The present invention is directed a door handle system for actuating a moveable part of a vehicle, particularly a door or hatchback door or the like according to the preamble of claim 1. Thereby, a carrier is provided at the door handle system which is arrangeable at an inner side of the moveable part. Further, the door handle system comprises a door handle which is arrangeable at the outer side of the moveable part by way of the carrier, and the door handle has two ends over its longitudinal extension at which connection means are provided for fastening at the carrier respectively. Further, the door handle system comprises a connection means which serves for fastening the door handle at the carrier by at least one connection means, wherein the fastening element comprises at least one release position and a fixing position and having an adjustment element which serves for adjusting the fastening element between the release position and the fixing position. In its fixing position the fastening means retains the door handle on the carrier by way of both connection means. Further, the present invention is directed to a method for assembly of a door handle system for actuating a moveable part of a vehicle according to the preamble of claim 20.
From reference DE 10 2007 027 845 A1 for example a door handle system for acting a moveable part of a vehicle is known, particularly a door or a hatchback door by which a carrier is arranged at the inner side of the moveable part and serves for the fixation of a door handle at the outer side of the moveable part. Thereby, the door handle comprises a first handle end and a second handle end which are arranged via a complex assembly at the carrier of the door handle system. An arrangement at the door handle at the carrier is necessary by multiple complex assembly steps.
Therefore, it is the object of the present invention to provide a door handle system and a method for the assembly of a door handle system which at least partially overcomes the disadvantages from the state of the art. Particularly, it is an object of the present invention to facilitate the mechanical construction of the door handle system for arrangement of the door handle at the carrier and the assembly at the moveable part.
The present invention is solved by a door handle system with the features of claim 1, particularly from the characterizing clause. Likewise, an assembly method for the assembly of the door handle system with the features of claim 20, particularly from the characterizing clause for solving the object, is suggested. In the dependent device and method claims the preferred embodiments of the invention are described. Features which are disclosed in relation to the door handle system according to the invention thereby also apply for the assembly method according to the invention and vice versa. Further, the assembly method according to the invention from claim 20 can be performed with a door handle system according to the invention.
The door handle system according to the invention for actuating a moveable part of the vehicle, particularly a door or a hatchback door or suchlike equipped with a carrier which is arrangeable at the inner side of the moveable part. Additionally, this door handle system comprises a door handle which is arrangeable at the outer side of the moveable part by carrier. The door handle comprises two ends by its longitudinal extension at which connecting means for a fixation at the carrier are intended respectively. Such a door handle is for example configured as a pulling handle. In order to realize that the connecting means can mechanically interact with the carrier for fixation corresponding openings can be provided in the moveable part through which the connecting means extend. Further, the door handle system is equipped with a fastening element which serves for the particularly formfitting arrangement of the door handle at the carrier by at least one connecting means. Hereby, the fastening element comprises at least one release position and one fixing position. In the release position the door handle is released and therewith not directly or indirectly arranged with the carrier. In the fixing position, however, the door handle is directly or indirectly arranged at the carrier by the fastening element. Further, the door handle system comprises an adjusting element which serves for adjusting the fastening element between the release position and the fixing position. Therewith, the fastening element is moved back and forth between the release position and the fixing position by the adjusting element. In its fixing position the fastening element retains the door handle at the carrier by both connecting means or the existing connecting means. Thereby, the fastening element at the same time fixes the existing connecting means of the door handle at the carrier. According to the invention it is provided that the fastening element is configured from two parts, wherein both parts of the fastening element are coupled to one another. Meaning the two parts of the fastening element are coupled to one another after its assembly at the carrier of the door handle system, particularly loss-proof. The first part is preferably configured as a clip which serves for the acceptance and arrangement of a closing cylinder while the second part is preferably configured as a locking plate. By this configuration in two parts the fastening element can be arranged at the carrier or the door handle of the door handle system, particularly easily and securely, particularly loss-proof. Therewith, the door handle is arrangeable or can be mounted at the moveable part, particularly easily and securely by the present configuration of the door handle system. With a door handle system according to the invention it is possible by a two part configuration of the fastening element to use different materials or material thicknesses for the respective parts of the fastening element. Thus, for example the first part of the fastening element can be configured from a casting part, particularly a metal casting part or a light metal casting part. The second part of the fastening element, however, can be configured from a forged part or a rolled sheet part. The coupling meaning the mechanic connection between the first and second part of the fastening element can be realized by a connecting means. Ideally, thereby the two parts of the fastening means are at least form fittingly arranged with one another by the connecting means. The arrangement of this two part fastening element is particularly simplified when both parts are only coupled with one another after the arrangement at the carrier.
It is particularly preferred with the door handle system that the door handle system is configured such that a coupling of both parts of the fastening element can only occur when at least one of the parts of the fastening elements is retained at the carrier of the door handle system, particularly loss-proof.
Within the scope of the invention it can be provided that the first part comprises at least a coupling element and the second part at least a counter coupling element, wherein the at least one coupling element is formfittingly connected at the least one counter coupling element. Preferably, the at least one coupling element and the at least one counter coupling element configure a plug system, wherein the at least one coupling element and the at least one counter coupling element are plugged in one another to establish the coupling, particularly are engaged with one another. Thus, the at least one coupling element can be configured as a plug projection and the at least one counter coupling element as a complementary plug recess. The at least one coupling element and the at least one counter coupling element are formfittingly connected with one another after the establishment of the coupling connection such that a movement of one part results in the same movement of the other part.
According to a particularly preferred embodiment of the invention it can be provided with a door handle system that the second part is configured elastically deformable at the end facing the first part. This means that the end of the second part facing the first part is configured such that this end deforms into the original condition after a load. This means that the elastic deformation occurs over time in which a corresponding load is affecting. Such a configured second part enables a particularly secure and durable coupling between the first and the second part of the fastening element. For coupling of both parts to one another the elastically deformable end of the second part can be deformed for a short period of time in order to then be received in a certain position receive a formfitting coupling with a first part. A big advantage of the elastic deformability of the edge of the second part facing the first part is that during the mounting of the second part at the carrier and a therewith connected subsequent fixation of the second part at the carrier the elastically deformable end can flexibly yield in order to accept a no longer losable plug or resting connection with this and a subsequent coupling period, particularly in a linear displacement of the second part into the direction of the first part. The door handle system, particularly the carrier and the two parts of the fastening elements are configured constructive such that after the assembly of the first part at the carrier and during the assembly of the second part at the carrier a coupling of both parts occurs, but the elastically deformable end elastically deforms during the assembly of the second part due to a striking at the first part, particularly to the coupling element of the first part. Only after a displacement process of the second part along the carrier with which the second part is only linearly displaceably retained at the carrier and a therewith connected moving towards one another of the second part and the first part, both parts are adjusted to one another such that this, particularly the coupling element and the counter coupling element accept a durable formfitting connection with one another. For example, a coupling element configured as a resting projection of the first part can engage in a counter coupling element configured as a resting acceptance. Naturally, within the scope of the invention it is considered equal when the end of the first part facing the second part is configured elastically deformable and not the end of the second part. Herefor, the selection of the materials of both parts is crucial.
Likewise, it is possible within the scope of the invention that the first part is configured ring-like. Hereby, multiple advantages result. Initially, the first part configures an acceptance for a closing cylinder. The closing cylinder can be inserted into the inner of the ring-like configured first part after the assembly and the final positioning of the first part at the carrier of the door handle system and can be fixed securely at the door handle of the door handle system after a displacement of the same. Further, such a form of the first part enables that on the face, meaning on the side of the first part facing away from the second part, an adjustment element, particularly a screw can be arranged which serves to alter the position of the first part and therewith the fastening element between the release position and the fixing position. Particularly, the ring like configured first part comprises a thread hole in the wall to the acceptance of the screw. The thread hole is pivotably mounted preferably coaxial to the displacement direction of the first part or the fastening elements at the first part. Hereby, the first part itself or after coupling with the second part can be simply linearly displaced. By the frontal arrangement of the flat hole in the first part the screw for the assembly of the fastening element, particularly for coupling of both parts of the fastening elements to one another is easily accessible for a worker.
Within the scope of the invention it can be intended that the door handle is rigidly and fixed arranged at the movable part. Thereby, the fastening element serves for the rigid arrangement of the door handle at the carrier. Therewith, the door handle itself is fixed at the carrier and therewith at the moveable part. Particularly, with a rigidly configured door handle the construction of the whole door handle system is configured particularly easy.
Likewise, it is possible within the scope of the invention that the door handle of a door handle system can be arranged moveably meaning it is turnably or pivotably or extractably. Hereby, the door handle can be arranged via a bearing block indirectly at the carrier by the fastening element. For fastening of the moveable door handle one or multiple existing connecting means of the door handle can be arranged via bearing blocks at the carrier. The composition of the door handle system with a moveable door handle is configured more complex by the additional use of at least one bearing block than with a rigidly configured door handle. Additionally, with a door handle system with a moveable door handle equalising weights and crash locks or safety catchers can be provided for increasing the safety, particularly with a crash. Further, a moveable door handle serves appropriately for mechanically actuating a lock for closing the moveable part.
Like previously described preferably a door handle system according to the invention is provided, wherein the fastening element is displaceably, particularly between the release position and the fixing position, mounted at the carrier. Therewith, only by a displacement of the fastening elements from the release position into the fixing position the door handle can be formfittingly arranged at the carrier. Hereby, the fastening element, particularly a second part of the fastening element, can be retained via guidance means at the carrier. For this purpose, the guidance means at the carrier can be configured wing-like or t-like and can formfittingly interact with corresponding counter guidance means like wing-like projections or longitudinal holes at the second part of the fastening elements in order to establish a guidance for the fastening element, at least for the second part of the fastening element. Ideally, the longitudinal holes in the fastening element are configured with an extension in order to be able to insert the fastening element via the head of the t-like guidance means. Appropriately, the distance of the extension of the longitudinal holes to the distance of the t-like guidance means at the carrier is adjusted, wherein the distance is the same respectively. After the fastening element with its extensions is guided from the longitudinal holes via the t-like head of the guidance means of the carrier the fastening means only needs to be displaced longitudinally, whereby a formfitting guidance between the fastening element and the carrier is realized. Preferably, the guidance means are configured wing-like meaning the carrier can comprise two opposing natural walls at which inner sides multiple wing-like projections are arranged spaced to one another respectively. The second part of the fastening element comprises corresponding recesses at both longitudinal sides such that the second part can be plugged to the carrier via the wing-like configured guidance means at the carrier. The wing-like configured guidance means at the carrier and the corresponding wing-like projections meaning the counter guidance means at the second part which laterally limit the recesses at the second part engage consecutively after a relative displacement of the second part to the carrier such that the second part is retained after a displacement counter its plug direction on the carrier.
It can be preferably provided with a door handle system according to the invention that the second part of the fastening element comprises longitudinal holes/recesses, wherein the longitudinal holes/recesses, the guidance means at the carrier and the at least one coupling element and the at least one counter coupling element are configured and are adjusted to one another such that the second part is pluggable to the carrier with a lining arrangement of the longitudinal holes/recesses to the guidance means of the carrier and the second part can be formfittingly coupled with the coupling element of the first part via the counter coupling element only after displacement of the second part along the guidance means at the carrier in which the second part is displaceably mounted at the carrier. By such a configuration of the door handle system a coupling of both parts of the fastening elements is possible after its arrangement at the carrier, wherein in the coupling position in which both parts have a formfitting connection with one another at least the second part is arranged counter its plug direction at the carrier. Particularly, the displaceability of the first part at the carrier is limited such that after the coupling of the second part to the first part the second part can no longer be displaced in the position in which it was plugged to the carrier meaning in which the first part was plugged to the carrier via its recesses/longitudinal holes via the guidance means. Hereby, it is ensured with the door handle system that the coupled parts of the fastening elements are retained loss-proof at the carrier.
Optional, it is possible within the scope of the invention that for arranging at least the carrier or the door handle openings are provided at the moveable part. Through these openings the connecting means of the door handle extend in order to arrange those at the carrier. The carrier itself can be arrangeable at the moveable part by at least one preferably multiple retaining means. Hereby, the support means can be configured hook-like and at least formfittingly engage with the opening edges of the openings in the moveable part. Ideally, thereby the openings of the moveable part are used which are also provided for the performance of the door handle. In order to achieve a possibly high stability of the moveable part the openings for the door handle should be configured geometrically complementary to the extending connection means of the door handle. The previously described support means of the carrier extend from the inner side of the moveable part through the openings and engage with the outer side of the opening edges.
In order to fix the carrier locally secure at the moveable part at least a fastening element can be intended which fixes the carrier at the moveable part. Hereby, it is possible that the fastening element is configured as a screw and interacts with at thread at the carrier in a mounting position at the moveable part. Thus, after the carrier is initially formfittingly arranged in the moveable part via its support means it is fixed by the fastening element in its local position at the moveable part. Hereby, it is ensured that the carrier remains in its desired position at the moveable part. Ideally, the fastening element is arranged at the door handle system such that it is externally covered from the door handle. The fastening element itself is normally inserted from the outer side through an opening in the moveable part into the carrier and therewith connected for example by said thread.
Further, it is possible according to the invention that at the fastening element at least a preload means is arranged which mechanically interacts with the door handle in the fixing position. By this preload means the door handle is pressed to the outer side of the moveable part when the fastening element takes its fixing position. Therewith, the fastening element does not only fulfil the retaining and fixing of the door handle at the carrier or at the moveable part but at the same time serves for a sufficient tilt stability since the door handle is arranged at the moveable part free of play and therewith free of blur via the carrier. Preferably, the preload means can be configured at the fastening element as a spring tongue which is configured particularly from one material from the fastening element. Therewith, the preload means is configured as an indentation which comprises curves and comfort edges from the fastening element. Ideally, for each connecting means of the door handle a preload means is provided at the fastening element in order to ensure particularly secure retaining of the door handle.
Within the scope of the invention it is possible that a lock cylinder is provided which serves for a mechanical trigger of a function with a safety system of a vehicle. By the safety system of the vehicle it can be an entry system like for example a central locking system. Likewise, it can be an alarm system or a vehicle immobilizer which can be actuated or served by a mechanical lock cylinder. The lock cylinder is thereby arrangeable at the moveable part by the carrier. Hereby, the fastening element can arrange the lock cylinder at the carrier particularly form fittingly. The lock cylinder can at least partially be fit through the preferably ring-like or bracket-like configured first part of the fastening element such that the fastening element serves not only for fastening of the door handle at the carrier but at the same time for fastening of the lock cylinder at the carrier. By this special form of the first part after the feeding through of at least one part of the lock cylinder and a subsequent displacement of the first part and therewith the fastening element the lock cylinder can be arranged in a simple and safe manner at the carrier and therewith at the moveable part of the door handle system.
In order to prevent a penetration of moisture through the opening in the movable part it can be intended that between the door handle and the outer side of the moveable part at least one sealing element is provided. By the existing sealing element the openings in the moveable part are closed during the assembly of the door handle since the door handle pushes to the sealing from the outside which intern is pressed against the outer side of the moveable part in order to seal the area about the openings in the moveable part. Further, these sealings effect that the door handle does not damage a coated surface of the outer side of the moveable part.
In order to achieve an increased tilt stability of the assembled door handle at the moveable part it is provided that the connecting means extending into the carrier are surrounded by complementary configured guidance areas in the carrier. Hereby, it is an advantage when the connecting means provide a certain length since therewith the contact area between the connecting means and the complementary configured guidance areas at the carrier is enlarged.
According to the invention it is provided that the fastening element comprises at least a first and a second part. Thereby, the second part can be provided for the fixation of the door handle at the carrier and the first part for the fixation of the closing cylinder. Therewith, the first and the second part receive a special function of the fastening element respectively.
Further, it is possible within the scope of the invention that at least at the second part of the fastening element counter guidance means are provided which interact with a guidance means at the carrier, particularly formfittingly. Therewith, the fastening element is at least also retained and possibly guided at the second part at the carrier. Additionally, this second part serves for the retaining of the door handle at the carrier.
The fastening element can for example be configured in form of a pusher which, however, can comprise a vertically offset contour which is ideally geometrically complementary to a contour of the carrier in order to be able to interact with the contour in the scope of a guidance, particularly linear guidance. Hereby, it is possible that the material strength of the fastening element varies within particularly critical parts of the fastening element are configured with a greater material strength. Thereby, these critical areas are for example the area about the fastening means of the fastening element. Particularly, the elastically deformable end of the second part of the fastening element can comprise another particularly thinner material strength for the configuration of the elastic deformability than the remaining parts of the first fastening element.
With a further measure improving the invention it can be intended that the adjustment element is particularly arranged directly at the carrier in an acceptance and that the fastening element is longitudinally displaceable between the release position and the fixing position. Hereby, the fastening element almost serves as a drive for the fastening element. The adjustment element itself can be configured as a screw or spring element, particularly with a resting means. The adjusting element configured as a screw is thereby with its screw head pivotably but stationary arranged in the acceptance of the carrier. The thread of the screw however is a thread of the fastening element, particularly in a thread hole at the frontal side of the ring-like or clip-shaped configured first part. A turning of the screw arranged in the carrier acceptance effects that the first part and therewith the whole fastening element along the thread of the screw is longitudinally displaceable. Insofar that the adjustment element is configured as a spring element this spring can stabilize in the acceptance at the carrier and push against the displaceable fastening element in order to transfer this from the release position into the fixing position. Ideally, the adjustment element configured as a spring element comprises a resting means, wherein the spring element is retained in an initial position in which the fastening element is in its released position. Thereby, that the resting means is detached from the spring element in the acceptance at the carrier the spring force of the spring element pushes the fastening element automatically in the fixing position. Since the spring force of the spring element acts permanently to the fastening element this is securely retained in the fixing position. A displacement of the fastening element from the fixing position into the release position can for example occur by a turning back of the adjustment element configured as a screw or by a counter pressure to the fastening element against the spring force of the spring element.
In order to avoid manipulations of the assembled door handle the adjustment element can be reachable and adjustable by a breakthrough in the movable part. Hereby, it is recommended that the adjustment element is not reachable from the outer side of the moveable part. Rather, the movable breakthrough in the moveable part can be arranged at the frontal side which is only reachable when the moveable part is at least partially opened, wherein the frontal side is released. In order to facilitate the assembly of the door handle system at the moveable part it can be provided that the adjusting element is formfittingly connected with a fastening element. Hereby, it can be achieved that the adjusting element is directly connected with the fastening element and a movement of the adjusting element directly acts to the fastening element. For this purpose, the adjusting element can be connected directly via a thread with a fastening element, particularly a thread hole in the ring-like or bracket-like configured first part of the fastening element or the adjustment element is materially bonded with a fastening element or the adjustment element is for example riveted, welded, soldered or glued to the fastening element.
Optionally, it is possible within the scope of the invention that at least a connecting means of the door handle is configured at least from one part from one material or monolithically with a door handle. Thereby, the connecting means are almost established by the door handle itself. The connecting means can also be welded or injected to the door handle or can be screwed to the door handle. Particularly, the connecting means can extend rod-like from the ends of the door handle and are particularly mainly adjusted orthogonally to the longitudinal extension of the door handle. By the orthogonal arrangement of the connecting means to the longitudinal extension of the door handle it can be achieved that the door handle can be assembled by a mainly perpendicular pre-accession to the moveable part.
Further, it can be intended according to the invention that both connecting means of the door handle are adjusted parallel to one another. Hereby, it is possible that the connecting means comprise different lengths. Particularly, with a non-symmetrical outer contour of the door handle an adjusted filling measuring of the connecting means to the moveable part or the therewith arranged carrier to the geometry is recommended.
Further, it is possible according to the invention that at the fastening element fastening means are arranged which are particularly provided at the second part. Hereby, the fastening means mechanically interact with the fixing position of the fastening element with a counter fixing means at the connecting means of the door handle. This mechanic interaction is normally formfittingly such that almost the fastening means of the fastening element lock the connection means with the help of the counter fastening means. Hereby, the counter fastening means at the connecting means can be configured as notches in which the fastening means of the fastening element are retracted by the displacement in the fixing position. In order to facilitate this retraction at least one leading inflow slope as at least a fastening means or the counter fastening means can be provided. As far as the counter fastening means at the connecting means of the door handle are configured as notches the leading inflow slope at the counter fastening means can be existent. At the same time at the fastening means and of the fastening element leading inflow slopes can be existent which are geometrically synchronized to the mechanically interacting leading inflow slopes at the door handle. Further, it should be mentioned that the counter fastening means at the connecting means do not necessarily have to be notches or recesses, but can further be indentations which can formfittingly interact with a fastening means of the fastening element. Ideally, the fastening means of the fastening element encompasses the counter fastening means at the connecting means on the door handle on both sides, wherein a particularly secure form fit for the retaining of the door handle at the moveable part results. Additionally, at the fastening means the already described preload means can be provided, wherein an improved fastening of the door handle is achievable.
The door handle system according to the invention can optionally be configured with at least one electronic unit which is technically or via cable or radio connectable with a security system of vehicle data. Hereby, it is possible that at least a part or the whole electronic is arrangeable in the door handle. In the door handle thereby for example at least one proximity sensor, an antenna to a communication with extern mobile identification device or a switch element can be arranged, wherein the comfort of the door handle system can be improved. Hereby, for example a Passive Keyless Entry or an Active Keyless Entry and a Passive Keyless Go system can be realized. For this purpose, it is provided that in the door handle a cavity is provided which can at least receive a part of the electronic unit. Further, the arrangement of a part of the electronic unit in the door handle has the advantage that between an approximation of a user to the vehicle and an interaction of the user into the recessed grip which is configured from the door handle and the moveable part can be distinguished based on technical measurement reasons. Hereby, the comfort with the access vehicle by the door handle system according to the invention can be significantly improved.
Further, it is possible that the previously described electronic unit comprises a light module which is preferably arrangeable in the door handle in order to realize an apron lighting. Likewise, in the door handle data interface in form of a Bluetooth or NFC (near field communication) interface can be existent. By these interfaces, an external data exchange between the security system or the vehicle electronic with an external device can be enabled in a simple manner without undertaking an access to the vehicle.
In order to be able to connect the door handle via a data connection with a safety system or the vehicle related electronic it can be provided that at at least one connecting means of the door handle an electronic plug connection is arranged which electrically interacts with a counter plug connection at the carrier. Ideally, the electric plug connection at the connecting means of the door handle is configured such that it is automatically connected with a counter plug connection at the carrier when the door handle is introduced through the opening at the moveable part into the carrier. A locking or fastening of the door handle by the displacement of the fastening element at the same time leads to a locking of the plug connection with the counter plug connection. In this manner, the assembly of the door handle system according to the invention can be further facilitated. Likewise, such a configuration of the electric plug connection at the connecting means comprises the advantage that a plug does not necessarily have to be manually connected from the inner side of the moveable part with the counter plug connection. However, it is possible that between the connecting means and the electric plug connection a wire is provided with which the plug connection of the door handle is geometrically flexible arrangeable at the carrier or at the inner side of the moveable part.
Further, it should be mentioned that at least the door handle or the carrier is producible as an injection moulding part, particularly from plastic. The door handle from plastic has the advantage that the electronic unit is partially arrangeable in the door handle without further effort. Thereby, the plastic preferably does not shield electro magnetic fields. In order to achieve a particularly stable configuration of the door handle system the carrier can at least partially be from a metal casting, particularly light metal casting. Further, it is an advantage when the carrier has honeycomb-like reinforcement rips which increase the stability of the carrier and at the same time reduces the weight. Ideally, the guidance means for the fastening means are injected at the carrier at the same time.
The present invention is further directed to a secure system for vehicle with a door handle system according to the invention. Likewise, the invention comprises a vehicle with at least one door handle system according to the invention or the security system according to the invention.
The present invention is further directed to a method for the assembly of the door handle system for the actuation of a moveable part of the vehicle, particularly a door or a hatchback door or suchlike according to the preamble of claim 20. According to the invention it is provided with such an assembly method that the following steps for the assembly of the door handle system at the moveable part of the vehicle are performed:
According to steps a), b), c) and d) it has to be noted that they can be performed in the chronological or temporal order a), b), c), d). Further, a subdivision of the previously said steps can occur. Thus, it is for example possible that in step d) by the adjustment of the fastening element into the fixing position both connecting means are fixed. Hereby, the fastening element can be subsequently displaced. Like previously described the adjustment can be performed automatically when for example the adjustment element comprises a spring which raises the necessary adjustment force.
Both parts of the fastening elements are assembled separately from one another assembled at the carrier. Particularly, both parts are assembled at the carrier such that those after the assembly are only moveable in one degree of freedom, particularly linear relative to the carrier. The coupling of the first part and the second part to one another occurs after the assembly of both parts at the carrier meaning that these are already guidably retained at the carrier.
Further, it is possible that in step b) the carrier is initially plugged to the moveable part and subsequently is secured with a fastening element at the moveable part. The plugging of the carrier at the moveable part can occur by the already described retaining means.
Further, a step c1) can be provided with which closing cylinder is introduced from the inner side of the moveable part into the carrier in order to be assembled to the carrier. Herefor, step d) can serve which at the same time by the adjustment of the fastening elements in the fixing position at the carrier through the fastening element at the same time fixes the closing cylinder. Thereby, the closing cylinder and the door handle are formfittingly retained in the fixing position at the same time in step d) by the fastening element.
It can be provided particularly preferred with a method that for a coupling of the first part, particularly at least a coupling element of the first part at the second part, particularly at at least a counter coupling element of the second part, the second part is elastically deformed at the edge facing the first part. Hereby, it can be ensured that after coupling of both parts to one another parts cannot be released by themselves. With an elastically deformation of the elastic deformable end of the second part the elastic deformable end is preloaded with a certain force. During the coupling the preload serves for a coupling of the at least one counter coupling element at at least one coupling element. Thus, the preload can serve for a secure latching of the at least one counter coupling element to the at least one coupling element. After coupling or latching the preload ensures that the second part cannot be released from the first part, particularly not when the door handle system is completely assembled.
Thus, with an assembly method it can be preferably provided that for the assembly of the second part of the fastening element at the carrier the longitudinal holes/recesses meaning the counter guidance means of the fastening element are aligned flush to the guidance means of the carrier and subsequently the second part can be plugged to the carrier past the guidance means of the carrier, wherein during the plugging of the second part to the carrier the second part elastically deforms at the end facing the first part and that subsequently by a deformation of the second part along the guidance means of the carrier in the direction of the first part. The second part is coupled with a first part, wherein the elastic end of the second part deforms in its initial position or mainly in its initial position previous to the elastic deformation meaning the second part is initially plugged to the carrier, wherein this can only occur when the guidance means of the carrier and the counter guidance means of the second part are aligned to one another that they can be guided past one another. The longitudinal holes/recesses of the second part in the guidance means of the carrier are preferably dimensioned such that the guidance means can be just guided through the longitudinal holes/recesses during plugging the second part to the carrier. In this plugging position the elastic deformable end of the second part is pushed against the first part, particularly against the coupling elements of the first part preferably configured as projections that the elastic deformable end elastically deforms by developing a pretension. Only when the two parts are moved towards another the coupling element of the first part and the counter coupling element of the second part are aligned to one another such that they can receive the desired coupling. By a displacement of the second part in direction of the first part it is ensured by the guidance means of the carrier or the counter guidance means of the second part that the second part is loss-proof retained at the carrier.
Likewise, with the assembly method according to the invention the door handle system according to the invention can be used like previously described with all features.
Further measures and advantages of the present invention result from the claims, the following description and the drawings. Likewise, the disclosed features from the door handle system according to the invention apply for the assembly method according to the invention and vice versa. In the drawings the invention is shown in different embodiments. Thereby, features described in the claims and in the description can be essential for the invention each single by themselves or in any combination. It is shown:
In the subsequent figures the identic reference signs are used for the same technical features even in different embodiments.
In
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In the second
In the further
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Thereby, the door handle system according to the invention at the moveable part 101 is shown which shows a vehicle door.
Number | Date | Country | Kind |
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10 2015 110 531.4 | Jun 2015 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/062218 | 5/31/2016 | WO | 00 |