JP5874277B2 - Vehicle door handle device - Google Patents

Description

  The present invention relates to a vehicle door handle device that is mounted on a slide door of a vehicle and performs opening / closing operations (opening operation and closing operation) of the sliding door from the outside of the sliding door.

  This type of vehicle door handle device is disclosed, for example, in Patent Document 1 below, and is fixed to an outer panel of a sliding door from the inside of the door and disposed along the front-rear direction of the vehicle, and through the outer panel. It is connected to the frame via a connecting mechanism (link mechanism) and has a grip portion extending along the front-rear direction of the vehicle on the outer side of the outer panel. It has a handgrip that can be operated in both directions.

JP 2007-85032 A

  In the vehicle door handle device described in Patent Document 1 described above, the coupling mechanism (link mechanism) includes, for example, an opening direction operation link and a closing direction operation link. The opening direction operation link is configured to open a fully closing latch mechanism (door closing locking mechanism) that holds and fixes the sliding door in a fully closed state by operating the hand grip in the opening direction of the sliding door. ing. On the other hand, the closing direction operation link is configured to open the fully opening latch mechanism (door opening locking mechanism) that holds and fixes the sliding door in the fully open state when the hand grip is operated in the closing direction of the sliding door. Yes. When each latch mechanism is opened, the holding by each latch mechanism is released, and the slide door can be opened and closed (slidable).

(Problems to be solved by the invention)
In the vehicle door handle device described in Patent Document 1 described above, each latch mechanism (by bi-directional operation) in a direction (same direction) in which there is no sense of incongruity with respect to the opening / closing direction of the slide door ( The sliding door in the fully closed state is a fully closed latch mechanism, and the sliding door in the fully open state is a fully open latch mechanism), and the sliding door can be opened and closed. Is excellent. However, both the fully-closed latch mechanism and the fully-opened latch mechanism are mechanically driven (the ones that are held by each latch mechanism are released by the operating force applied to the handgrip) and are electrically driven from the viewpoint of reducing the operating force Is desired.

(Means for solving problems and operational effects)
The present invention has been made to meet the above-mentioned demands,
It is a vehicle door handle device that is mounted on a slide door of a vehicle to perform opening / closing operation of the slide door from the outside of the slide door,
A frame that is fixed to the outer panel of the sliding door from the inside of the door and is disposed along the longitudinal direction of the vehicle;
It is connected to the frame through the outer panel via a connecting mechanism, and has a grip portion extending along the front-rear direction of the vehicle on the vehicle outer side of the outer panel. A handgrip that can be operated in both directions;
A closing operation switch for detecting that the hand grip is operated in the closing direction of the sliding door by a movement accompanying the closing operation of the hand grip;
An opening operation switch for detecting that the hand grip is operated in the opening direction of the sliding door by a movement accompanying the opening operation of the hand grip;
A fully-closed latch mechanism that allows the slide door to be opened and closed by releasing the fixing that holds the slide door in a fully-closed state by operating the hand grip in the opening direction of the slide door;
When the closing operation switch detects that the hand grip has been operated in the closing direction of the slide door, the electric door is released from being fixed to hold the slide door in the fully open state, and the slide door can be opened and closed. have a fully-open latch mechanism to be,
The hand grip moves in a first direction when the hand grip is operated to open the door, and moves in a second direction different from the first direction when the hand grip is operated to close the door. Have
The closing operation switch is set to detect that the hand grip is operated in the closing direction of the slide door based on the movement of the moving unit in the second direction,
The opening operation switch is set to detect that the hand grip is operated in the opening direction of the slide door based on the movement of the moving unit moving in the first direction.
When the opening switch detects that the hand grip has been operated in the opening direction of the slide door, the second electric actuator fixes the full-close latch mechanism to hold the slide door in the fully-closed state. The vehicle door handle device is configured to be released .

  In the vehicle door handle device of the present invention described above, the unlocking of the fully-open latch mechanism is electrically driven (when the operation force applied to the handgrip is used as a trigger and the closing operation switch detects this, the electric actuator The holding force by the fully open latch mechanism can be released by the obtained driving force), and the operation force in the closing direction of the handgrip in the closing operation of the slide door (required for the unlocking of the fully open latch mechanism) (Operating force) can be reduced.

  In carrying out the present invention described above, the closing operation switch can be detachably assembled to the frame. In this case, the hand grip can be assembled to the frame without the closing operation switch being assembled to the frame, and the hand grip can be assembled to the frame when the hand grip is assembled to the frame. It is possible to improve the ease of assembling the handgrip to the frame without disturbing the wire harness.

  In carrying out the above-described present invention, the closing operation switch can be arranged corresponding to the end portion of the hand grip on the sliding door end side. In this case, as compared with the case where the closing operation switch is arranged corresponding to the end of the handgrip on the center side of the sliding door, the wire harness attached to the closing operation switch and led out from the closing operation switch is used. Wiring within the sliding door (for example, routing that bypasses the window glass in the sliding door) can be easily performed with a short length, and it is possible to improve assembly of the wire harness and reduce costs. It is.

Further, in the present invention described above, provided with a opening operation switch for detecting the movement caused by the door opening operation of the hand grip that the hand grip is operated in the opening direction of the sliding door, the hand grip When the opening operation switch detects that the sliding door is operated in the opening direction, the second electric actuator releases the fixing of the fully closing latch mechanism to hold the sliding door in the fully closed state. that is configured to. Therefore, it is possible to both electrically driven the unlocking of unlocking the full open latch mechanism fully closed latch mechanism, in either open operating and closing operations of the sliding doors, the operation force of the hand grip (each It is possible to reduce the operating force required to release the latch mechanism.

  In implementing the above-described present invention, the opening operation switch may be disposed corresponding to the end portion of the hand grip on the sliding door end side. In this case, it is possible to improve the assembling property and reduce the cost of each wire harness assembled to each switch and derived from each switch, and to share the ground wire in each wire harness. Thus, the wire harness can be substantially made of three electric wires, which can also reduce the cost.

  In carrying out the above-described present invention, the closing operation switch and the opening operation switch may be integrated. In this case, the closing operation switch and the opening operation switch are configured separately, and the assembling property of the closing operation switch and the opening operation switch is improved as compared with the case of assembling each of them (reducing the number of assembling steps). Is possible.

It is the side view which showed roughly one Embodiment of the sliding door for vehicles provided with the door handle apparatus for vehicles by this invention. It is the side view (figure seen from the vehicle outer side) which showed the main structures of the door handle apparatus for vehicles shown in FIG. FIG. 3 is a bottom view of the vehicle door handle device shown in FIG. 2. FIG. 3 is a front view of the vehicle door handle device shown in FIG. 2 (viewed from the front of the vehicle). FIG. 3 is a rear view of the vehicle door handle device shown in FIG. 2 (viewed from the inside of the vehicle). FIG. 6 is a cross-sectional plan view of the vehicle door handle device shown in FIG. It is an enlarged view of the left part (vehicle rear part) of FIG. FIG. 3 is a side view of a base assembly in the vehicle door handle device shown in FIG. 2. FIG. 9 is a bottom view of the base assembly shown in FIG. 8. FIG. 9 is a front view of the base assembly shown in FIG. 8. FIG. 9 is a rear view of the base assembly shown in FIG. 8. FIG. 3 is a side view of a handle assembly in the vehicle door handle device shown in FIG. 2. FIG. 13 is a bottom view of the handle assembly shown in FIG. 12. FIG. 13 is a front view of the handle assembly shown in FIG. 12. FIG. 13 is a rear view of the handle assembly shown in FIG. 12. FIG. 3 is a side view of a cap assembly in the vehicle door handle device shown in FIG. 2. FIG. 17 is a bottom view of the cap assembly shown in FIG. 16. FIG. 17 is a front view of the cap assembly shown in FIG. 16. FIG. 17 is a rear view of the cap assembly shown in FIG. 16. FIG. 16 is a perspective view illustrating a state in which the handle assembly illustrated in FIGS. 12 to 15 is assembled to the base assembly illustrated in FIGS. 8 to 11. FIG. 16 is a perspective view illustrating a state where the handle assembly illustrated in FIGS. 12 to 15 is assembled to the base assembly illustrated in FIGS. 8 to 11. It is sectional drawing which showed the relationship between the flame | frame and the hand grip in the state which assembled | attached the handle assembly to the base assembly. It is the elements on larger scale of FIG. It is the side view which showed open operation of the door handle apparatus for vehicles shown in Drawing 2-Drawing 7 with a broken line, and showed closing operation with a dashed-two dotted line. FIG. 25 is a bottom view of the vehicle door handle device shown in FIG. 24. FIG. 25 is a front view of the vehicle door handle device shown in FIG. 24. FIG. 25 is a cross-sectional plan view of the handle center schematically showing the relationship between the guide of the frame and the protrusion of the hand grip in the vehicle door handle device shown in FIG. 24. FIG. 7 is a cross-sectional plan view of the handle center equivalent to FIG. 6 showing the relationship between a closing operation switch assembled in a vehicle front portion of the frame (a portion corresponding to the end portion of the hand grip on the sliding door end side) and the hand grip. FIG. 29 is an enlarged view of a right part (vehicle front part) of FIG. 28. FIG. 20 is a perspective view illustrating a relationship between a lever and a hand grip of the cap assembly illustrated in FIGS. 16 to 19 (a relationship when both the lever and the hand grip are in an initial position). It is a perspective view of the state which removed the hand grip from FIG. FIG. 31 is a perspective view of a state where the hand grip shown in FIG. 30 is closed. It is a perspective view of the state which removed the hand grip from FIG. FIG. 31 is a perspective view of a state where the hand grip shown in FIG. 30 is prevented from closing by an inertia stopper of the cap assembly. It is a perspective view of the state which removed the hand grip from FIG. FIG. 7 is a cross-sectional plan view of the handle center equivalent to FIG. 6 showing a relationship between a closing operation switch assembled to a vehicle rear portion of the frame (a portion corresponding to an end portion of the hand grip on the sliding door central portion side) and a hand grip. FIG. 37 is an enlarged view of a left portion (vehicle rear portion) of FIG. 36. FIG. 30 is an enlarged view corresponding to FIG. 29 illustrating a closing operation switch assembled to a vehicle front portion of the frame (a portion corresponding to an end portion of the hand grip on the sliding door end side) and a relationship between the opening operation switch and the hand grip. It is the side view which showed schematically other embodiment (embodiment provided with the closing operation switch and opening operation switch shown in FIG. 38) of the sliding door for vehicles provided with the door handle apparatus for vehicles by this invention.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of a vehicle door handle device 100 according to the present invention. In the vehicle door handle device 100 of this embodiment, a front lock 201 and a rear lock 202 mounted on a slide door 200 by the device 100. And a full-open lock 203 mounted on the slide door 200 and electrically connected to each other.

  The sliding door 200 can move in the vehicle front-rear direction at the side of the vehicle, and can open and close an opening for getting on and off formed in a vehicle body (not shown) (specifically, the sliding door 200 is mounted on the vehicle). The opening for getting on and off is opened by moving backward, and the opening for getting on and off is closed by moving the slide door 200 forward of the vehicle. The front lock 201 and the rear lock 202 are for holding and fixing the slide door 200 in a fully closed state (a state in which the entrance for getting on and off is closed) (that is, a fully closed latch mechanism). It is arrange | positioned at the vehicle front side and the vehicle rear side, respectively. The fully open lock 203 is for holding and fixing the slide door 200 in a fully open state (in a state where the opening for getting on and off is opened) (that is, a fully open latch mechanism), and is disposed at the lower front side of the slide door 200 in the vehicle. Has been. If the slide door 200 can be held in the fully closed state only with the rear lock 202, the present invention can be implemented without providing the front lock 201.

  2 to 7, the vehicle door handle device 100 includes a base assembly 110 (see FIGS. 8 to 11) assembled to the outer panel 200a (see FIG. 1) of the sliding door 200, and a base. A handle assembly 120 (see FIGS. 12 to 15) assembled to the frame 111 of the assembly 110, a cap assembly 130 (see FIGS. 16 to 19), and a closing operation switch S1 (see FIGS. 1, 28 and 29). It has.

  As shown in FIGS. 2 to 7 and FIGS. 8 to 11, the base assembly 110 includes a frame 111, a bell crank 112, a spring 113, a nut 114, and the like. The frame 111 is configured to be fixed to the outer panel 200a of the slide door 200 from the inside of the door. The frame 111 has an opening 111a at a rear part of the vehicle (right part of FIG. 8) and a front part of the vehicle (left side of FIG. 8). The opening 111b is provided on the one side). The frame 111 is assembled to the outer panel 200a from the outside of the door through the outer panel 200a of the sliding door 200 to the stepped mounting hole 111c of the frame 111, and the flange portion 114a is engaged with the frame 111 via the outer panel 200a. And a screw 115 (see FIGS. 5 and 6) screwed to the nut 114 from the inside of the door.

  The bell crank 112 is rotatably attached to the mounting hole 111d of the frame 111 at its shaft portion 112a, and can move a predetermined amount in the axial direction of the shaft portion 112a with respect to the frame 111. Further, the bell crank 112 has an input part 112b linked to the arm part 121c of the hand grip 121 via the lever 132 of the cap assembly 130, and is connected to the front lock 201 and the rear lock 202 via a coupling mechanism (not shown). It has the output part 112c mechanically connected. The bell crank 112 is temporarily attached to the bell crank 112 until the handle assembly 120 and the cap assembly 130 are assembled to the frame 111 (when the handle assembly 120 and the cap assembly 130 are assembled to the frame 111). , A latching claw 112d (which can be disengaged from the engagement holding portion 111e of the frame 111) for temporarily holding the input portion 112b of the bell crank 112 at a position where it does not interfere with the bell crank 112 is provided. . Such a configuration is a technique disclosed in Japanese Patent Laid-Open No. 2003-41811.

  The spring 113 is a first urging member that urges the bell crank 112 toward the initial position with respect to the frame 111, and is assembled to the outer periphery of the shaft portion 112a of the bell crank 112 by a coil portion. The frame 111 is elastically engaged and the other end is elastically engaged with the bell crank 112. As a result, the spring 113 is elastically engaged with the arm portion 121c of the hand grip 121 via the tip end portion 132a of the lever 132 (see FIG. 4) (see FIG. 4). In the counterclockwise direction) with a predetermined biasing force. Therefore, the tip 112 b 1 of the input portion 112 b in the bell crank 112 is elastically engaged with the arm portion 121 c of the hand grip 121 via the lever 132.

  As shown in FIGS. 2 to 7 and 12 to 15, the handle assembly 120 includes a hand grip 121, a connection link 122, a link base 123, a spring 124, and the like. The hand grip 121 includes a grip portion 121a extending along the front-rear direction of the vehicle, a leg portion 121b provided at one end portion (vehicle rear side end portion) of the grip portion 121a, and the other end portion of the grip portion 121a (vehicle The arm part 121c provided in the front side edge part) is provided. The gripping part 121a is formed between the leg part 121b and the arm part 121c, and is a part disposed on the outer side of the outer panel 200a in the sliding door 200. When the sliding door 200 is opened and closed (when the door is opened and closed) It can be operated by hand during operation. The leg 121b is connected to the link base 123 via the connecting link 122. The arm portion 121 c is connected to the bell crank 112 described above via the lever 132 of the cap assembly 130.

  The arm portion 121c is formed with a rectangular insertion hole 121c1 through which the tip end portion 132a of the lever 132 can be inserted, and a pair of protrusions 121c2 that engage with a pair of guides 111f provided in the frame 111. Yes. As shown in FIG. 13, each protrusion 121c2 is formed in a substantially trapezoidal shape with the end face on the outside of the vehicle (the end face on the upper side in FIG. 13) inclined to the outside of the vehicle toward the front of the vehicle. When the grip 121 is opened (opening operation) as shown by broken lines in FIGS. 24 to 27, the grip 121 moves along the first guide groove 111f1 of each guide 111f, and the hand grip 121 is moved to FIGS. When the closing operation (door closing operation) is performed as indicated by a two-dot chain line, the guide 111f is configured to move along the second guide groove 111f2.

  The first guide groove 111f1 of each guide 111f extends in the vehicle inside / outside direction. The first guide groove 111f1 guides the protrusion 121c2 of the hand grip 121 to move outward and rearward of the vehicle when the hand grip 121 is opened. On the other hand, the second guide groove 111f2 of each guide 111f is connected to one end (the vehicle inner end) of the first guide groove 111f1 at the rear end and extends in the front-rear direction of the vehicle. The second guide groove 111f2 is inclined in the front-rear direction of the vehicle, the front end is located on the outer side of the vehicle relative to the rear end, and when the hand grip 121 is closed, The protrusion 121c2 is guided so as to move outward and forward of the vehicle. (See Figure 27)

  The above-described opening operation is an operation for opening the slide door 200 in the fully closed state. At this time, the hand grip 121 is moved in the same direction as the door opening direction (rear of the vehicle) for moving the slide door 200 to the opening side. Operated. For this reason, the hand grip 121 shown by a broken line in FIGS. 24 to 26 moves to the rear of the vehicle outside the vehicle with respect to the hand grip 121 in the initial position. On the other hand, the above-described closing operation is an operation for closing the sliding door 200 in the fully opened state. At this time, the handgrip 121 is moved in the same direction as the closing direction (front of the vehicle) for moving the sliding door 200 to the closing side. Operated. For this reason, the hand grip 121 shown by a two-dot chain line in FIGS. 24 to 26 is moved forward of the vehicle with respect to the hand grip 121 in the initial position outside the vehicle.

  As shown in detail in FIG. 7, the connecting link 122 is for connecting the hand grip 121 and the link base 123, and can be rotated to the link base 123 via the connecting pin 125 at the base end portion 122a. And can swing in the vehicle front-rear direction (left-right direction in FIGS. 6 and 7). Further, the connecting link 122 is rotatably attached to the leg portion 121b of the hand grip 121 through the connecting pin 126 at the tip end portion 122b. Note that a stopper 122b1 that defines the maximum amount of rotation of the hand grip 121 relative to the connection link 122 is provided at the distal end portion 122b of the connection link 122, and this stopper 122b1 is an engagement provided on the leg 121b of the hand grip 121. It can be engaged with the joint part 121b1.

  The link base 123 is for mounting (fixing) the base end portion 122 a of the connection link 122 to one end portion (vehicle rear end portion) of the frame 111, and is assembled to the leg portion 121 b of the hand grip 121 together with the connection link 122. It is attached and elastically assembled to a pair of rectangular attachment holes 111g formed at one end of the frame 111 by a pair of tongue pieces 123a. As shown in FIG. 20, the link base 123 is attached to the frame 111 by assembling the link base 123 of the handle assembly 120 to the frame 111 through the opening 111 a in the vehicle rear portion provided in the frame 111. ing.

  The spring 124 is a second urging member that urges the connecting link 122 toward the initial position (the position shown in FIGS. 6 and 7) with respect to the link base 123. In the initial position, the connecting link 122 is a link. It is in contact with the stopper portion 123b of the base 123. The spring 124 is rotatably mounted on a cylindrical portion 122a1 formed at the base end portion 122a of the connecting link 122 by the coil portion 124a, and is elastically engaged with the connecting link 122 at the one end portion 124b. At the other end 124c, the link base 123 is elastically engaged, and the connecting link 122 is urged to rotate in the counterclockwise direction of FIGS.

  As shown in FIGS. 2 to 6 and FIGS. 16 to 19, the cap assembly 130 includes a cap 131, a lever 132, an inertia stopper 133, a spring 134, and the like. The cap 131 is configured to be assembled from the outside of the vehicle using a screw 135 to the front end portion 111h of the frame 111 with the outer panel 200a of the slide door 200 interposed therebetween. The cap 131 has a support part 131 a that supports the lever 132 and the inertia stopper 133. The screw 135 is screwed to a nut 136 (see a virtual line in FIG. 6) provided integrally with the cap 131.

  The lever 132 transmits the opening operation of the hand grip 121 to the input portion 112b of the bell crank 112 at the distal end portion 132a, and rotates to the support portion 131a of the cap 131 via the pin 137 at the proximal end portion 132b. It is assembled as possible. The lever 132 is slidably engaged with the arm portion 121c of the hand grip 121 at the intermediate portion 132c. A protrusion 132b1 is formed on the base end portion 132b of the lever 132, and the protrusion 132b1 is configured to contact the stopper portion 131a1 formed on the support portion 131a of the cap 131 at the initial position shown in FIG. Has been.

  The inertia stopper 133 restricts the movement of the hand grip 121 in the closing direction when a predetermined inertia acts in the closing direction of the slide door 200 due to, for example, a vehicle collision. At 133a, it is rotatably attached to the support part 131a of the cap 131 via a pin 137. Further, the inertia stopper 133 can be joined to the lever 132 as shown in FIGS. 16 to 19 and FIGS. 32 to 35, and is separated from the lever 132 as shown in FIGS. 36 and 37. Is possible. For this reason, when a predetermined inertia acts in the closing direction of the slide door 200 as described above, the inertia stopper 133 can be separated from the lever 132 and tilted by a predetermined amount as shown in FIGS. At this time, the protrusion 133 a 1 formed on the base end portion 133 a comes into contact with the stopper portion 131 a 1 formed on the support portion 131 a of the cap 131.

  The spring 134 is a third urging member that urges the inertia stopper 133 toward the initial position (the positions shown in FIGS. 16 to 19 and FIGS. 32 to 35) with respect to the lever 132. The inertia stopper 133 is integrally joined to the lever 132, and the arm portion 121c of the hand grip 121 is engaged with the lever 132 and the inertia stopper 133 so as to be slidable in the front-rear direction of the vehicle (see FIG. 32, FIG. 34). The spring 134 is assembled to the support portion 131a of the cap 131 at both end portions 134a and 134b, and is elastically engaged with the intermediate portion 133b of the inertia stopper 133 at the intermediate portion 134c. Rotating bias is applied in the counterclockwise direction of FIG.

  As shown in FIGS. 28 and 29, the closing operation switch S1 is used to close the handgrip 121 (operation in which the handgrip 121 moves from the initial position indicated by the solid line to the position indicated by the two-dot chain line). It is attached to the frame 111 through a bracket (not shown) so as to be detachable, and is closed from the initial position indicated by the solid line of the arm portion 121c of the handgrip 121, as indicated by a two-dot chain line. The movement to the operating position can be detected electrically. As shown in FIG. 1, the electric detection signal of the closing operation switch S1 is input to the electric control unit ECU, and the electric actuator attached to the full-open lock 203 based on the detection signal. Act is activated so that the fully open lock 203 is released. When the fully open lock 203 is released, the holding and fixing of the slide door 200 in the fully open state by the fully open lock 203 is released, and the fully open slide door 200 is operated to close (the slide door 200 is moved in the vehicle longitudinal direction). Possible).

  In the vehicle door handle device 100 configured as described above, the base assembly 110, the handle assembly 120, the cap assembly 130, etc. are pre-assembled, respectively, and the base assembly 110, the handle assembly 120, A cap assembly 130 and the like are assembled to the slide door 200. First, the frame 111 of the base assembly 110 is assembled to the outer panel 200a of the sliding door 200 from the inside of the door, and then the handle assembly 120 is assembled to the frame 111 of the base assembly 110 as shown in FIGS. It has been.

  Next, the cap assembly 130 is assembled to the hand grip 121 of the handle assembly 120 and the frame 111 of the base assembly 110. Finally, the output portion 112c of the bell crank 112 in the base assembly 110 is mechanically connected to the front lock 201 and the rear lock 202 attached to the slide door 200 via a connection mechanism (not shown), and the base assembly 110 The closing operation switch S1 is assembled to the frame 111, and the actuator Act attached to the closing operation switch S1 and the fully open lock 203 is electrically connected via the electric control unit ECU.

  By the way, when the handle assembly 120 is assembled to the frame 111 of the base assembly 110 as described above, the leg 121b of the handgrip 121 is provided on the outer panel 200a of the slide door 200 together with the connecting link 122 and the link base 123. The opening (not shown) and the rear opening 111a of the frame 111 are assembled to the vehicle rear end portion (one end portion) of the frame 111, and the arm portion 121c of the handgrip 121 is provided in the outer panel 200a of the slide door 200 ( And a vehicle front end portion (the other end portion) of the frame 111 through the front opening 111b of the frame 111.

  In this state (a state in which the handle assembly 120 is assembled to the frame 111 of the base assembly 110), the pair of tongue pieces 123a provided on the link base 123 are elastic to the pair of rectangular mounting holes 111g formed in the frame 111. As a result, the leg 121b of the hand grip 121 is prevented from coming off the frame 111. Further, in this state, the arm part 121c of the hand grip 121 is assembled to the frame 111 as shown in FIGS. 22 and 23 while expanding the retaining protrusion 111i provided on the frame 111. The arm part 121c is prevented from coming off (temporarily fixed) from the frame 111.

  When the cap assembly 130 is assembled to the hand grip 121 of the handle assembly 120 and the frame 111 of the base assembly 110 as described above, the bell crank 112 is temporarily attached to the frame 111 by the base assembly 110. It is held in the holding position. Therefore, when the cap assembly 130 is assembled, first, the handgrip 121 of the handle assembly 120 assembled to the frame 111 is rotated by a predetermined amount in the vehicle exterior direction. In this state, the distal end portion 132a of the lever 132 of the cap assembly 130 is inserted into the insertion hole 121c1 provided in the arm portion 121c of the hand grip 121. Next, the cap 131 of the cap assembly 130 is fixed to the frame 111. Thereafter, the handgrip 121 is rotated by a full stroke in the vehicle outward direction, the holding and fixing of the bell crank 112 at the temporary holding position is released via the lever 132, and the spring 113 assembled to the frame 111 is placed. The function of the period comes to be demonstrated. This release operation is substantially the same as that described in JP-A-2003-41811.

  Further, the output portion 112c of the bell crank 112 is mechanically connected to the front lock 201 and the rear lock 202, and the close operation switch S1 assembled to the frame 111 is electrically connected to the electric actuator Act attached to the full open lock 203. In the connected state, an operation force for releasing the holding and fixing of the front lock 201 and the rear lock 202 (a force corresponding to the operation force of the hand grip 121) is generated by the opening operation of the hand grip 121, and the slide door 200 is operated. Can be opened, and an operation force for releasing the holding and fixing of the fully open lock 203 by a closing operation of the hand grip 121 (an electric release force obtained using the operation force of the hand grip 121 as a trigger). ) Occurs and the sliding door 200 can be closed. Possible it is. The driving force for opening or closing the sliding door 200 (driving force for moving the sliding door 200 in the vehicle front-rear direction) may be a manual operating force or an electric driving force.

  In this embodiment configured as described above, the unlocking of the full-open lock 203 is electrically driven (when the operation force applied to the handgrip 121 is used as a trigger and the closed operation switch S1 detects this, the electric actuator The driving force obtained by Act can release the holding held by the full-open lock 203), and in the closing operation of the slide door 200, the operation force in the closing direction of the hand grip 121 (the full-open lock 203 of the full-open lock 203 can be released). It is possible to reduce the operating force required for unlocking.

  In this embodiment, the closing operation switch S1 is detachably attached to the frame 111. For this reason, it is possible to assemble the hand grip 121 to the frame 111 in a state where the closing operation switch S1 is not assembled to the frame 111. When the hand grip 121 is assembled to the frame 111, the closing operation switch S1 or The wire harness (not shown) assembled thereto does not get in the way, and the assembly property of the handgrip 121 to the frame 111 can be improved.

  Further, in this embodiment, the closing operation switch S <b> 1 is disposed corresponding to the end portion of the hand grip 121 on the sliding door end side. For this reason, as compared with the case where the closing operation switch (S1) is arranged corresponding to the end of the handgrip 121 on the center side of the slide door, the closing operation switch (S1) is assembled to the closing operation switch S1 and derived from the closing operation switch S1. The wire harness (not shown) can be routed within the slide door 200 (for example, routing around the window glass in the slide door 200) with a short length, and the wire harness can be assembled. It is possible to improve performance and reduce costs.

  Further, in this embodiment configured as described above, the sliding door 200 is operated in the same direction as the opening direction in which the handgrip 121 moves the sliding door 200 in the fully closed state to the opening side. Is set such that an operating force for releasing the front lock 201 and the rear lock 202 (full-closed latch mechanism) that hold and fix the fully-closed state is generated. In addition, a fully open lock 203 (a fully open latch mechanism) that holds and fixes the slide door 200 in the fully open state by closing the slide door 200 in the same direction as the door closing direction for moving the slide door 200 in the fully open state to the close side. It is set so that an operating force for canceling is generated. For this reason, the holding and fixing of the front lock 201 and the rear lock 202 or the fully open lock 203 can be released by operating the handgrip 121 in the direction (the same direction) that does not feel uncomfortable with respect to the opening / closing direction of the slide door 200. The slide door 200 can be opened and closed. Therefore, the vehicle door handle device 100 is excellent in operability.

  In this embodiment, the base assembly 110, the handle assembly 120, the cap assembly 130, etc. are assembled in advance, and the base assembly 110, the handle assembly 120, the cap assembly 130, etc. are slid in the assembly procedure described above. The door 200 is assembled. By the way, the above assembling procedure is an assembling procedure similar to the assembling procedure that is generally performed in the conventional vehicle door handle device according to the present invention. After assembling to the outer panel 200a, the link base 123, the connecting link 122, and the hand grip 121 are assembled to the frame 111, and then the lever 132 and the cap 131 are assembled to the hand grip 121 and the frame 111. Each component (frame 111, link base 123, connecting link 122, hand grip 121, lever 132, springs 113, 124, etc.) is assembled to the outer panel 200a. For this reason, the said vehicle door handle apparatus 100 is excellent in the assembly | attachment property.

  Further, in this embodiment, the movement of the handgrip 121 operated in the same direction as the door opening direction for moving the slide door 200 in the fully closed state to the open side is the biasing force of the spring 113 from the initial position. The lever 132 is tilted toward the outside of the vehicle against the vehicle door, and the projection 121c2 provided on the arm portion 121c is moved along the first guide groove 111f1 provided on the frame 111. The movement of the handgrip 121 is toward the door opening side of the vehicle outside the vehicle centering on the connection center (connection pin 126) between the leg 121b of the handgrip 121 and the connection link 122. It is a tilting movement. Here, when the handgrip 121 is operated in the same direction as the door opening direction in which the sliding door 200 in the fully closed state is moved to the opening side, the connecting pin 126 tries to move backward and inward of the vehicle. The connecting link 122a is regulated by the stopper 123b. Therefore, the center of tilting of the hand grip 121 is the connecting pin 126. Note that the movement of the hand grip 121 at this time is restricted by the engagement portion 121b1 of the hand grip 121 coming into contact with the stopper 122b1 of the connecting link 122.

  In addition, the movement of the hand grip 121 operated in the same direction as the closing direction for moving the slide door 200 in the fully opened state to the closing side causes the hand grip 121 and the connecting link 122 to resist the biasing force of the spring 124 from the initial position. The connecting link 122 swings toward the door closing direction of the slide door 200 and the projection 121c2 provided on the arm portion 121c slides along the second guide groove 111f2 provided on the frame 111. 200 is a movement that moves in the closing direction of the door 200, and the movement of the connecting portion between the leg 121 b of the hand grip 121 and the connecting link 122 moves in the closing direction of the hand grip 121. The closing of the sliding door 200 with the connecting link 122 centered on the connecting center with the link base 123. It swings towards. Note that the movement of the hand grip 121 at this time is restricted by the protrusion 121 c 2 of the hand grip 121 coming into contact with the front end wall of the second guide groove 111 f 2 provided in the frame 111. Further, the movement of the hand grip 121 at this time may be regulated by the engaging portion 121b1 coming into contact with the stopper 122b1, and the protrusion 121c2 of the hand grip 121 is formed in the second guide groove 111f2 provided in the frame 111. It may be regulated by contacting the front end wall and contacting the engaging portion 121b1 to the stopper 122b1.

  For this reason, the amount of movement of the handgrip 121 when the slide door 200 is moved to the open side (that is, outside the vehicle of the handgrip 121 centered on the connection center between the leg 121b of the handgrip 121 and the connection link 122). It is possible to secure a necessary and sufficient amount of tilting to the door opening side (for this purpose, it is necessary to change the timing at which the engaging portion 121b1 of the handgrip 121 contacts the stopper 122b1 of the connecting link 122). ) And the amount of movement of the handgrip 121 when the slide door 200 is moved to the closing side (that is, the amount of swing of the connecting link 122 in the closing direction around the connecting center of the connecting link 122 and the link base 123). (For this purpose, the protrusion 121c2 of the handgrip 121 is Frame 111 is necessary to change the timing in contact with the front end wall of the second guide groove 111f2 provided in), it is possible to perform accurately the operation of the hand grip 121.

  In this embodiment, when a predetermined inertia acts in the closing direction of the slide door 200, the lever 132 is provided with an inertia stopper 133 that can be separated from the lever 132 and tilted by a predetermined amount against the urging force of the spring 134. When the inertia stopper 133 is separated from the lever 132 and tilted by a predetermined amount, the arm portion 121c of the hand grip 121 is engaged with the inertia stopper 133, and the movement of the hand grip 121 in the closing direction is restricted. Is set to be.

  As a result, in a vehicle in which the slide door 200 is fully open, when a predetermined inertia acts in the closing direction of the slide door 200 due to a vehicle collision or the like, an operation is performed in which the inertia stopper 133 is separated from the lever 132 and tilted by a predetermined amount. Thus, the arm portion 121c of the hand grip 121 is engaged with the inertia stopper 133, and the movement of the hand grip 121 in the door closing direction is restricted. For this reason, even if the inertia mentioned above acts on the device, the handgrip 121 is not moved in the closing direction by the inertia, and the fully open lock 203 for holding and fixing the slide door 200 in the fully open state is released. No operating force is generated. Therefore, the above-described countermeasure against inertia due to vehicle collision or the like (improvement in safety so as not to generate an operating force for releasing the holding and fixing of the fully-open latch mechanism) has a simple configuration (the inertia stopper 133 and the spring 134 are provided on the lever 132). It is possible to achieve this in the configuration provided.

  In the embodiment described above, the closing operation switch S1 that is activated in accordance with the closing operation of the handgrip 121 is accompanied by the movement of the arm portion 121c in the handgrip 121 as shown in FIGS. Although it was configured and operated, the closing operation switch S1 that operates in accordance with the closing operation of the handgrip 121 moves the connection link 122 (tilt forward of the vehicle) as shown in FIGS. It is also possible to configure and operate so as to operate along with the above.

  In the above-described embodiment, the front lock 201 and the rear lock 202 (fully closed latch mechanism) are configured to mechanically operate based on the opening operation of the hand grip 121, and the fully open lock 203 (fully opened latch mechanism). ) Is configured to operate electrically based on the closing operation of the handgrip 121. However, when the present invention is implemented, the front lock 201 and the rear lock 202 (fully closed latch mechanism) are configured to operate mechanically and electrically based on the opening operation of the hand grip 121, and the fully open lock 203 ( It is also possible to configure and implement such that the fully open latch mechanism) is electrically operated based on the closing operation of the hand grip 121.

  In implementing the present invention, the front lock 201 and the rear lock 202 (fully closed latch mechanism) are configured to be electrically operated based on the opening operation of the hand grip 121, and the fully opened lock 203 (fully opened latch mechanism). ) May be configured to be electrically operated based on the closing operation of the handgrip 121.

  When the front lock 201 and the rear lock 202 (fully closed latch mechanism) are configured to be electrically operated based on the opening operation of the hand grip 121, as shown in FIGS. An opening operation switch S2 that operates in accordance with the opening operation is provided, and an electric actuator (Act) that releases the holding and fixing of the front lock (201) and the rear lock (202) in accordance with the operation of the opening operation switch S2 is provided. It is necessary to attach to the front lock (201) and the rear lock (202), respectively. When the fully open lock 203 (full open latch mechanism) is configured to mechanically operate based on the closing operation of the hand grip 121, the hand grip 121 and the fully open lock (203) are mechanically connected via the coupling mechanism. It is necessary to connect to.

  In carrying out the present invention, the actuators are not attached to the front lock (201) and the rear lock (202), for example, via a remote controller as described in Japanese Patent Application Laid-Open No. 2011-132771. It is also possible to provide one actuator (close actuator) for releasing the front lock (201) and the rear lock (202). In implementing the present invention, the fully open lock (203) is not attached to the fully open lock (203), and the fully open lock (203) is set via a remote controller, as described in, for example, Japanese Patent Application Laid-Open No. 2011-132771. It is also possible to provide an actuator for release (release actuator). In implementing the present invention, it is also possible to employ one actuator having functions and operations equivalent to these instead of employing the above-described close actuator and release actuator.

  As shown in FIG. 38, the opening operation switch S2 opens the handgrip 121 (operation in which the handgrip 121 moves from the initial position shown by the solid line in FIG. 25 to the position shown by the broken line in FIG. 25). And is assembled to the frame 111 through a bracket (not shown) together with the closing operation switch S1, and the movement of the lever 132 to the outside of the vehicle can be detected electrically. Similarly to the electrical detection signal of the closing operation switch S1, the electrical detection signal of the opening operation switch S2 is configured to be input to the electric control unit ECU shown in FIG. On the basis of this, the electric actuator Act attached to the front lock 201 and the rear lock 202 is actuated so that the front lock 201 and the rear lock 202 are released. When the front lock 201 and the rear lock 202 are released, the holding and fixing of the slide door 200 in the fully closed state by the front lock 201 and the rear lock 202 is released, and the fully closed slide door 200 is opened. It is possible.

  In the embodiment shown in FIGS. 38 and 39, both the front lock 201 and the rear lock 202 (fully closed latch mechanism) can be unlocked and the fully open lock 203 (fully opened latch mechanism) can be unlocked both electrically. Thus, it is possible to reduce the operating force of the handgrip 121 (the operating force required to unlock each latch mechanism) in both the opening operation and the closing operation of the slide door 200.

  In the embodiment shown in FIGS. 38 and 39, the opening operation switch S2 is arranged corresponding to the end portion of the handgrip 121 on the sliding door end side in the same manner as the closing operation switch S1. Therefore, it is possible to improve the assembling property and reduce the cost of each wire harness (not shown) assembled to each switch S1, S2 and derived from each switch S1, S2, and each wire harness. The ground wire can be shared, and the wire harness can be substantially made of three wires (one ground wire and two signal (power supply) wires). However, it is possible to reduce the cost.

  In the embodiment shown in FIGS. 38 and 39, the opening operation switch S2 and the closing operation switch S1 are integrated via a connecting body Sc (see FIG. 38) such as a mounting bracket indicated by a two-dot chain line. Has been. For this reason, the close operation switch S1 and the open operation switch S2 are configured separately, and the close operation switch S1 and the open operation switch S2 can be easily assembled as compared with the case of assembling each of them (assembly man-hours). Can be reduced). Note that, in the configuration in which the opening operation switch S2, the closing operation switch S1, and the coupling body Sc are integrated, a bus bar may be employed instead of the electric wire inside the configuration.

  Further, in each of the above-described embodiments, a coupling mechanism including the coupling link 122, the link base 123, the lever 132, and the like is employed as a coupling mechanism that couples the frame 111 and the hand grip 121, and the hand grip 121 is attached to the frame 111. On the other hand, the sliding door 200 is configured to be operable in both the door opening direction and the door closing direction. However, in carrying out the present invention, the structure of the connecting mechanism that connects the frame and the handgrip can be changed as appropriate. For example, the structure of the connection mechanism (link mechanism) described in Unexamined-Japanese-Patent No. 2007-85032 may be sufficient.

  Further, in the above-described embodiment, the fully open lock 203 that holds the slide door 200 in the fully open state by operating the hand grip 121 in the same direction as the door closing direction to move the slide door 200 in the fully open state to the close side. In a system that is set to generate an operating force to release the (fully opened latch mechanism), measures against inertia due to vehicle collisions (safety to prevent the operating force to release the fully opened latch mechanism from being generated) (Improvement) (configuration in which the lever 132 is provided with an inertia stopper 133 and a spring 134) is employed. However, when the slide door is in the fully closed state, the operation force for releasing the fully closed latch mechanism is generated even when the hand grip is operated in the same direction as the door closing direction. In the system set in (1), it is possible to implement by adopting a configuration for countermeasures against inertia caused by a vehicle collision or the like (a configuration in which the lever 132 of the above embodiment is provided with the inertia stopper 133 and the spring 134). In this case, the handgrip is not moved in the closing direction due to the inertia described above, and in the vehicle in which the sliding door is in the fully closed state, the fully closed latch mechanism that holds the sliding door in the fully closed state is released. No operating force is generated.

DESCRIPTION OF SYMBOLS 100 ... Vehicle door handle apparatus, 110 ... Base assembly, 111 ... Frame, 111f1 ... 1st guide groove, 111f2 ... 2nd guide groove, 111a ... Back opening, 111b ... Front opening, 113 ... Spring (1st biasing member) ), 120 ... handle assembly, 121 ... hand grip, 121 a ... gripping part, 121 b ... leg part, 121 c ... arm part, 121 c 1 ... insertion hole, 121 c 2 ... projection, 122 ... connection link, 123 ... link base, 124 ... spring ( (Second urging member), 130 ... cap assembly, 131 ... cap, 132 ... lever, 133 ... inertia stopper, 134 ... spring (third urging member), 200 ... slide door, 200a ... outer panel, 201, 202 ... front Lock, rear lock (fully closed latch mechanism), 203 ... fully open Click (fully opened latch mechanism), S1 ... closing operation switch, S2 ... opening operation switch, Sc ... closing operation switch and connecting body for integrating the opening operation switch

Claims (5)

It is a vehicle door handle device that is mounted on a slide door of a vehicle to perform opening / closing operation of the slide door from the outside of the slide door,
A frame that is fixed to the outer panel of the sliding door from the inside of the door and is disposed along the longitudinal direction of the vehicle;
It is connected to the frame through the outer panel via a connecting mechanism, and has a grip portion extending along the front-rear direction of the vehicle on the vehicle outer side of the outer panel. A handgrip that can be operated in both directions;
A closing operation switch for detecting that the hand grip is operated in the closing direction of the sliding door by a movement accompanying the closing operation of the hand grip;
An opening operation switch for detecting that the hand grip is operated in the opening direction of the sliding door by a movement accompanying the opening operation of the hand grip;
A fully-closed latch mechanism that allows the slide door to be opened and closed by releasing the fixing that holds the slide door in a fully-closed state by operating the hand grip in the opening direction of the slide door;
When the closing operation switch detects that the hand grip has been operated in the closing direction of the slide door, the electric door is released from being fixed to hold the slide door in the fully open state, and the slide door can be opened and closed. have a fully-open latch mechanism to be,
The hand grip moves in a first direction when the hand grip is operated to open the door, and moves in a second direction different from the first direction when the hand grip is operated to close the door. Have
The closing operation switch is set to detect that the hand grip is operated in the closing direction of the slide door based on the movement of the moving unit in the second direction,
The opening operation switch is set to detect that the hand grip is operated in the opening direction of the slide door based on the movement of the moving unit moving in the first direction.
When the opening switch detects that the hand grip has been operated in the opening direction of the slide door, the second electric actuator fixes the full-close latch mechanism to hold the slide door in the fully-closed state. A vehicle door handle device configured to be released . The vehicle door handle device according to claim 1,
The vehicle door handle device in which the closing operation switch is detachably attached to the frame. The vehicle door handle device according to claim 1 or 2,
The vehicle door handle device in which the closing operation switch is arranged corresponding to an end portion of the hand grip on a sliding door end side. The vehicle door handle device according to claim 1 ,
The opening operation switch is a vehicle door handle device arranged corresponding to an end portion of the hand grip on a sliding door end side. The vehicle door handle device according to claim 4 ,
The vehicle door handle device in which the closing operation switch and the opening operation switch are integrated.

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