotationally fixed or monolithic with the bearing rocker 103, which bears against the axis 102 of the door handle carrier 100 is firmly mounted.
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102015108193.8A DE102015108193A1 (en) | 2015-05-22 | 2015-05-22 | Receiving element for a door handle device |
PCT/EP2016/059200 WO2016188689A1 (en) | 2015-05-22 | 2016-04-25 | Holding element for a door handle device |
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Publication Number | Publication Date |
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EP3298223A1 true EP3298223A1 (en) | 2018-03-28 |
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EP16719834.0A Pending EP3298223A1 (en) | 2015-05-22 | 2016-04-25 | Holding element for a door handle device |
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US (1) | US10808432B2 (en) |
EP (1) | EP3298223A1 (en) |
CN (1) | CN107636241B (en) |
DE (1) | DE102015108193A1 (en) |
WO (1) | WO2016188689A1 (en) |
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US10967714B2 (en) * | 2017-09-25 | 2021-04-06 | Ford Global Technologies, Llc | Collapsible side door latch module |
DE102018100181A1 (en) * | 2018-01-05 | 2019-07-11 | Kiekert Ag | Bowden cable connection for a motor vehicle lock |
US11187017B2 (en) * | 2018-04-06 | 2021-11-30 | Hi-Lex Controls, Inc. | Door lock cable and trim panel assembly for a vehicle and method thereof |
DE102018119552A1 (en) * | 2018-08-10 | 2020-02-13 | Brose Schließsysteme GmbH & Co. Kommanditgesellschaft | Bowden cable connection arrangement for a motor vehicle lock |
DE102019004691A1 (en) * | 2019-07-03 | 2021-01-07 | Daimler Ag | Vehicle door for a motor vehicle |
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-
2015
- 2015-05-22 DE DE102015108193.8A patent/DE102015108193A1/en active Pending
-
2016
- 2016-04-25 CN CN201680029452.XA patent/CN107636241B/en active Active
- 2016-04-25 EP EP16719834.0A patent/EP3298223A1/en active Pending
- 2016-04-25 WO PCT/EP2016/059200 patent/WO2016188689A1/en active Application Filing
- 2016-04-25 US US15/576,406 patent/US10808432B2/en active Active
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US20180155966A1 (en) | 2018-06-07 |
WO2016188689A1 (en) | 2016-12-01 |
CN107636241B (en) | 2021-01-01 |
DE102015108193A1 (en) | 2016-11-24 |
US10808432B2 (en) | 2020-10-20 |
CN107636241A (en) | 2018-01-26 |
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