EP3507439B1 - Motor-vehicle door handle assembly having an interlockingly fastened plug - Google Patents
Motor-vehicle door handle assembly having an interlockingly fastened plug Download PDFInfo
- Publication number
- EP3507439B1 EP3507439B1 EP17742172.4A EP17742172A EP3507439B1 EP 3507439 B1 EP3507439 B1 EP 3507439B1 EP 17742172 A EP17742172 A EP 17742172A EP 3507439 B1 EP3507439 B1 EP 3507439B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- antenna
- plug
- trough
- vehicle door
- motor
- 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.)
- Not-in-force
Links
- 229920003023 plastic Polymers 0.000 claims description 50
- 239000004033 plastic Substances 0.000 claims description 50
- 230000005294 ferromagnetic effect Effects 0.000 claims description 42
- 150000001875 compounds Chemical class 0.000 claims description 30
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- 238000004382 potting Methods 0.000 description 39
- 239000000463 material Substances 0.000 description 20
- 238000000034 method Methods 0.000 description 19
- 238000004519 manufacturing process Methods 0.000 description 14
- 238000001746 injection moulding Methods 0.000 description 12
- 238000005476 soldering Methods 0.000 description 12
- 238000005452 bending Methods 0.000 description 11
- 238000005538 encapsulation Methods 0.000 description 8
- 238000003780 insertion Methods 0.000 description 7
- 230000037431 insertion Effects 0.000 description 7
- 230000000712 assembly Effects 0.000 description 6
- 238000000429 assembly Methods 0.000 description 6
- 238000004804 winding Methods 0.000 description 6
- 230000008878 coupling Effects 0.000 description 5
- 238000010168 coupling process Methods 0.000 description 5
- 238000005859 coupling reaction Methods 0.000 description 5
- 238000002347 injection Methods 0.000 description 5
- 239000007924 injection Substances 0.000 description 5
- 210000001331 nose Anatomy 0.000 description 5
- 238000007789 sealing Methods 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- BASFCYQUMIYNBI-UHFFFAOYSA-N platinum Chemical compound [Pt] BASFCYQUMIYNBI-UHFFFAOYSA-N 0.000 description 4
- 238000004026 adhesive bonding Methods 0.000 description 2
- 238000013461 design Methods 0.000 description 2
- 238000007667 floating Methods 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 230000002441 reversible effect Effects 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000013016 damping Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000018109 developmental process Effects 0.000 description 1
- 210000003128 head Anatomy 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 229910000679 solder Inorganic materials 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
- 230000003313 weakening effect Effects 0.000 description 1
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Images
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
- E05B79/02—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
- E05B81/00—Power-actuated vehicle locks
- E05B81/54—Electrical circuits
- E05B81/64—Monitoring or sensing, e.g. by using switches or sensors
- E05B81/76—Detection of handle operation; Detection of a user approaching a handle; Electrical switching actions performed by door handles
- E05B81/77—Detection of handle operation; Detection of a user approaching a handle; Electrical switching actions performed by door handles comprising sensors detecting the presence of the hand of a user
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B81/00—Power-actuated vehicle locks
- E05B81/54—Electrical circuits
- E05B81/64—Monitoring or sensing, e.g. by using switches or sensors
- E05B81/76—Detection of handle operation; Detection of a user approaching a handle; Electrical switching actions performed by door handles
- E05B81/78—Detection of handle operation; Detection of a user approaching a handle; Electrical switching actions performed by door handles as part of a hands-free locking or unlocking operation
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B85/00—Details of vehicle locks not provided for in groups E05B77/00 - E05B83/00
- E05B85/10—Handles
- E05B85/14—Handles pivoted about an axis parallel to the wing
- E05B85/16—Handles pivoted about an axis parallel to the wing a longitudinal grip part being pivoted at one end about an axis perpendicular to the longitudinal axis of the grip part
Definitions
- the invention relates to a motor vehicle door handle arrangement according to the preamble of claim 1.
- Such motor vehicle door handle assemblies with a handle for operating the door of a motor vehicle are known. It is also known to arrange electronic components, such as an antenna, a coil wound around the antenna, in the handle for the automatic establishment of a radio connection to an external identification transmitter and / or sensors.
- electronic components such as an antenna, a coil wound around the antenna, in the handle for the automatic establishment of a radio connection to an external identification transmitter and / or sensors.
- winding and coil are used synonymously.
- the object of the invention is to provide a motor vehicle door handle arrangement in which manufacture and assembly are simplified.
- the motor vehicle door handle arrangement with a handle wherein one or more sensors and / or electronic assemblies are arranged in the handle and the handle has at least one plug for making electrical contacts for one or more sensors and / or electronic assemblies and at least one tub for Receiving one or more sensors and / or electronic assemblies, it is that the plug and the tub are positively and / or non-positively and / or frictionally and / or cohesively connected to one another.
- connection between the plug and the tub can thus be produced by a form fit and / or a force fit and / or a frictional fit and / or a material fit.
- connection types mentioned can be used here.
- the material bond can be generated by welding and / or by gluing.
- the positive and / or non-positive and / or frictional and / or material connection between the plug and the tub provides a positioning and assembly aid when the connector is inserted into the tub.
- the tub which holds one or more sensors and / or electronic assemblies such as a circuit board, is also suitable for being filled with a hardening potting compound that protects the built-in components after the sensors and / or electronic assemblies have been inserted.
- the tub is filled with potting compound after the plug has been inserted, in particular after a circuit board connected to the plug has been received in the tub.
- the tub is potted with hardening potting compound.
- the electronic components and electrically conductive contacts arranged in the tub are protected against moisture by the potting compound.
- the potting compound also serves as a damper against vibrations.
- the handle has an electronics chamber in which the tub and the plug are received.
- the outer contour of the plug and the inner contour of the tub preferably form a form fit.
- the outer contour of the plug has one or more recesses and / or projections which interact as a positioning aid when the plug is inserted into the tub with corresponding counterparts on the inner contour of the tub.
- the plug and the trough are preferably connected to one another by means of at least one hook engaging behind an undercut on the counterpart fixed.
- the plug can have at least one hook-shaped projection which engages behind an undercut on the tub.
- the tub can have at least one hook-shaped projection which engages behind an undercut on the plug.
- the plug is preferably produced by single or repeated plastic encapsulation of prefabricated contact pins. In the case of multiple plastic encapsulation, the same plastic can be used repeatedly, or the multiple plastic encapsulation is carried out with different plastic materials which have different material properties.
- the connector produced in this way can be adapted to the requirements with regard to strength and deformability, for example in order to implement a clip connection without the risk of an integrally formed nose or the like breaking off.
- the plug can also be produced by plugging together and / or gluing several prefabricated plastic components.
- the plug is preferably connected to a circuit board, in particular soldered, the circuit board being received in the trough. Because the board is arranged in the tub, the board is at the same time protected against external influences by the tub.
- the handle particularly preferably has an antenna chamber in which a second assembly with electronic components with at least one ferromagnetic core and a coil wound around the core and wherein the second chamber is potted with potting compound after the insertion of the second assembly.
- the electronic components and electrically conductive contacts arranged in the antenna chamber are protected against moisture by the potting compound.
- the potting compound also serves as a damper against vibrations.
- the handle preferably has an antenna chamber in which an antenna carrier lies, which accommodates a ferromagnetic core and a coil wound around the core, the ferromagnetic core being in a form-fitting manner in the antenna carrier.
- the ferromagnetic core is preferably inserted in the direction of its longitudinal extension into a groove-shaped or dovetail-shaped receptacle in the antenna carrier.
- the ferromagnetic core is formed by a cuboid shape, the extension in the longitudinal direction being made significantly larger than in the other two dimensions perpendicular to its longitudinal direction.
- the term “inserting the core in its longitudinal direction” accordingly means an insertion direction parallel to the longitudinal extension of the ferromagnetic core.
- the antenna carrier has a receptacle with a correspondingly contoured cross section. The assembly of the ferromagnetic core is done by simply pushing it into this receptacle of the antenna carrier.
- the receptacle of the antenna carrier can be designed in the shape of a groove or a dovetail.
- the ferromagnetic core is preferably formed by two parts, in particular two parts of equal length in the direction of the longitudinal extension of the core, which lie one behind the other in the antenna carrier.
- the ferromagnetic core can thus be formed by two or more sections lying one behind the other in the longitudinal direction.
- the ferromagnetic core can be divided centrally in the longitudinal direction into two sections of equal length. Dividing the ferromagnetic core into two or more sections creates a bending area or areas Bending areas formed. Such a bending area prevents damage to the ferromagnetic core as a result of slight deformation of the handle.
- the antenna carrier preferably has at least one bending area, the bending area being formed by a material recess.
- the bending areas formed by the material recess are preferably positioned in such a way that they are aligned perpendicular to the longitudinal extension of the ferromagnetic core with the dividing line of a division of the core into several sections. This means that the subdivision of the core forming a bending area of the core and the bending area of the antenna carrier lie in the same plane perpendicular to the longitudinal extension of the ferromagnetic core.
- the arrangement of such a bending area on the antenna carrier also serves to avoid damage as a result of a slight deformation of the handle.
- the coil is preferably wound around the antenna carrier in which the core lies.
- the antenna carrier preferably accommodates at least one sensor plate of a capacitive proximity sensor. Accordingly, in addition to the ferromagnetic core of the antenna, the antenna carrier can also accommodate a sensor plate of a capacitive proximity sensor.
- At least one sensor sheet of a capacitive proximity sensor is preferably a form-fitting in the antenna carrier, in particular a sensor sheet of a capacitive proximity sensor can be inserted in the direction of its longitudinal extension into a groove-shaped or dovetail-shaped receptacle of the antenna carrier, in particular the sensor sheet of a capacitive proximity sensor can be inserted in the opposite direction to one inserted in the antenna carrier ferromagnetic core be inserted into a receptacle.
- the term "pushing in the opposite direction” denotes the direction of movement during the respective assembly.
- the ferromagnetic core can be inserted from the rear end of the antenna carrier into a corresponding receptacle of the antenna carrier for the core and the sensor plate can be inserted from the front end of the antenna carrier into a corresponding receptacle of the antenna carrier for the sensor plate, or vice versa.
- At least one sensor plate of a capacitive proximity sensor is in a form-fitting manner in the antenna carrier and is pushed in the direction of its longitudinal extension into a groove-shaped receptacle of the antenna carrier, the sensor plate and / or the antenna carrier having / have a latching connection in which the sensor plate is in a pre-assembly position releasably latched in order to enable the assembly of a plug on the sensor plate.
- the sensor plate can have one or more recesses on one or both longitudinal edges, into which the projections of the antenna carrier engage and the sensor plate can be releasably latched in a pre-assembly position.
- the antenna carrier can have one or more recesses on the inside, into which protrusions on one or both longitudinal edges of the sensor plate engage and the sensor plate detachably latch in a pre-assembly position.
- this pre-assembly position it is possible to put on a connection piece for producing electrically conductive connections for connecting the sensor plate and the antenna to an electronic assembly of the motor vehicle door handle arrangement. After the connection piece has been installed, the sensor plate with the connection piece can be pushed into its final assembly position, the sensor plate and / or the connection piece being / are preferably fixed by reaching behind an undercut on the antenna carrier.
- an undercut on the connector and / or on the sensor plate and / or on the antenna carrier is engaged from behind by a corresponding counterpart on the respective corresponding component.
- the plug contacts are preferably encapsulated with plastic and form a connector, the outer contour of the connector having one or more recesses and / or grooves and / or projections that act as a positioning aid and / or seal when the connector with the antenna carrier is inserted into an antenna chamber of the handle serve and interact with corresponding counterparts on the contour of the antenna chamber.
- connection piece and antenna carrier are preferably encapsulated with plastic and form a connection piece, the connection piece and the antenna carrier being formed in one piece, in particular made of the same material.
- the connection piece and antenna carrier can thus be produced in one piece and in particular with the same material by a single plastic injection molding process.
- the handle preferably has an antenna chamber in which at least the antenna carrier with the ferromagnetic core and the coil wound around the core and / or the antenna carrier is received and the antenna chamber is potted with potting compound after the antenna carrier has been inserted.
- the antenna chamber By potting the antenna chamber with a hardening potting compound, the antenna is protected against moisture and vibrations.
- the antenna chamber thus forms the installation space for receiving the antenna in the handle, which is potted with potting compound after the antenna has been inserted.
- the plug-in contacts are preferably encapsulated with plastic once or repeatedly and form a connecting piece; in particular, a softer material serving as a seal for an antenna chamber and / or electronics chamber can be used for a second encapsulation of plastic.
- a softer material serving as a seal for an antenna chamber and / or electronics chamber can be used for a second encapsulation of plastic.
- the same plastic material or different plastic materials can be used with several plastic injection processes different properties are used. In a first plastic injection molding process, a harder material can thus be used to form a stable connection piece.
- This preliminary stage can be overmolded with a softer plastic material in a second plastic injection molding process, as a result of which a seal is formed on the outside of the connection piece.
- This seal of the connection piece particularly preferably serves at least as a seal for an antenna chamber in the handle in which the antenna rests.
- the plug contacts are preferably connected to a circuit board, in particular are soldered to the circuit board, and the circuit board is received in a trough.
- the circuit board can be equipped with electronic components.
- the motor vehicle door handle arrangement preferably has a tub for receiving a circuit board after inserting the plug contacts and / or a circuit board, the tub being filled with potting compound in particular after receiving a pre-assembled circuit board connected to the plug contacts in the tub.
- the handle has an electronics chamber in which the tub, preferably with a circuit board received therein, and the plug are received.
- FIG. 1a contact pins 11, 12, 13 are shown, which are encapsulated with plastic in a first manufacturing step.
- the positive form 14 of the first plastic encapsulation of the contact pins 11, 12, 13 is shown in FIG Figure 1b shown.
- FIG Figure 1c After the first process step of the plastic encapsulation of the contact pins 11, 12, 13 with the positive mold 14, the preliminary stage 15 of the connector is formed, as shown in FIG Figure 1c is shown.
- Fig. 2 will this be in Fig. 2a illustrated preliminary stage 15 with the positive form 16 according to Figure 2b
- plastic-coated to form the connection piece 10 according to FIG Figure 2c plastic-coated to form the connection piece 10 according to FIG Figure 2c .
- the positive form 16 of the second plastic encapsulation has two grooves 17, 18 each spanning three outer sides on the outside. The orientation of the two grooves 17, 18 each spanning three outer sides is opposite. These grooves 17, 18 form sealing areas.
- the outer section 16 forms seals which interact with chambers in which electronic components of the motor vehicle door handle arrangement are located and which seal these chambers. The assembly and functionality is explained below.
- the contact pins 11, 12, 13 are used to couple the antenna and the sensor plate of the capacitive proximity sensor with the electronics of the motor vehicle door handle.
- the contact pins 11, 12, 13 are encapsulated in two steps using different types of plastic.
- a harder plastic is used.
- a softer plastic is used which is suitable for serving as a sealing element and which is therefore more malleable than the plastic of the preliminary stage 15.
- connection piece 10 is produced in a single plastic injection molding process using a plastic suitable as a sealing element.
- the contact pins 11, 12, 13 are encapsulated with the plastic suitable as a seal in a single plastic injection molding process.
- Fig. 3 shows the antenna carrier 20 produced as a plastic injection-molded part, in which the ferromagnetic core 21 of the antenna is inserted.
- the ferromagnetic core 21 lies in a form-fitting manner in the antenna carrier 20 and is for this purpose in the image plane according to FIG Fig. 3 inserted into the antenna support 20 from the right.
- the ferromagnetic core 21 has grooves 22, 23 which are pushed over corresponding projections 24 on the inside of the antenna carrier 20.
- the ferromagnetic core 21 rests in the antenna carrier 20 in a form-fitting manner.
- the ferromagnetic core 21 is divided in the middle and thus designed in two parts.
- the antenna carrier 20 has material recesses 25 which are aligned with the dividing line between the two parts of the ferromagnetic core 21.
- the weakened material 25 of the antenna carrier 20 and the central division of the ferromagnetic core 21 creates a bending area which is used to allow slight deformations of the antenna carrier 20 as a result of an operation of the handle by a user, without this leading to damage to the ferromagnetic core 21.
- Fig. 4 shows the application of the winding 26 to the antenna carrier 20 and the ferromagnetic core 21 lying in the antenna carrier 20.
- Fig. 5 shows the assembly of the sensor plate 27 of the capacitive proximity sensor in the antenna carrier 20.
- the sensor plate 27 is pushed against the direction of insertion of the ferromagnetic core 21 into a corresponding receptacle on the antenna carrier 20, as shown in FIG Fig. 5 is shown.
- the antenna carrier 20 has a corresponding one for this purpose Receiving area on its underside, in which the sensor plate 27 rests in the antenna carrier 20 after assembly.
- the sensor plate 27 and antenna carrier 20 have notches 28 for locking the sensor plate 27 onto the antenna carrier 20 in a pre-assembly position.
- This pre-assembly position according to Fig. 5 is used to assemble the connecting piece 10, in which the recess on the sensor sheet metal contact pin 13 of the connecting piece 10 is placed on the upwardly bent contact 29 of the sensor sheet 27, as shown in FIG Fig. 6 is shown.
- the notches 28 are created in the illustrated embodiment by outside noses on the sensor plate 27, which in the preassembly position according to FIG Fig. 5 engage in corresponding recesses in the lateral guide for the sensor plate 27 on the antenna carrier 20. Since the antenna carrier 20 is formed from a plastic injection-molded part and accordingly has a reversible deformability, the sensor sheet 27 can easily and without damage to the sensor sheet 27 or the antenna carrier 20 from the pre-assembly position according to FIG Fig. 5 be pushed further towards its end position.
- the notches can also be designed kinematically reversed, in that lugs on the lateral guide for the sensor plate 27 on the antenna carrier 20 engage in correspondingly positioned recesses on the side edges of the sensor plate 27 in the preassembly position of the sensor plate 27.
- the sensor plate 27 with the connector 10 placed thereon is pushed into the antenna carrier 20 in its final position as shown in FIG Fig. 7 .
- the antenna contact pins 11, 12 come into contact with the antenna.
- Fig. 8 shows the solder points circled. Accordingly, the contact pins 11, 12, 13 are attached to the in Fig. 8 marked points soldered. Through this a permanent electrically conductive connection between the contact pins 11, 12, 13 and the antenna and the sensor plate 27 is created.
- a preassembled antenna assembly 50 is thus created from the antenna carrier 20 and the connection piece 10 attached to it and the further components described above.
- Fig. 9 shows an alternative embodiment of the antenna support.
- the alternative embodiment according to Fig. 9 are contact pins 11 ', 12', 13 'in a first plastic injection molding process with the in Fig. 9 shown positive form 14 'encapsulated.
- the antenna carrier including the base of the connection piece is produced as a preliminary stage 15 'in one piece and with the same material by encapsulating the contact pins 11', 12 ', 13' with plastic.
- a second overmolding process then takes place with the positive mold 16 'with a softer plastic that is suitable as a seal.
- the production of the antenna carrier 20 'formed in one piece as an antenna carrier 20' with an integrated connecting piece with the sealing element 16 ', its geometric design and function with regard to the grooves 17', 18 'arranged on the outside of the previously based on the Figures 1 to 8 illustrated embodiment corresponds.
- the contact pins 11 ', 12', 13 ' can also be encapsulated in a single process with a plastic suitable as a sealing element.
- Fig. 11 the assembly of the ferromagnetic core 21 in the antenna carrier 20 'is shown.
- the winding 27 is then applied to the antenna carrier 20 ′ and the ferromagnetic core 21.
- the antenna carrier 20 'again has material weakenings 25 for the formation of a bending area.
- the ferromagnetic core 21 is also divided in the middle, so that the central division of the ferromagnetic core 21 and the recesses 25 in the Align antenna supports 20 '.
- the ferromagnetic core is formed in one piece.
- Fig. 13 Then follows the insertion of the sensor plate 27 of the capacitive proximity sensor from below into the antenna carrier 20 '. In this case, it is inserted from below, since it is not possible to insert it from the front due to the one-piece design of the antenna carrier 20 'with the connector.
- Fig. 14 again shows the soldering points for soldering the contact pins 11 ′, 12 ′, 13 ′ to the corresponding antenna contacts or to the contact 29 on the sensor plate 27.
- the antenna of the antenna carrier assembly is used for remote control of the locking system by a user and for forwarding the corresponding radio signals to the electronics on the circuit board 40 according to FIG Figure 17 as explained below.
- the sensor plate 27 of the capacitive proximity sensor is used to detect that a user is reaching behind the handle in order to activate the electronics of the motor vehicle door handle arrangement.
- a connector is provided, which can be produced using the Figures 15 and 16 is explained.
- the manufacturing process for manufacturing the plug 30 can be carried out in a single plastic injection molding process when the contact pins 31, 32 are overmolded.
- the connector is made in one piece and made of the same material.
- Fig. 17 shows the circuit board 40 of the motor vehicle door handle arrangement equipped with electronic components.
- the populated circuit board 40 is used for processing and forwarding the signals from the antenna and from the sensor plate 27 and for coupling to the vehicle electronics via the connector 30.
- Fig. 18 the process of assembling the plug 30 by inserting it from below into the circuit board 40 and also the assembly of the preassembled antenna assembly 50 on the circuit board 40 is shown.
- the plug 30 is mounted by inserting it from below into the circuit board 40 in corresponding contact points.
- the assembly is carried out by inserting the contact pins 31, 32 from below into corresponding through-holes in the circuit board 40.
- the antenna assembly 50 is again plugged into corresponding recesses in the circuit board 40 from the top.
- the assembly takes place by inserting the contact pins 11, 12, 13 of the antenna assembly 50 from above into corresponding through bores in the circuit board 40.
- Fig. 19 shows the soldering points for connecting the contact pins 11, 12, 13, 31, 32 and the sheet metal 41 for locking on the circuit board 40.
- the soldering points are shown in FIG Fig. 19 circled.
- the soldering of all contact points on the circuit board 40 takes place from the top of the circuit board 40, as shown in FIG Fig. 19 is shown. This means that the soldering of the contact pins on the circuit board 40 takes place from the same side, although the plug 30 is inserted into the circuit board 40 from a different side than the antenna assembly 50 and the locking plate 41.
- the module 60 thus comprises the antenna carrier 20, which receives the antenna with the ferromagnetic core and the coil as well as the sensor sheet, the connector 10, through which electrically conductive contact pins from the antenna and the sensor sheet to the circuit board 40 equipped with electronic components and with this are connected, wherein the circuit board 40 is also connected to the connector 30, which is used to produce the electrical contacts for the electronic assembly of the module 60, and wherein the circuit board 40 is connected to electrical contact pins of the connector.
- the circuit board 40 forms a load-bearing component of the module 60.
- Fig. 20 shows the further assembly of the preassembled electronic assembly in the form of the module 60 with the insertion into the trough 70, which is used to hold the circuit board 40.
- the trough 70 thus completely accommodates the circuit board 40 including the soldered contacts.
- the tub 70 has corresponding positioning aids 71, 72 which form a form fit with corresponding recesses on the outer edges of the circuit board 40.
- the module 60 is thus positioned by the positioning aids 71, 72 on the trough 70, which form a form fit with corresponding counterparts on the board 40.
- the entire arrangement is fixed in that a nose 73 is attached to the Trough 70 engages behind an undercut 36 on plug 30.
- By clipping in according to Fig. 20 the fixation of the tub 70 on the plug 30.
- These positioning aids 71, 72 and the nose 73 on the tub 70 as well as the undercut 36 on the plug 30 are shown in the enlarged detailed representations according to FIG Fig. 20 .
- the positioning aids 71, 72 which form a form fit, are formed by bulges on the inside on the trough 70, which engage in recesses on the outer edges of the board 40.
- a reverse configuration is also possible, in which one or more lugs or projections on the outer edges of the board engage in corresponding recesses in the tub and thereby produce a form fit that serves as a positioning and assembly aid.
- Fig. 21 the potting process of the trough 70 with the circuit board 40 inserted therein is shown.
- the trough 70 with the board 40 lying therein is potted with hardening potting compound.
- This potting compound serves to protect the electronic components of the circuit board 40 in the trough 70 and forms both protection against moisture and at the same time a damping element against vibrations.
- the tub 70 is sealed by means of the seal 16.
- the tub 70 has a recess in which the seal 16 rests with the groove 17 in a form-fitting and force-fitting manner.
- the wall of the trough 70 lies in the groove 17 of the seal 16 in a form-fitting manner.
- a clamping effect is generated between the wall of the trough 70 and the seal 16.
- the seal 16 is formed from a reversibly deformable plastic suitable as a seal.
- the tub groove 17 of the seal 16 and the recess of the tub 70 are accordingly matched to one another. The tub groove 17 thus simultaneously forms a positioning aid when inserting the circuit board 40 of the electronics module 60 into the tub 70.
- the clamping effect of the seal 16 in the recess in the wall of the tub 70 simultaneously secures and fixes the circuit board 40 against floating during the potting process.
- the Potting compound hardens after the potting process.
- the potting compound forms a protection of the circuit board 40 and the soldered contacts against moisture.
- the potting compound also serves as a damper against vibrations.
- the electronic assembly 75 is created for further assembly in the handle of the motor vehicle door handle arrangement.
- the assembly of the assembly 75 in the handle 80 of the motor vehicle door handle assembly is based on Fig. 22 explained.
- the preassembled assembly 75 with the tub 70 filled with potting compound and the plug 30 is oriented in the opposite direction to that in FIG Fig. 22 recognizable inserted into the handle 80.
- the insertion takes place in such a way that the antenna assembly 50 rests in the antenna chamber 81 in the handle 80, while at the same time the tub 70 in the electronics chamber 83 rests in the handle 80.
- the antenna chamber 81 in the handle 80 is also sealed by means of the seal 16.
- the wall of the antenna chamber 81 has a recess 82 in which the seal 16 with the groove 18 rests in a form-fitting and non-positive manner.
- the seal 16 On the outside, the seal 16 has the second groove 18 serving as an antenna chamber groove.
- the antenna chamber groove 18, like the tub groove 17, is designed as a circumferential groove on the outside of the seal 16. Since the orientation when the seal 16 is inserted into the trough 70 is opposite to the orientation when the seal 16 is inserted into the antenna chamber, the grooves 17, 18 of the seal 16 spanning three outer sides of the seal 16 are also arranged in opposite directions.
- the wall of the antenna chamber 81 lies in the groove 18 of the seal 16 in a form-fitting manner. At the same time, a clamping effect is generated between the wall of the antenna chamber 81 and the seal 16.
- the seal 16 is formed, as explained above, from a reversibly deformable plastic suitable as a seal.
- the antenna chamber groove 18 of the seal 16 and the recess 82 of the antenna chamber 81 are corresponding coordinated.
- the antenna chamber groove 18 thus simultaneously forms a positioning aid when inserting the antenna assembly 50 of the electronics module 60 into the antenna chamber 81.By the clamping effect of the seal 16 in the recess 82 in the wall of the antenna chamber 81, the antenna assembly 50 is secured against floating during the potting process explained below and fixed.
- the potting compound hardens after the potting process.
- the antenna chamber 81 is potted with potting compound, as shown in FIG Fig. 23 is indicated. Since the trough 70 is now oriented the other way round, it is clear that the casting of the trough 70 and the antenna chamber 81 take place from opposite directions.
- the potting of the antenna chamber 81 with potting compound in turn serves to protect the antenna assembly 50 from moisture and vibrations, since the potting compound hardens in the antenna chamber 81.
- the potting compound thus forms a protection of the antenna assembly 50 and the soldered contacts against moisture.
- the potting compound also serves as a damper against vibrations.
- a flexible pad 85 is then glued onto the tub 70, as shown in FIG Fig. 24 is recognizable.
- the pad 85 serves to seal against water and ensures the function of the capacitive sensor plate 41 for unlocking.
- the pad 85 serves to dampen vibrations.
- the outer shell 90 is mounted on the handle 80, as shown in FIG Fig. 25 is recognizable. Also in Fig. 25 The axis of rotation 101 can be seen around which the entire arrangement according to FIG Fig. 25 is rotatable when installed.
- the complete handle arrangement 100 is mounted in a corresponding receptacle in the body of a motor vehicle. In the Fig. 25 The handle arrangement 100 shown is installed in a corresponding housing or directly in the motor vehicle body.
- the axis of rotation 101 of the handle arrangement 100 is usually at the front in the direction of travel, so that the handle hook 102 at the rear end of the handle arrangement 100 can be pulled out to the outside of the motor vehicle and acts on the door lock via a corresponding coupling and enables the motor vehicle door to be opened when the door lock is unlocked.
- the arrangement of the handle assembly 100 according to FIG Fig. 25 however, it is arbitrary. In particular, this can also take place the other way round on the motor vehicle or also vertically.
- the outer shell 90 has a recess 91 through which a key is inserted in the Fig. 25 lock, not shown, can be inserted.
- the door lock of the motor vehicle is in alignment behind the recess 91 of the outer shell 90.
Landscapes
- Lock And Its Accessories (AREA)
Description
Die Erfindung betrifft eine Kraftfahrzeugtürgriffanordnung nach dem Oberbegriff gemäß Anspruch 1.The invention relates to a motor vehicle door handle arrangement according to the preamble of claim 1.
Derartige Kraftfahrzeugtürgriffanordnungen mit einem Handgriff zur Türbetätigung eines Kraftfahrzeuges sind bekannt. Ferner ist es bekannt, in dem Handgriff elektronische Komponenten wie beispielsweise eine Antenne, einer um die Antenne gewickelten Spule zum automatischen Aufbau einer Funkverbindung zu einem externen Identifikationsgeber und/oder Sensoren anzuordnen. Die Begriffe Wicklung und Spule werden synonym verwendet.Such motor vehicle door handle assemblies with a handle for operating the door of a motor vehicle are known. It is also known to arrange electronic components, such as an antenna, a coil wound around the antenna, in the handle for the automatic establishment of a radio connection to an external identification transmitter and / or sensors. The terms winding and coil are used synonymously.
Aus
Die Aufgabe der Erfindung ist es, eine Kraftfahrzeugtürgriffanordnung anzugeben, bei der die Herstellung und Montage vereinfacht ist.The object of the invention is to provide a motor vehicle door handle arrangement in which manufacture and assembly are simplified.
Diese Aufgabe wird erfindungsgemäß durch eine Kraftfahrzeugtürgriffanordnung gemäß Anspruch 1 gelöst. Vorteilhafte Weiterbildungen der Erfindung sind in den Unteransprüchen angegeben.This object is achieved according to the invention by a motor vehicle door handle arrangement according to claim 1. Advantageous further developments of the invention are specified in the subclaims.
Besonders vorteilhaft bei der Kraftfahrzeugtürgriffanordnung mit einem Handgriff, wobei in dem Handgriff ein oder mehrere Sensoren und/oder Elektronikbaugruppen angeordnet sind und der Handgriff zumindest einen Stecker zur Herstellung von elektrischen Kontakten für einen oder mehrere Sensoren und/oder Elektronikbaugruppen und zumindest eine Wanne zur Aufnahme eines oder mehrerer Sensoren und/oder Elektronikbaugruppen aufweist, ist es, dass der Stecker und die Wanne formschlüssig und/oder kraftschlüssig und/oder reibschlüssig und/oder stoffschlüssig miteinander verbunden sind.Particularly advantageous in the motor vehicle door handle arrangement with a handle, wherein one or more sensors and / or electronic assemblies are arranged in the handle and the handle has at least one plug for making electrical contacts for one or more sensors and / or electronic assemblies and at least one tub for Receiving one or more sensors and / or electronic assemblies, it is that the plug and the tub are positively and / or non-positively and / or frictionally and / or cohesively connected to one another.
Die Verbindung zwischen dem Stecker und der Wanne kann somit durch einen Formschluss und/oder einen Kraftschluss und/oder einen Reibschluss und/oder einen Stoffschluss erzeugt werden. Dabei kann eine oder kumulativ mehrere der genannten Verbindungsarten zum Einsatz kommen. Der Stoffschluss kann dabei mittels Schweißen und/oder mittels Kleben erzeugt werden.The connection between the plug and the tub can thus be produced by a form fit and / or a force fit and / or a frictional fit and / or a material fit. One or more of the connection types mentioned can be used here. The material bond can be generated by welding and / or by gluing.
Durch die formschlüssige und/oder kraftschlüssige und/oder reibschlüssige und/oder stoffschlüssige Verbindung zwischen dem Stecker und der Wanne wird gleichzeitig eine Positionierungs- und Montagehilfe beim Einsetzen des Steckers in die Wanne geschaffen. Die Wanne, welche einen oder mehrere Sensoren und/oder Elektronikbaugruppen wie beispielsweise eine Platine aufnimmt, ist gleichzeitig geeignet, nach dem Einsetzen der Sensoren und/oder Elektronikbaugruppen mit einer aushärtenden und die eingebauten Bauteile schützenden Vergussmasse ausgegossen zu werden.The positive and / or non-positive and / or frictional and / or material connection between the plug and the tub provides a positioning and assembly aid when the connector is inserted into the tub. The tub, which holds one or more sensors and / or electronic assemblies such as a circuit board, is also suitable for being filled with a hardening potting compound that protects the built-in components after the sensors and / or electronic assemblies have been inserted.
Erfindungsgemäß wird die Wanne nach dem Einsetzen des Steckers, insbesondere nach der Aufnahme einer mit dem Stecker verbundenen Platine in der Wanne, mit Vergussmasse gefüllt. Das bedeutet, dass die Wanne mit aushärtender Vergussmasse vergossen ist. Durch die Vergussmasse werden die in der Wanne angeordneten elektronischen Bauteile und elektrisch leitenden Kontakte gegen Feuchtigkeit geschützt. Ferner dient die Vergussmasse als Dämpfer gegen Vibrationen.According to the invention, the tub is filled with potting compound after the plug has been inserted, in particular after a circuit board connected to the plug has been received in the tub. This means that the tub is potted with hardening potting compound. The electronic components and electrically conductive contacts arranged in the tub are protected against moisture by the potting compound. The potting compound also serves as a damper against vibrations.
Erfindungsgemäß weist der Handgriff eine Elektronikkammer auf, in welcher die Wanne und der Stecker aufgenommen werden.According to the invention, the handle has an electronics chamber in which the tub and the plug are received.
Vorzugsweise bilden die Außenkontur des Steckers und die Innenkontur der Wanne einen Formschluss.The outer contour of the plug and the inner contour of the tub preferably form a form fit.
Besonders bevorzugt weist die Außenkontur des Steckers eine oder mehrere Ausnehmungen und/oder Vorsprünge auf, die als Positionierhilfe beim Einsetzen des Steckers in die Wanne mit entsprechenden Gegenstücken an der Innenkontur der Wanne zusammenwirken.Particularly preferably, the outer contour of the plug has one or more recesses and / or projections which interact as a positioning aid when the plug is inserted into the tub with corresponding counterparts on the inner contour of the tub.
Vorzugsweise sind der Stecker und die Wanne mittels zumindest eines eine Hinterschneidung an dem Gegenstück hintergreifenden Hakens aneinander fixiert. Dies bedeutet, dass der Stecker und die Wanne aneinander geclipst werden. Dabei kann der Stecker zumindest einen hakenförmigen Vorsprung aufweisen, der eine Hinterschneidung an der Wanne hintergreift. Alternativ oder kumulativ kann die Wanne zumindest einen hakenförmigen Vorsprung aufweisen, der eine Hinterschneidung an dem Stecker hintergreift. Vorzugsweise ist der Stecker durch einmaliges oder wiederholtes Kunststoffumspritzen vorgefertigter Kontaktstifte hergestellt. Bei einem mehrmaligen Kunststoffumspritzen kann wiederholt derselbe Kunststoff zum Einsatz kommen, oder das mehrmalige Kunststoffumspritzen wird mit unterschiedlichen Kunststoffwerkstoffen durchgeführt, die unterschiedliche Materialeigenschaften aufweisen. Hierdurch kann der auf diese Weise produzierte Stecker den Anforderungen in Bezug auf Festigkeit und Verformbarkeit angepasst werden, um beispielsweise eine Clipsverbindung zu realisieren, ohne dass die Gefahr des Abbrechens einer angeformten Nase oder dergleichen besteht. Alternativ kann der Stecker auch durch ein Zusammenstecken und/oder Kleben mehrerer vorgefertigter Kunststoffbauteile hergestellt werden.The plug and the trough are preferably connected to one another by means of at least one hook engaging behind an undercut on the counterpart fixed. This means that the plug and the tub are clipped together. The plug can have at least one hook-shaped projection which engages behind an undercut on the tub. Alternatively or cumulatively, the tub can have at least one hook-shaped projection which engages behind an undercut on the plug. The plug is preferably produced by single or repeated plastic encapsulation of prefabricated contact pins. In the case of multiple plastic encapsulation, the same plastic can be used repeatedly, or the multiple plastic encapsulation is carried out with different plastic materials which have different material properties. As a result, the connector produced in this way can be adapted to the requirements with regard to strength and deformability, for example in order to implement a clip connection without the risk of an integrally formed nose or the like breaking off. Alternatively, the plug can also be produced by plugging together and / or gluing several prefabricated plastic components.
Bevorzugt ist der der Stecker mit einer Platine verbunden, insbesondere verlötet, wobei die Platine in der Wanne aufgenommen wird. Dadurch dass die Platine in der Wanne angeordnet wird, ist die Platine gleichzeitig durch die Wanne gegen äußere Einflüsse geschützt.The plug is preferably connected to a circuit board, in particular soldered, the circuit board being received in the trough. Because the board is arranged in the tub, the board is at the same time protected against external influences by the tub.
Besonders bevorzugt weist der Handgriff eine Antennenkammer auf, in welcher eine zweite Baugruppe mit elektronischen Komponenten mit zumindest einem ferromagnetischen Kern sowie einer um den Kern gewickelten Spule aufgenommen und wobei die zweite Kammer nach dem Einsetzen der zweiten Baugruppe mit Vergussmasse vergossen wird. Durch die Vergussmasse werden die in der Antennenkammer angeordneten elektronischen Bauteile und elektrisch leitenden Kontakte gegen Feuchtigkeit geschützt. Ferner dient die Vergussmasse als Dämpfer gegen Vibrationen.The handle particularly preferably has an antenna chamber in which a second assembly with electronic components with at least one ferromagnetic core and a coil wound around the core and wherein the second chamber is potted with potting compound after the insertion of the second assembly. The electronic components and electrically conductive contacts arranged in the antenna chamber are protected against moisture by the potting compound. The potting compound also serves as a damper against vibrations.
Vorzugsweise weist der Handgriff eine Antennenkammer auf, in welcher ein Antennenträger einliegt, der einen ferromagnetischen Kern sowie einer um den Kern gewickelten Spule aufnimmt, wobei der der ferromagnetische Kern formschlüssig in dem Antennenträger einliegt.The handle preferably has an antenna chamber in which an antenna carrier lies, which accommodates a ferromagnetic core and a coil wound around the core, the ferromagnetic core being in a form-fitting manner in the antenna carrier.
Bevorzugt ist der ferromagnetische Kern in Richtung seiner Längserstreckung in eine nutenförmige oder schwalbenschwanzförmige Aufnahme des Antennenträgers eingeschoben. Der ferromagnetische Kern ist durch eine Quaderform gebildet, wobei die Erstreckung in Längsrichtung deutlich größer ausgebildet ist, als in den anderen beiden Dimensionen senkrecht zu seiner Längsrichtung. Mit dem Begriff des Einschiebens des Kerns in seiner Längsrichtung ist dementsprechend eine Einschubrichtung parallel zu der Längserstreckung des ferromagnetischen Kerns gemeint. Hierzu weist der Antennenträger eine im Querschnitt entsprechend konturierte Aufnahme auf. Die Montage des ferromagnetischen Kerns erfolgt somit lediglich durch ein Einschieben in diese Aufnahme des Antennenträgers. Die Aufnahme des Antennenträgers kann nutenförmig oder schwalbenschwanzförmig ausgestaltet sein.The ferromagnetic core is preferably inserted in the direction of its longitudinal extension into a groove-shaped or dovetail-shaped receptacle in the antenna carrier. The ferromagnetic core is formed by a cuboid shape, the extension in the longitudinal direction being made significantly larger than in the other two dimensions perpendicular to its longitudinal direction. The term “inserting the core in its longitudinal direction” accordingly means an insertion direction parallel to the longitudinal extension of the ferromagnetic core. For this purpose, the antenna carrier has a receptacle with a correspondingly contoured cross section. The assembly of the ferromagnetic core is done by simply pushing it into this receptacle of the antenna carrier. The receptacle of the antenna carrier can be designed in the shape of a groove or a dovetail.
Vorzugsweise ist der ferromagnetische Kern durch zwei Teile gebildet, insbesondere zwei in Richtung der Längserstreckung des Kerns gleichlange Teile, die hintereinander in dem Antenneträger einliegen. Der ferromagnetische Kern kann somit durch zwei oder mehrere in Längsrichtung hintereinander liegende Abschnitte gebildet sein. Insbesondere kann eine in Längsrichtung mittige Teilung des ferromagnetischen Kerns in zwei gleich lange Abschnitte erfolgen. Durch eine Teilung des ferromagnetischen Kerns in zwei oder mehrere Abschnitt wird ein Biegebereich oder es werden mehrere Biegebereiche ausgebildet. Durch einen solchen Biegebereich wird eine Beschädigung des ferromagnetischen Kerns infolge eines leichten Verformens des Handgriffs vermieden.The ferromagnetic core is preferably formed by two parts, in particular two parts of equal length in the direction of the longitudinal extension of the core, which lie one behind the other in the antenna carrier. The ferromagnetic core can thus be formed by two or more sections lying one behind the other in the longitudinal direction. In particular, the ferromagnetic core can be divided centrally in the longitudinal direction into two sections of equal length. Dividing the ferromagnetic core into two or more sections creates a bending area or areas Bending areas formed. Such a bending area prevents damage to the ferromagnetic core as a result of slight deformation of the handle.
Vorzugsweise weist der Antennenträger zumindest einen Biegebereich auf, wobei der Biegebereich durch eine Materialausnehmung gebildet. Dabei sind die durch Materialausnehmung gebildeten Biegebereiche vorzugsweise derart positioniert, dass sie senkrecht zur Längserstreckung des ferromagnetischen Kern mit der Trennlinie einer Teilung des Kerns in mehrere Abschnitte fluchten. Das bedeutet, dass die einen Biegebereich des Kerns bildende Unterteilung des Kerns und der Biegebereich des Antennenträgers in derselben Ebene senkrecht zur Längserstreckung des ferromagnetischen Kerns liegen. Auch die Anordnung eines solchen Biegebereiches an dem Antennenträger dient der Vermeidung von Beschädigungen infolge eines leichten Verformens des Handgriffs.The antenna carrier preferably has at least one bending area, the bending area being formed by a material recess. The bending areas formed by the material recess are preferably positioned in such a way that they are aligned perpendicular to the longitudinal extension of the ferromagnetic core with the dividing line of a division of the core into several sections. This means that the subdivision of the core forming a bending area of the core and the bending area of the antenna carrier lie in the same plane perpendicular to the longitudinal extension of the ferromagnetic core. The arrangement of such a bending area on the antenna carrier also serves to avoid damage as a result of a slight deformation of the handle.
Vorzugsweise ist die Spule um den Antennenträger gewickelt, in welchem der Kern einliegt.The coil is preferably wound around the antenna carrier in which the core lies.
Vorzugsweise nimmt der Antennenträger zumindest ein Sensorblech eines kapazitiven Näherungssensors auf. Dementsprechend kann der Antennenträger zusätzlich zu dem ferromagnetischen Kern der Antenne ferner ein Sensorblech eines kapazitiven Näherungssensors aufnehmen.The antenna carrier preferably accommodates at least one sensor plate of a capacitive proximity sensor. Accordingly, in addition to the ferromagnetic core of the antenna, the antenna carrier can also accommodate a sensor plate of a capacitive proximity sensor.
Bevorzugt liegt in dem Antennenträger zumindest ein Sensorblech eines kapazitiven Näherungssensors formschlüssig ein, insbesondere kann ein Sensorblech eines kapazitiven Näherungssensors in Richtung seiner Längserstreckung in eine nutenförmige oder schwalbenschwanzförmige Aufnahme des Antennenträgers eingeschoben sein, insbesondere kann das Sensorblech eines kapazitiven Näherungssensors gegenläufig zu einem in den Antennenträger eingeschobenen ferromagnetischen Kern in eine Aufnahme eingeschoben sein.At least one sensor sheet of a capacitive proximity sensor is preferably a form-fitting in the antenna carrier, in particular a sensor sheet of a capacitive proximity sensor can be inserted in the direction of its longitudinal extension into a groove-shaped or dovetail-shaped receptacle of the antenna carrier, in particular the sensor sheet of a capacitive proximity sensor can be inserted in the opposite direction to one inserted in the antenna carrier ferromagnetic core be inserted into a receptacle.
Mit dem Begriff des gegenläufigen Einschiebens ist dabei die Bewegungsrichtung bei der jeweiligen Montage bezeichnet. So kann der ferromagnetische Kern beispielsweise vom hinteren Ende des Antennenträgers in eine entsprechende Aufnahme des Antennenträgers für den Kern eingeschoben sein und das Sensorblech kann vom vorderen Ende des Antennenträgers in eine entsprechende Aufnahme des Antennenträgers für das Sensorblech eingeschoben sein, oder umgekehrt. Es ist jedoch auch möglich, sowohl den ferromagnetischen Kern der Antenne als auch das Sensorblech eines kapazitiven Näherungssensors in derselben Richtung in jeweilige entsprechende Aufnahmen des Antennenträgers einzuschieben.The term "pushing in the opposite direction" denotes the direction of movement during the respective assembly. For example, the ferromagnetic core can be inserted from the rear end of the antenna carrier into a corresponding receptacle of the antenna carrier for the core and the sensor plate can be inserted from the front end of the antenna carrier into a corresponding receptacle of the antenna carrier for the sensor plate, or vice versa. However, it is also possible to insert both the ferromagnetic core of the antenna and the sensor plate of a capacitive proximity sensor in the same direction into respective corresponding receptacles of the antenna carrier.
In einer besonders bevorzugten Ausführungsform liegt in dem Antennenträger zumindest ein Sensorblech eines kapazitiven Näherungssensors formschlüssig ein und ist in Richtung seiner Längserstreckung in eine nutenförmige Aufnahme des Antennenträgers eingeschoben, wobei das Sensorblech und/oder der Antenennträger eine Rastverbindung aufweist/aufweisen, in welcher das Sensorblech in einer Vormontageposition lösbar verrastet, um die Montage eines Steckers an dem Sensorblech zu ermöglichen.In a particularly preferred embodiment, at least one sensor plate of a capacitive proximity sensor is in a form-fitting manner in the antenna carrier and is pushed in the direction of its longitudinal extension into a groove-shaped receptacle of the antenna carrier, the sensor plate and / or the antenna carrier having / have a latching connection in which the sensor plate is in a pre-assembly position releasably latched in order to enable the assembly of a plug on the sensor plate.
Insbesondere kann das Sensorblech an einer oder beiden Längskanten eine oder mehrere Ausnehmungen aufweisen, in die Vorsprünge des Antennenträgers eingreifen und das Sensorblech in einer Vormontageposition lösbar verrasten. Alternativ oder kumulativ kann der Antennenträger innenseitig eine oder mehrere Ausnehmungen aufweisen, in die Vorsprünge an einer oder beiden Längskanten des Sensorblechs eingreifen und das Sensorblech in einer Vormontageposition lösbar verrasten. In dieser Vormontageposition ist es möglich, ein Anschlussstück zur Herstellung elektrisch leitender Verbindungen für den Anschluss des Sensorblechs und der Antenne zu einer Elektronikbaugruppe der Kraftfahrzeugtürgriffanordnung aufzusetzen. Nach der Montage des Anschlussstücks kann das Sensorblech mit dem Anschlussstück in seine Endmontageposition geschoben werden, wobei das Sensorblech und/oder das Anschlussstück vorzugsweise durch Hintergreifen einer Hinterschneidung an dem Antennenträger fixiert wird/werden.In particular, the sensor plate can have one or more recesses on one or both longitudinal edges, into which the projections of the antenna carrier engage and the sensor plate can be releasably latched in a pre-assembly position. Alternatively or cumulatively, the antenna carrier can have one or more recesses on the inside, into which protrusions on one or both longitudinal edges of the sensor plate engage and the sensor plate detachably latch in a pre-assembly position. In this pre-assembly position, it is possible to put on a connection piece for producing electrically conductive connections for connecting the sensor plate and the antenna to an electronic assembly of the motor vehicle door handle arrangement. After the connection piece has been installed, the sensor plate with the connection piece can be pushed into its final assembly position, the sensor plate and / or the connection piece being / are preferably fixed by reaching behind an undercut on the antenna carrier.
In diesem Fall wird eine Hinterschneidung an dem Stecker und/oder an dem Sensorblech und/oder an dem Antennenträger durch ein entsprechendes Gegenstück an dem jeweils korrespondieren Bauteil hintergriffen.In this case, an undercut on the connector and / or on the sensor plate and / or on the antenna carrier is engaged from behind by a corresponding counterpart on the respective corresponding component.
Vorzugsweise sind die Steckkontakte mit Kunststoff umspritzt und bilden ein Anschlussstück, wobei die Außenkontur des Anschlussstücks eine oder mehrere Ausnehmungen und/oder Nuten und/oder Vorsprünge aufweist, die als Positionierhilfe und/oder Dichtung beim Einsetzen des Anschlussstücks mit dem Antennenträger in eine Antennenkammer des Handgriffs dienen und mit entsprechenden Gegenstücken an der Kontur der Antennenkammer zusammenwirken.The plug contacts are preferably encapsulated with plastic and form a connector, the outer contour of the connector having one or more recesses and / or grooves and / or projections that act as a positioning aid and / or seal when the connector with the antenna carrier is inserted into an antenna chamber of the handle serve and interact with corresponding counterparts on the contour of the antenna chamber.
Bevorzugt sind die Steckkontakte mit Kunststoff umspritzt und bilden ein Anschlussstück, wobei das Anschlussstück und der Antennenträger einstückig, insbesondere materialeinheitlich ausgebildet sind. Anschlussstück und Antennenträger können somit einstückig und insbesondere materialeinheitlich durch einen einzigen Kunststoffspritzvorgang hergestellt sein.The plug contacts are preferably encapsulated with plastic and form a connection piece, the connection piece and the antenna carrier being formed in one piece, in particular made of the same material. The connection piece and antenna carrier can thus be produced in one piece and in particular with the same material by a single plastic injection molding process.
Vorzugsweise weist der Handgriff eine Antennenkammer auf, in welcher zumindest der Antennenträger mit dem ferromagnetischen Kern sowie der um den Kern und/oder den Antennenträger gewickelten Spule aufgenommen wird und wobei die Antennenkammer nach dem Einsetzen des Antennenträgers mit Vergussmasse vergossen wird. Durch das Vergießen der Antennenkammer mit einer aushärtenden Vergussmasse wird die Antenne gegen Feuchtigkeit und Vibrationen geschützt. Die Antennenkammer bildet somit den Einbauraum zur Aufnahme der Antenne in dem Handgriff, welcher nach dem Einsetzen der Antenne mit Vergussmasse vergossen wird.The handle preferably has an antenna chamber in which at least the antenna carrier with the ferromagnetic core and the coil wound around the core and / or the antenna carrier is received and the antenna chamber is potted with potting compound after the antenna carrier has been inserted. By potting the antenna chamber with a hardening potting compound, the antenna is protected against moisture and vibrations. The antenna chamber thus forms the installation space for receiving the antenna in the handle, which is potted with potting compound after the antenna has been inserted.
Vorzugsweise sind die Steckkontakte einmalig oder wiederholt kunststoffumspritzt und bilden ein Anschlussstück, insbesondere kann bei einem zweiten Kunststoffumspritzen ein weicherer als Dichtung einer Antennenkammer und/oder Elektronikkammer dienender Werkstoff verwendet werden. Es können also bei mehreren Kunststoffspritzvorgängen derselbe Kunststoffwerkstoff oder unterschiedliche Kunststoffwerkstoffe mit unterschiedlichen Eigenschaften zum Einsatz kommen. Bei einem ersten Kunststoffspritzvorgang kann somit ein härterer Werkstoff zur Bildung eines stabilen Anschlussstücks zum Einsatz kommen. Diese Vorstufe kann in einem zweiten Kunststoffspritzvorgang mit einem weicheren Kunststoffwerkstoff umspritzt werden, wodurch außenseitig an dem Anschlussstück eine Dichtung ausgebildet wird. Diese Dichtung des Anschlussstückes dient insbesondere bevorzugt zumindest als Dichtung einer Antennenkammer in dem Handgriff, in welchem die Antenne einliegt.The plug-in contacts are preferably encapsulated with plastic once or repeatedly and form a connecting piece; in particular, a softer material serving as a seal for an antenna chamber and / or electronics chamber can be used for a second encapsulation of plastic. The same plastic material or different plastic materials can be used with several plastic injection processes different properties are used. In a first plastic injection molding process, a harder material can thus be used to form a stable connection piece. This preliminary stage can be overmolded with a softer plastic material in a second plastic injection molding process, as a result of which a seal is formed on the outside of the connection piece. This seal of the connection piece particularly preferably serves at least as a seal for an antenna chamber in the handle in which the antenna rests.
Bevorzugt sind die Steckkontakte mit einer Platine verbunden, insbesondere mit der Platine verlötet sind, und die Platine in einer Wanne aufgenommen wird. Die Platine kann mit Elektronikbauteilen bestückt sein.The plug contacts are preferably connected to a circuit board, in particular are soldered to the circuit board, and the circuit board is received in a trough. The circuit board can be equipped with electronic components.
Vorzugsweise weist die Kraftfahrzeugtürgriffanordnung eine Wanne zur Aufnahme einer Platine nach dem Einsetzen der Steckkontakte und/oder einer Platine auf, wobei insbesondere nach der Aufnahme einer mit den Steckkontakten verbundenen und vormontierten Platine in der Wanne die Wanne mit Vergussmasse gefüllt wird.The motor vehicle door handle arrangement preferably has a tub for receiving a circuit board after inserting the plug contacts and / or a circuit board, the tub being filled with potting compound in particular after receiving a pre-assembled circuit board connected to the plug contacts in the tub.
Erfindungsgemäß weist der Handgriff eine Elektronikkammer auf, in welcher die Wanne, bevorzugt mit einer darin aufgenommenen Platine, und der Stecker aufgenommen werden.According to the invention, the handle has an electronics chamber in which the tub, preferably with a circuit board received therein, and the plug are received.
Ein Ausführungsbeispiel der Erfindung ist in den Figuren dargestellt und wird nachfolgend erläutert. Es zeigen:
- Fig. 1
- den ersten Fertigungsschritt beim Umspritzen Kontaktstifte für die Antenne und den Näherungssensor;
- Fig. 2
- den zweiten Fertigungsschritt mit einem weiteren Umspritzen zur Herstellung des Anschlussstückes für die Antenne und den Näherungssensor;
- Fig. 3
- den Antennenträger sowie die Montage des ferromagnetischen Kerns in dem Antennenträger;
- Fig. 4
- das Aufbringen der Wicklung auf den Antennenträger;
- Fig. 5
- die Montage des Sensorblechs des kapazitiven Näherungssensors an dem Antennenträger;
- Fig. 6
- das Aufsetzen des Anschlussstückes auf dem Sensorblech an dem Antennenträger;
- Fig. 7
- das Einschieben und die Montage des Sensorblechs mit aufgesetzten Verbindungsstück in dem Antennenträger;
- Fig. 8
- die Verbindung der Kontaktstifte für die Antenne und den Näherungssensor an den Lötpunkten;
- Fig. 9
- eine alternative Ausgestaltung umspritzter Kontaktstifte zur Herstellung eines einstückigen Antennenträgers mit Anschlussstück;
- Fig. 10
- ein zweites Kunststoffumspritzen des Antennenträgers mit Anschlussstück nach
Fig. 9 ; - Fig. 11
- die Montage des ferromagnetischen Kerns auf den Antennenträger nach
Fig. 10 ; - Fig. 12
- das Aufbringen einer Windung auf den Antennenträger nach
Fig. 11 ; - Fig. 13
- die Montage eines Sensorblechs eines kapazitiven Näherungssensors an dem Antennenträger nach
Fig. 12 ; - Fig. 14
- das Verbinden der Kontaktstifte für die Antenne und den Näherungssensor an den entsprechenden Lötpunkten des Antennenträgers nach
Fig. 13 ; - Fig. 15
- den Umspritzvorgang von Kontaktstiften zur Herstellung des Steckers;
- Fig. 16
- den zweiten Kunststoffspritzvorgang zur Herstellung des Steckers;
- Fig. 17
- die Platine;
- Fig. 18
- die Montage des Steckers sowie des Antennenträgers und des Blechs zur Verriegelung auf der Platine;
- Fig. 19
- die Lötpunkte zum Verlöten der Kontakte mit der Platine;
- Fig. 20
- das Einsetzten der Platine in die Wanne;
- Fig. 21
- den Vergussprozess beim Vergießen der Wanne mit Vergussmasse;
- Fig. 22
- die Montage des Elektronikmoduls in dem Handgriff und das Einsetzen der Antenne in die Antennenkammer;
- Fig. 23
- den Vergussprozess beim Vergießen der Antennenkammer mit Vergussmasse;
- Fig. 24
- die Montage des Pads auf der Wanne;
- Fig. 25
- den Montageprozess der äußeren Griffschale auf dem Handgriff.
- Fig. 1
- the first production step during overmolding of contact pins for the antenna and the proximity sensor;
- Fig. 2
- the second manufacturing step with a further overmolding to manufacture the connector for the antenna and the proximity sensor;
- Fig. 3
- the antenna support and the assembly of the ferromagnetic core in the antenna support;
- Fig. 4
- applying the winding to the antenna support;
- Fig. 5
- the assembly of the sensor plate of the capacitive proximity sensor on the antenna support;
- Fig. 6
- placing the connector on the sensor plate on the antenna carrier;
- Fig. 7
- the insertion and assembly of the sensor plate with the connecting piece in place in the antenna carrier;
- Fig. 8
- the connection of the contact pins for the antenna and the proximity sensor at the soldering points;
- Fig. 9
- an alternative embodiment of molded contact pins for producing a one-piece antenna carrier with connector;
- Fig. 10
- a second plastic encapsulation of the antenna support with connector after
Fig. 9 ; - Fig. 11
- the assembly of the ferromagnetic core on the antenna support
Fig. 10 ; - Fig. 12
- the application of a turn on the antenna support
Fig. 11 ; - Fig. 13
- the assembly of a sensor plate of a capacitive proximity sensor on the antenna support
Fig. 12 ; - Fig. 14
- connecting the contact pins for the antenna and the proximity sensor to the corresponding soldering points on the antenna carrier
Fig. 13 ; - Fig. 15
- the molding process of contact pins to manufacture the connector;
- Fig. 16
- the second plastic injection molding process to manufacture the connector;
- Fig. 17
- the board;
- Fig. 18
- the assembly of the connector as well as the antenna support and the plate for locking on the circuit board;
- Fig. 19
- the soldering points for soldering the contacts to the board;
- Fig. 20
- inserting the board into the tub;
- Fig. 21
- the potting process when potting the tub with potting compound;
- Fig. 22
- assembling the electronic module in the handle and inserting the antenna into the antenna chamber;
- Fig. 23
- the potting process when potting the antenna chamber with potting compound;
- Fig. 24
- mounting the pad on the tub;
- Fig. 25
- the assembly process of the outer handle shell on the handle.
Anhand der nachfolgenden Figurenbeschreibung wird gleichzeitig das Montage- und Herstellungsverfahren zur Herstellung einer solchen Kraftfahrzeugtürgriffanordnung erläutert.Based on the following description of the figures, the assembly and production method for producing such a motor vehicle door handle arrangement is explained at the same time.
In
Gemäß
Die Kontaktstifte 11, 12, 13 dienen der Kopplung der Antenne sowie des Sensorblechs des kapazitiven Näherungssensors mit der Elektronik des Kraftfahrzeugtürgriffs.The contact pins 11, 12, 13 are used to couple the antenna and the sensor plate of the capacitive proximity sensor with the electronics of the motor vehicle door handle.
In dem dargestellten Ausführungsbeispiel gemäß den
In einer nicht dargestellten Alternative wird das Anschlussstück 10 unter Verwendung eines als Dichtungselement geeigneten Kunststoffes in einem einzigen Kunststoffspritzvorgang hergestellt. Dabei werden in einem einzigen Kunststoffspritzvorgang die Kontaktstifte 11, 12, 13 mit dem als Dichtung geeigneten Kunststoff umspritzt.In an alternative, not shown, the
Der ferromagnetische Kern 21 ist mittig geteilt und somit zweigeteilt ausgeführt. Der Antennenträger 20 weist Materialausnehmungen 25 auf, die mit der Teilungslinie zwischen den beiden Teilen des ferromagnetischen Kerns 21 fluchten. Durch die Materialschwächung 25 des Antennenträgers 20 und die mittige Teilung des ferromagnetischen Kerns 21 wird ein Biegebereich geschaffen der dazu dient, leichte Verformungen des Antennenträgers 20 infolge einer Betätigung des Handgriffs durch einen Benutzer zuzulassen, ohne dass dies zu einer Beschädigung des ferromagnetischen Kerns 21 führt.The
Sensorblech 27 und Antennenträger 20 weisen Rasten 28 zur Verrastung des Sensorblechs 27 an dem Antennenträger 20 in einer Vormontageposition auf. Diese Vormontageposition gemäß
Die Rasten 28 sind in dem dargestellten Ausführungsbeispiel durch außenseitige Nasen an dem Sensorblech 27 geschaffen, die in der Vormontageposition gemäß
Nach dem Aufsetzen des Kontaktes 13 auf den nach oben gebogenen Kontakt 29 des Sensorblechs 27 erfolgt das Einschieben des Sensorblechs 27 mit dem darauf aufgesetzten Anschlussstück 10 in den Antennenträger 20 in seine endgültige Position gemäß der Darstellung in
Mit dem Verlöten der Kontaktstifte 11, 12, 13 wird somit eine vormontierte Antennenbaugruppe 50 aus dem Antennenträger 20 und dem daran befestigten Anschlussstück 10 und den zuvor beschrieben weiteren Bestandteilen geschaffen.With the soldering of the contact pins 11, 12, 13, a
Wie in
In
Gemäß
Gemäß
Die gemäß den
Die Antenne der Antennenträgerbaugruppe dient dabei der Fernbedienung des Schließsystems durch einen Benutzer und der Weitergabe der entsprechenden Funksignale an die Elektronik auf der Platine 40 gemäß
Für die Kopplung der Elektronik der Kraftfahrzeugtürgriffanordnung mit dem Kraftfahrzeug ist ein Stecker vorgesehen, dessen Herstellung anhand der
Bei diesem zweistufigen Kunststoffspritzvorgang gemäß den
In
Die Antennenbaugruppe 50 wird wiederum von der Oberseite her in entsprechende Ausnehmungen der Platine 40 eingesteckt. Die Montage erfolgt dabei durch das Einstecken der Kontaktstifte 11, 12, 13 der Antennenbaugruppe 50 von oben in entsprechende Durchgangsbohrungen in der Platine 40.The
Hierdurch folgt die Kopplung der Kontaktstifte 31, 32 des Steckers 30 mit der Platine 40 sowie ferner die Kopplung der Kontaktstifte 11, 12, 13 der Antennenbaugruppe 50 mit der Platine 40. Des Weiteren wird von der Oberseite her ein Verriegelungsblech 41 mit Kontaktstiften auf die Platine 40 aufgesetzt und in entsprechende Aufnehmungen der Platine 40 eingesteckt. Hierdurch ergibt sich das Modul 60 aus der Antennenbaugruppe 50 mit der Antenne und der Wicklung sowie dem Anschlussstück, der Platine 40 und dem Stecker 30 wie dies in
Das Modul 60 umfasst somit den Antennenträger 20, der die Antenne mit dem ferromagnetischen Kern und der Spule sowie das Sensorblech aufnimmt, das Anschlussstück 10, durch das elektrisch leitende Kontaktstifte von der Antenne und dem Sensorblech zu der mit Elektronikbauteilen bestückten Platine 40 geführt und mit dieser verbunden sind, wobei die Platine 40 ferner mit dem Stecker 30, der zur Herstellung der elektrischen Kontakte für die Elektronikbaugruppe des Moduls 60 dient, und wobei die Platine 40 mit elektrischen Kontaktstiften des Steckers verbunden ist. Dabei bildet die Platine 40 ein tragendes Bauteil des Moduls 60.The
In dem dargestellten Ausführungsbeispiel sind die einen Formschluss bildenden Positionierhilfen 71, 72 durch innenseitige Ausbuchtungen an der Wanne 70 gebildet, die in Ausnehmungen an den Außenkanten der Platine 40 eingreifen. Es ist auch eine umgekehrte Ausgestaltung möglich, bei der eine oder mehrere Nasen oder Vorspünge an den Außenkanten der Platine in korrespondierende Ausnehmungen der Wanne eingreifen und hierdurch einen als Positionier- und Montagehilfe dienenden Formschluss herstellen.In the exemplary embodiment shown, the positioning aids 71, 72, which form a form fit, are formed by bulges on the inside on the
In
Die Abdichtung der Wanne 70 erfolgt mittels der Dichtung 16. Die Wanne 70 weist eine Ausnehmung auf, in der die Dichtung 16 mit der Nut 17 formschlüssig und kraftschlüssig einliegt. Die Wandung der Wanne 70 liegt in der Nut 17 der Dichtung 16 formschlüssig ein. Gleichzeitig wird eine Klemmwirkung zwischen der Wandung der Wanne 70 und der Dichtung 16 erzeugt. Zu diesem Zweck ist die Dichtung 16 aus einem als Dichtung geeigneten reversibel verformbaren Kunststoff ausgebildet. Die Wannennut 17 der Dichtung 16 und die Ausnehmung der Wanne 70 sind dementsprechend aufeinander abgestimmt. Die Wannennut 17 bildet damit gleichzeitig eine Positionierhilfe beim Einsetzen der Platine 40 des Elektronikmoduls 60 in die Wanne 70. Durch die Klemmwirkung der Dichtung 16 in der Ausnehmung der Wandung der Wanne 70 wird die Platine 40 gleichzeitig gegen ein Aufschwimmen während des Vergussprozesses gesichert und fixiert. Die Vergussmasse härtet nach dem Vergussprozess aus. Die Vergussmasse bildet einen Schutz der Platine 40 und der verlöteten Kontakte gegen Feuchtigkeit. Ferner dient die Vergussmasse als Dämpfer gegen Vibrationen.The
Mit der in der ausgegossenen Wanne 70 ausgehärteten Vergussmasse wird die Elektronikbaugruppe 75 zur weiteren Montage in dem Handgriff der Kraftfahrzeugtürgriffanordnung geschaffen. Die Montage der Baugruppe 75 in dem Handgriff 80 der Kraftfahrzeugtürgriffanordnung wird anhand der
Die vormontierte Baugruppe 75 mit der mit Vergussmasse ausgegossenen Wanne 70 und dem Stecker 30 wird in umgekehrter Orientierung wie in
Die Abdichtung der Antennenkammer 81 in dem Handgriff 80 erfolgt ebenfalls mittels der Dichtung 16. Die Wandung der Antennenkammer 81 weist eine Ausnehmung 82 auf, in der die Dichtung 16 mit der Nut 18 formschlüssig und kraftschlüssig einliegt. Die Dichtung 16 weist außenseitig die als Antennenkammernut dienende zweite Nut 18 auf. Die Antennenkammernut 18 ist ebenso wie die Wannennut 17 als umlaufende Nut außenseitig an der Dichtung 16 ausgebildet. Da die Orientierung bei Einsetzen der Dichtung 16 in die Wanne 70 gegenläufig zur Orientierung beim Einsetzen der Dichtung 16 in die Antennenkammer ist, sind auch die jeweils drei Außenseiten der Dichtung 16 überspannenden Nuten 17, 18 der Dichtung 16 gegenläufig angeordnet.The
Die Wandung der Antennenkammer 81 liegt in der Nut 18 der Dichtung 16 formschlüssig ein. Gleichzeitig wird eine Klemmwirkung zwischen der Wandung der Antennenkammer 81 und der Dichtung 16 erzeugt. Zu diesem Zweck ist die Dichtung 16 wie oben erläutert aus einem als Dichtung geeigneten reversibel verformbaren Kunststoff ausgebildet. Die Antennenkammernut 18 der Dichtung 16 und die Ausnehmung 82 der Antennenkammer 81 sind dementsprechend aufeinander abgestimmt. Die Antennenkammernut 18 bildet damit gleichzeitig eine Positionierhilfe beim Einsetzen der Antennenbaugruppe 50 des Elektronikmoduls 60 in die Antennenkammer 81. Durch die Klemmwirkung der Dichtung 16 in der Ausnehmung 82 der Wandung der Antennenkammer 81 wird die Antennenbaugruppe 50 gleichzeitig gegen ein Aufschwimmen während des nachfolgend erläuterten Vergussprozesses gesichert und fixiert. Die Vergussmasse härtet nach dem Vergussprozess aus.The wall of the
Nach dem Einsetzten der vormontierten Baugruppe in den Handgriff 80 erfolgt ein Vergießen der Antennenkammer 81 mit Vergussmasse, wie dies in
Anschließend wird auf die Wanne 70 ein flexibles Pad 85 aufgeklebt, wie dies in
Abschließend erfolgt die Montage der außenseitigen Schale 90 an dem Handgriff 80, wie dies in
Üblicherweise befindet sich die Drehachse 101 der Handgriffanordnung 100 in Fahrrichtung vorne, so dass am hinteren Ende der Handgriffanordnung 100 der Griffhaken 102 zur Außenseite des Kraftfahrzeuges herausgezogen werden kann und über eine entsprechende Kopplung auf das Türschloss einwirkt und bei entriegelten Türschloss ein Öffnen der Kraftfahrzeugtür ermöglicht. Die Anordnung der Handgriffanordnung 100 gemäß
Ferner weist die äußere Schale 90 eine Ausnehmung 91 auf, durch die ein Schlüssel in ein in der
- 1010
- AnschlussstückConnector
- 11, 12, 1311, 12, 13
- KontaktstifteContact pins
- 11', 12', 13'11 ', 12', 13 '
- KontaktstifteContact pins
- 14, 14'14, 14 '
- PositivkunststoffspritzformPositive plastic injection mold
- 15, 15'15, 15 '
- Vorstufe des AnschlussstücksPreliminary stage of the connector
- 16,16'16.16 '
- Dichtungpoetry
- 17, 17'17, 17 '
- WannennutTub groove
- 18, 18'18, 18 '
- AntennenkammernutAntenna chamber groove
- 20, 20'20, 20 '
- AntennenträgerAntenna support
- 2121
- Ferromagnetischer KernFerromagnetic core
- 22, 2322, 23
- NutenGrooves
- 2424
- Vorsprunghead Start
- 2525th
- AusnehmungRecess
- 2626th
- WicklungWinding
- 2727
- SensorblechSensor plate
- 2828
- RastenRest
- 2929
- KontaktContact
- 3030th
- Steckerplug
- 31, 3231, 32
- KontaktstifteContact pins
- 3333
- PositivkunststoffspritzformPositive plastic injection mold
- 3434
- Vorprodukt des SteckersPreliminary product of the connector
- 3535
- PositivkunststoffspritzformPositive plastic injection mold
- 3636
- HinterschneidungUndercut
- 4040
- Platinecircuit board
- 4141
- VerriegelungsblechLocking plate
- 50, 50'50, 50 '
- AntennenbaugruppeAntenna assembly
- 6060
- ElektronikmodulElectronics module
- 7070
- WanneTub
- 71, 7271, 72
- PositionierhilfenPositioning aids
- 7373
- Nasenose
- 7575
- ElektronikbaugruppeElectronics assembly
- 8080
- HandgriffHandle
- 8181
- AntennenkammerAntenna chamber
- 8282
- WandungWall
- 8383
- ElektronikkammerElectronics chamber
- 8585
- PadPad
- 9090
- Schalepeel
- 9191
- AusnehmungRecess
- 100100
- HandgriffanordnungHandle assembly
- 101101
- DrehachseAxis of rotation
- 102102
- GriffhakenHandle hook
Claims (9)
- Motor-vehicle door handle assembly having a manual handle (80), wherein in the manual handle (80) are arranged one or several sensors and/or electronic components and the manual handle (80) has at least one plug (30) for establishing electrical contacts for one or several sensors and/or electronic components and at least one trough (70) for the reception of one or several sensors and/or electronic components, wherein the plug (30) and the trough (70) are connected form-fittingly and/or force-fittingly and/or friction-fittingly and/or material-fittingly with one another, characterised in that the manual handle (80) has an electronic chamber (83) in which the trough (70) and the plug (30) are accommodated, wherein the trough (70) has been filled with casting compound after the plug (30) has been set in.
- Motor-vehicle door handle assembly according to claim 1, characterised in that the outer contour of the plug (30) and the inner contour of the trough (70) form a form-fit.
- Motor-vehicle door handle assembly according to claim 1 or 2, characterised in that the outer contour of the plug (30) has one or several recesses and/or projections, which interact as a positioning aid when inserting the plug (30) into the trough (70) with corresponding counter pieces (71, 72) at the inner contour of the trough (70).
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the plug (30) and the trough (70) are fixed to one another by means of at least one hook (36) which grips behind an undercut (73) on the counter piece.
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the plug (30) is manufactured by means of one-time or repeated plastic overmoulding of pre-finished contact pins (31, 32).
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the plug (30) is connected with a circuit board (40), in particular soldered, and the circuit board (40) is accommodated in the trough (70).
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the trough (70) is filled with casting compound after the reception of a circuit board (40), connected with the plug (30), in the trough (70).
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the handle (80) has an antenna chamber (81), in which a second assembly having electronic components having at least one ferromagnetic core (21) and a coil (26) wound around the core (21) is accommodated and wherein the second chamber (81) is filled with casting compound after the second assembly has been set in.
- Motor-vehicle door handle assembly according to any of the preceding claims, characterised in that the handle (80) has an antenna chamber (81), in which an antenna carrier (20) rests which accommodates a ferromagnetic core (21) and a coil (26) wound around the core (21), wherein the ferromagnetic core (21) rests form-fittingly in the antenna carrier (20).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102016010555.0A DE102016010555A1 (en) | 2016-08-31 | 2016-08-31 | Motor vehicle door handle assembly with a form-fitting fastened plug |
PCT/EP2017/066783 WO2018041446A1 (en) | 2016-08-31 | 2017-07-05 | Motor-vehicle door handle assembly having an interlockingly fastened plug |
Publications (2)
Publication Number | Publication Date |
---|---|
EP3507439A1 EP3507439A1 (en) | 2019-07-10 |
EP3507439B1 true EP3507439B1 (en) | 2021-09-01 |
Family
ID=59381243
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP17742172.4A Not-in-force EP3507439B1 (en) | 2016-08-31 | 2017-07-05 | Motor-vehicle door handle assembly having an interlockingly fastened plug |
Country Status (4)
Country | Link |
---|---|
US (1) | US20190218831A1 (en) |
EP (1) | EP3507439B1 (en) |
DE (1) | DE102016010555A1 (en) |
WO (1) | WO2018041446A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111219109B (en) * | 2018-11-27 | 2022-02-01 | 上海海拉电子有限公司 | A induction type door handle and car for car |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1766165B1 (en) * | 2004-07-10 | 2019-11-06 | Huf Hülsbeck & Fürst GmbH & Co. KG | Device for actuating a lock integrated in a door, hatch, or similar, especially in a vehicle |
DE102009006845B4 (en) * | 2009-01-30 | 2021-02-25 | Huf Hülsbeck & Fürst Gmbh & Co. Kg | Device for sending and / or receiving data in handles for doors, flaps or the like on vehicles |
JP6064806B2 (en) * | 2013-06-21 | 2017-01-25 | アイシン精機株式会社 | Vehicle door handle |
DE102013112164A1 (en) * | 2013-11-05 | 2015-05-21 | Huf Hülsbeck & Fürst Gmbh & Co. Kg | Automotive exterior handle |
JP6392800B2 (en) * | 2016-02-26 | 2018-09-19 | 株式会社小糸製作所 | Door handle |
-
2016
- 2016-08-31 DE DE102016010555.0A patent/DE102016010555A1/en not_active Withdrawn
-
2017
- 2017-07-05 US US16/328,037 patent/US20190218831A1/en not_active Abandoned
- 2017-07-05 WO PCT/EP2017/066783 patent/WO2018041446A1/en unknown
- 2017-07-05 EP EP17742172.4A patent/EP3507439B1/en not_active Not-in-force
Also Published As
Publication number | Publication date |
---|---|
US20190218831A1 (en) | 2019-07-18 |
WO2018041446A1 (en) | 2018-03-08 |
EP3507439A1 (en) | 2019-07-10 |
DE102016010555A1 (en) | 2018-03-01 |
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