This application is a National Stage completion of PCT/JP2014/079314 filed Nov. 5, 2014, which claims priority from Japanese patent application serial no. 2014-111725 filed May 29, 2014.
The present invention relates to a vehicle door opening device having an outside handle.
In JP2011-132771A1, a regular user with an electronic key approaches a predetermined area around a vehicle in which a locking mechanism is in a lock state. With agreement in checking of an ID signal between a receiver and the electronic key, it is authenticated that the regular user approaches the vehicle. In the authenticated condition, the regular user operates an outside handle on the external side of a sliding door, and an outside-handle detecting switch (“PSD SW” in JP2011-132771A1) detects the operation to perform releasing action of a release actuator. A lift lever in an operating unit (“remote control” in JP2011-132771A1) is moved, and a door latch unit that holds the sliding door closed is released. At the same time or thereafter, the locking mechanism of the operating unit is turned to an unlock state. A motor of an electric door opening device (“power sliding door device”) is driven to open the sliding door automatically in a vehicle door opening device.
However, in JP2011-132771A1, in addition to the lock mechanism, there are provided an outside handle lever connected to the outside handle; an opening lever that moves with releasing action of the outside handle lever; a release lever connected to the release actuator and the lift lever connected to the door latch unit. The outside handle lever, the opening lever, the release lever and the lift lever are pivotally mounted on the same shaft, thereby providing complicated structure and increasing axial distance or thickness of the door.
In view of the disadvantages, it is an object of the present invention to provide a vehicle door opening device that comprises simple structure to enable a locked door to open.
In
On an outer panel of the door D, there are an outside handle OH for opening and closing the door D outside the vehicle, and an inside handle IH for opening and closing the door D inside the vehicle and a locking knob LK for turning a locking mechanism, later described, to an unlock state and a lock state manually. There are a fully-open door latch unit DL3 for holding the door D in a fully-open position at the lower part of the door D; a front fully-closed door latch unit DL1 for holding the door D in a closed position at the front part of the door D, and a rear fully-closed door latch unit DL2 for holding the door in a closed position. Within the side of the vehicle body B, there is an electric door opening device 100 for opening and closing the door D electrically.
Inside the door D, there is an operating unit 1 for interconnecting an operation for the outside handle OH and the inside handle IH.
The outside handle OH is pivotally mounted via a vertical shaft on the outer panel of the door D and can be pulled in a grip type in one direction or outward from an initial position or an inoperative position. In order to open and close the door D, the front of a grasping part is gripped and pulled outward, and pulling action is transmitted to the operating unit 1.
The rear fully-closed door latch unit DL2 at the front is known, engages with a front striker (not shown) fixed to the vehicle body and comprises an engagement portion (not shown) for holding the door D in the fully-closed position as shown in a solid line in
The rear fully-closed door latch unit DL2 is known, engages with a rear striker (not shown) fixed to the vehicle body and comprises an engagement portion (not shown) for holding the door D in the closed position with the front fully-closed door latch unit DL1, a closer mechanism (not shown) for operating the engagement portion from a half-latch state to a full-latch state to forcibly close from an ajar state in which the rear striker slightly engages with the engagement portion to a fully-closed state in which the striker fully engages with the engagement portion, a release portion (not shown) for disengaging the engagement portion from the rear striker when the door is opened, and an emergency mechanism (not shown) for forcibly cutting off a connection between the closer mechanism and the engagement portion.
The fully-open door latch unit DL3 is known, engages with a fully-open striker (not shown) fixed to the vehicle body, and comprises an engagement portion (not shown) for holding the door D in the fully-open position and a release portion (not shown) for releasing engagement of the engagement portion to enable the door to close from the fully-open position.
The electric door opening device 100 is known and comprises a door-opening motor M that is a reversible door-opening electric power source, a drive portion 101 that comprises a reversible rotary drum that rotates via a reduction mechanism for slowing down the motor M and an opening cable 102 and a closing cable 103 that are wound on and unwound from the rotary drum. Cables 102, 103 unwound from the rotary drum are wound on a reversible pulley (not shown) supported to the waist guide rail G2 and connected to the door D, and power of the door-opening motor M is transmitted to the door D via the opening cable 102 and the closing cable 103 to open and close the door D. The door-opening motor M is controlled by a control 200 (later described) in the vehicle body.
In
The present invention is not limited to the present embodiment, but at least one of the door-opening drive source M, the locking electric drive source M1 and the release electric drive source M2 may be a solenoid instead of the motor.
At the other side of the base member that faces the outside of the vehicle, there is provided a waterproof cover 2A that entirely covers the other side of the base member 2. A signal that is supplied from the inside-handle detecting switch SW1, the childproof detecting switch SW2 and the outside-handle detecting switch SW3 respectively is transmitted to the control 200.
The locking knob LK is supported to slide vertically along a guide bracket 29 fixed to the upper part of the base member 2. Owing to manual operation from the interior of the vehicle, the locking knob LK can move between an unlock position in
“The locking mechanism” used in this embodiment comprises the first lock lever 15, the second lock lever 16 and an engagement pin 33 (later described). “The unlock state” means that the door D can be opened by an opening action of the outside handle OH and the inside handle IH in an unlock position (later described) when the first lock lever 15, the second lock lever 16 and the engagement pin 33 are disposed in an unlock position (later described), and “the lock state” means that the door D cannot be opened by cancelling the opening action of the outside handle OH and the inside handle IH when the first lock lever 15, the second lock lever 16 and the engagement pin 33 are disposed in a lock position (later described).
“The childproof mechanism” comprises the childproof lock lever 4 and the engagement pin 18. “The childproof unlock state” means a state in which the door D can be opened by the opening action of the inside handle IH when the childproof lock lever 4 and the engagement pin 18 are in a childproof unlock position (later described) and “the locking mechanism” is in “the unlock state”, and “the childproof lock state” means a state in which the door cannot be opened by cancelling the opening action of the inside handle IH when the childproof lock lever 4 and the engagement pin 18 are in a childproof lock position and “the locking mechanism” is in “an unlock state”.
In
The locking motor M1 is controlled by the control 200.
The worm wheel 304 comprises three first projections 304b equally spaced in a rotational direction on one rotary surface 304a and second projections 304d (parenthesized in
The operating lever 306 comprises a first arm 306a with which one of the first projections 304b can come in contact at the side that faces the rotary surface 304a of the worm wheel 304 when the worm wheel 304 rotates counterclockwise from the lock position; a second arm 306b with which one of the second projections 304d can come in contact at the side that faces the rotary surface 304c when the worm wheel 304 rotates clockwise from the unlock position; and a lock detecting portion 306c that comes in contact with a lock detecting switch SW4 by rotating to the lock position.
By comprising the foregoing structure, the locking actuator AC1 acts as below. When the locking mechanism is in the unlock state, as shown by a solid line in
When the worm wheel 304 is rotated clockwise by the locking motor M1, the second projection 304d comes in contact with the second arm 306b clockwise, and the operating arm 306 rotates from the unlock position to the lock position. When the worm wheel 304 rotates clockwise through about 120 degrees, the first projection 304b (extending downward in
When the output lever 20 is rotated from the unlock position to the lock position by locking the locking knob LK manually, each of the arms 306a, 306a of the operating lever 306 does not come in contact with the projections 304b, 304d of the worm wheel 304, so that the operating lever 306 can smoothly rotate from the unlock position to the lock position without reversing the worm wheel 306.
When the locking mechanism is in the lock state, the first arm 306a of the operating arm 306 comes within a moving path of the first projection 304b of the worm wheel 304, and the second arm 306b goes out of the moving path of the second projection. The first and second projections 304b, 304d rest out of the moving path of the first and second arms 306a, 306b.
When the worm wheel 304 is rotated counterclockwise by the locking motor M1, the first projection 304b comes in contact with the first arm 306a counterclockwise, and the operating lever 306 is rotated from the lock position to the unlock position. When the worm wheel 304 rotates counterclockwise through approximately 120 degrees, the second projection 304d comes in contact with an end 306bx of the second arm 306b and the worm wheel 304 is prevented from turning counterclockwise and rests at the position. Thus, the locking mechanism rapidly shifts by rotating the output lever 20 that follows rotation of the operating lever 306, to the unlock position.
In the foregoing lock state, when the output lever 20 is rotated from the lock position to the unlock position by unlocking the locking knob LK manually, each of the arms 306a, 306b of the operating lever 306 does not come in contact with each of the projections 304b, 304d of the worm wheel 304. Thus, the operating lever 306 can rotate from the lock position to the unlock position smoothly without reversing the worm wheel 306.
The release actuator AC2 comprises the release motor M2 and a reduction gear (not shown) that slows down the motor M2 in a casing 401. The release actuator AC2 also comprises an output lever 21 pivotally mounted outside the casing 401. When the locking mechanism is in the unlock state, the output lever 21 is actuated by the release motor M2, and the fully-open door latch unit DL3 and the fully-closed door latch unit DL2 are released via each of the elements of the locking mechanism to enable the door D to open and close. The release motor M2 is controlled by the control 200.
Inside the vehicle, the inside handle IH is fixed to the end of the inside-handle shaft 22 pivotally mounted to the base member 2. When the door D is opened by the inside handle IH, the inside handle IH swings backward (in an opening direction) from the neutral position in
The inside lever 3 is pivotally mounted at the upper part of one side of the base member 2 via the inside handle shaft 22 to pivot with the inside handle IH and the inside lever 6. When the inside handle IH does not operate, the inside lever 3 is held in the neutral position with the inside handle IH by a spring 30 that acts on the inside subsidiary lever 6. When the door D is opened by the inside handle IH, the inside lever 3 moves clockwise in
In
The inside handle shaft 22, the inside lever 3 and the inside subsidiary lever 6 rotate together by operating the inside handle IH. Thus, the inside lever 3 may be fixed directly to the inside handle shaft 22 without the inside subsidiary lever 6 without losing its function.
The front end of a connecting rod 51 coupled to the closing inside lever 13 is connected through an arcuate elongate hole 3a at the upper part to move relatively longitudinally of the vehicle to enable a closing action of the inside handle IH to be transmitted to the closing inside lever 13 via the connecting rod 51. Opening action of the inside handle IH moves the opening inside lever 8 counterclockwise by making a bent portion at the rear part contact a contact portion 8a of the opening inside lever 8, thereby moving the opening inside lever 8 counterclockwise for releasing in
A slider 19 is supported up and down at the lower part of the inside lever 3. The slider 19 moves with movement of the childproof lock lever 4 and is in a childproof unlock position where the slider 19 comes within a moving path of an upper end 17a of the inside-handle detecting lever 17 when the childproof lock lever 4 is in the childproof unlock position in
The inside-handle detecting lever 17 is pivotally mounted via a shaft 28 to a switch case 40 fixed to the lower part of the base member 2 and can be rotated clockwise (counterclockwise in
The inside-handle detecting switch SW1 is included in the switch case 40. Clockwise or counterclockwise rotation of the inside-handle detecting lever 17 from the neutral position is transmitted to the inside-handle detecting switch SW1 which turns ON from OFF. The inside-handle detecting switch transmits an opening signal or a closing signal to the control 200 and triggers the electric door opening device 100.
The control 200 receives the opening signal from the inside-handle detecting switch SW1 and controls the electric-door opening device 100 to open the door D. Meanwhile, the control 200 receives the closing signal and controls the electric door opening device 100 to close the door D.
In
In
When the childproof mechanism is in the childproof unlock state, the inside-handle detecting switch SW1 can turn on and transmit to the control 200 a signal that triggers the electric door opening device 100 based on door-opening/closing action of the inside lever 3. When the childproof mechanism is in the childproof lock state, the inside-handle detecting switch SW1 cannot transmit a signal that triggers the electric door opening device 100 based on door-opening action, but a signal that triggers the electric door opening device 100 can be transmitted to the control 200 only based on closing action.
The closing inside lever 13 is pivotally mounted to the base member 2 via the shaft 25, and the lower part of the closing inside lever 13 is connected to the elongate hole 3a of the inside lever 3 via the connecting rod 51. A contact portion 10c (later described) of the second outside lever 10 can come in contact with a bent portion 13a at the lower part from back. The lowest portion is connected to the fully-open door latch unit DL3 via a motion-transmitting member 61 such as a Bowden cable. The closing inside lever 13 moves clockwise in
When the fully-open door latch unit DL3 engages with the striker to hold the door D fully open, the closing inside lever 13 performs releasing action in
The opening inside lever 8 is pivotally mounted to the base member 2 via the shaft 24, and the bent portion 3b comes in contact with the contact portion 8a from above according to clockwise opening action of the inside lever 3. According to opening action of the inside lever 3, the opening inside lever 8 moves for releasing counterclockwise in
In
The opening inside lever 8 has a vertical elongate hole 8b at the upper part. An engagement pin 18 fits in the elongate hole 8b, and moves between the childproof unlock position in
As clearly shown in
The emergency lever 9 is pivotally mounted to the base member via a shaft 24, and a connecting portion 9a at the end is connected to an emergency mechanism (emergency lever) of the fully-closed door latch unit DL2 via a motion transmitting member 62. Whether the locking mechanism is in the unlock state or lock state, the emergency lever 9 rotates against a spring 35 counterclockwise according to opening action of the outside handle OH or inside handle IH from its initial position in
The first outside lever 7 is pivotally mounted to a switch case 40 via a shaft 23 or a first shaft disposed along the width of the vehicle. The lower end of a vertical motion transmitting member 63 of which the upper end is coupled to the outside handle OH is coupled to a connecting portion 7a at the front end of the first outside lever 7. The front end of a connecting rod 53 of which the rear end is coupled to the second outside lever 10 slides through an elongate hole 7b at the lower part of the first outside lever 7. By the outside handle OH, the motion transmitting member 63 is moved downward, and the first outside lever 7 is moved counterclockwise from its initial portion in
There is formed a play L in
The outside-handle detecting switch SW3 is off in
When the door D is closed or fully open, the control 200 carries out control of the release motor M based on ON signal of the outside-handle detecting switch SW3 and then control of the door opening motor M to control electric opening action or closing action of the door D. When the door D is closed and the locking mechanism is in the lock state, a regular user with an electronic key SW5 approaches a predetermined area around the vehicle. When ID signals are matched to authenticate that the regular user approaches the vehicle through wireless communication between the electronic key SW5 and a receiver 201 in the vehicle, based on operation for returning to the initial position after an opening action of the outside handle OH at the initial position made by the regular user, owing to turning the outside-handle detecting switch SW3 from OFF to ON/OFF, first, the locking motor M1 is controlled for unlocking to turn the locking mechanism to an unlock state, and then the fully-closed door latch units DL1, DL2 are released by the release motor M2, and the door D is opened by the door opening motor M. Unless ID signals are not identified, the control 200 carries out nothing even if the outside-handle detecting switch SW3 is turned from OFF to ON/OFF.
The second outside lever 10 is pivotally mounted to the base member 2 via a second shaft 24. A front end 54a of a connecting rod 54 coupled to an output lever 21 of the release actuator AC2 slides through an elongate hole 10a at the lower part of the second outside lever 10. The lower part of the second outside lever 10 is coupled to the first outside lever 7 via the connecting rod 53. With releasing action (counterclockwise in
Releasing action of the second outside lever 10 is transmitted to the subsidiary lever 11 because a pawl 10b of the second outside lever 10 comes in contact with a bent portion 11a of the subsidiary lever 11 from below. The contact portion 10c of the second outside lever 10 comes in contact with the bent portion 13a of the closing inside lever 13, and releasing action of the second outside lever 10 is transmitted to the closing inside lever 13 to make the closing inside lever 13 perform releasing action.
When the second outside lever 10 carries out releasing action based on releasing action of the first outside lever 7, the front end 54a of the connecting rod 54 merely moves through the elongate hole 10a of the second outside lever 10 relatively, so that releasing action of the second outside lever 10 is not transmitted to the output lever 21 of the release actuator AC2. When the second outside lever 10 performs releasing action based on the release actuator AC2, the front end 53a of the connecting rod 53 merely moves through the elongate hole 7b of the first outside lever 7 relatively, so that releasing action of the second outside lever 7 is not transmitted to the first outside lever 7.
The subsidiary lever 11 is pivotally mounted to the base member 2 via the shaft 24. The pawl 10b of the second outside lever 10 comes in contact with the bent portion 11a from below. With releasing action of the second outside lever 10 based on opening action of the outside handle OH, the subsidiary lever 11 performs releasing action to rotate counterclockwise against the spring 35 from its initial position in
In
At the lower part of the subsidiary lever 11, there is a vertical elongate hole 11c in which the engagement pin 33 of the locking mechanism vertically moves.
In addition to the elongate hole 11c of the subsidiary lever 11, the engagement pin 33 slides along an L-like control hole 12a that comprises a vertical portion and a horizontal portion that is continuous with the lower end of the vertical portion in the release lever 12 and along a horizontal elongate hole 16a in the second lock lever 16. When the second lock lever 16 is in the unlock position in
The release lever 12 is pivotally mounted to the base member 2 via the shaft 24. A connecting portion 12b at the upper part of the release lever 12 is connected to a release mechanism of the fully-closed door latch unit DL2 via a motion transmitting member 64 and to a release mechanism of the fully-closed door latch unit DL1. When the engagement pin 33 that slides along the L-like control hole 12a, the first lock lever 15 and the second lock lever 16 are in the unlock position and the locking mechanism is in the unlock state in
The first lock lever 15 is pivotally mounted to the base member 2 via the shaft 27. A connecting portion 15a at the rear end of the first lock lever 15 is connected to the locking knob LK via a vertical connecting rod 52, and a connecting portion 15b at the lower end is connected to the upper end of the output lever 20 of the locking actuator AC1.
Hence, owing to manual operation of the locking knob LK and the output lever 20 with the locking actuator AC1, the first lock lever 15 moves to the unlock position in
The second lock lever 16 is pivotally mounted to the base member 2 via the shaft 27 on a surface facing the inside of the vehicle and moves from the unlock position to the lock position with the first lock lever 15 because the second lock lever 16 comes in contact with a projection 15c of the first lock lever 15 in
The second lock lever 16 has an elongate hole 16a along which the engagement pin 33 slides. When the second lock lever 16 is in the unlock position as mentioned above, the engagement pin 33 is in the unlock position in
When the engagement pin 33 is in the unlock position, it comes in contact with the vertical portion of the control hole 12 counterclockwise according to releasing action of the subsidiary lever 11 in
In the locking mechanism in this embodiment, the first lock lever 15 is separated from the second lock lever 16, but, if necessary, the first lock lever 15 may integrally be formed with the second lock lever 16.
In
The operating portion 4b has a size enough to close the operating hole D1 from in the door D at any position. On the surface exposed through the operating hole D1, without projection, there is formed an operating groove 4d into which a finger can be inserted. The childproof lock lever 4 is operated while the finger is put in the operating groove 4d of the operating portion 4b.
In
When the childproof lock lever 4 is in the childproof unlock position, the engagement pin 18 is in the childproof unlock position in
Hence, when the childproof lock lever 4 is in the childproof unlock position, releasing action of the opening inside lever 8 can be transmitted to the subsidiary lever 11 via the engagement pin 18, but cannot be transmitted to the switch lever 5, and when the childproof lock lever 4 is in the childproof lock position, releasing action of the opening inside lever 8 cannot be transmitted to the subsidiary lever 11 via the engagement pin 18, but can be transmitted to the switch lever 5.
Releasing action of the opening inside lever 8 is transmitted to the switch lever 5 via the engagement pin 18 and rotates against the spring 37 from its initial position in
The childproof detecting switch SW2 is disposed in the switch case 40 and is usually OFF. When the childproof mechanism is in the childproof lock state, the switch lever 5 rotates in
The childproof lock link 14 is pivotally mounted to the base member 2 via the shaft 26, and an elongate hole 14a at the front part is connected to a connecting stem 4c on the side of the childproof lock lever 4. An elongate hole 14b at the rear part is connected to a connecting stem 19b on the side of the slider 19. Thus, when the childproof lock lever 4 is in the childproof unlock position, the childproof lock link 14 is in a childproof unlock position in which the slider 19 is in a childproof unlock position in
As mentioned above, the first outside lever 7 connected to the outside handle OH is pivotally mounted via the first shaft 23, and the second outside lever 10 connected to the release actuator AC2 is pivotally mounted via the second shaft 24, the first outside lever 7 does not overlap the second outside lever 10 in an axial direction, thereby making the operating unit thinner.
The control 200 in the vehicle is electrically connected to a battery in the vehicle and controls electrical elements under computer program. Based on each signal, the door opening motor M, the locking motor M1 and the release motor M2 are controlled at a predetermined timing.
In
With
When the control 200 authenticates the ID signal, the outside handle OH is operated by a regular user at timing A, and the first outside lever 7 rotates through a stroke corresponding to the play L as initial releasing action. The outside handle detecting switch SW3 turns ON from OFF at timing B.
The outside handle OH is operated through a predetermined stroke, and ON of the outside handle detecting switch SW3 continues for a predetermined time t1. The outside handle OH returns to its initial position, and the control 200 controls for unlocking at timing D because the outside-handle detecting switch SW3 turns to OFF at timing C. The outside handle OH returns to its initial position, so that all elements with action of the outside handle OH, the first outside lever 7, the connecting rod 53, the second outside lever 10, the subsidiary lever 11, the engagement pin 33, the closing inside lever 13 and the emergency lever 9, return to their initial positions.
The operating lever 306 of the locking actuator AC1 rotates from the lock position to the unlock position, the lock detecting switch SW4 turns from ON to OFF, and the locking mechanism turns from the lock state to the unlock state. Thus, based on an unlock signal (OFF signal) from the lock detecting switch SW4, the control 200 controls the release motor M2 at timing F. Hence, according to releasing action of the output lever 21, the release actuator AC2 moves the second outside lever 10 via the connecting rod 54, so that the fully-closed door latch units DL1, DL2 are released via the subsidiary lever 11, the engagement pin 33 and the release lever 12 to enable the door D to open at timing H.
The play L is formed between the front end 54a of the connecting rod 54 and the rear end of the elongate hole 10a. Thus, releasing action of the output lever 21 is transmitted to the second outside lever 20 at timing G after stroke rotation corresponding to the play L.
The control 200 detects that the door D can be opened at the timing H, and controls the door opening motor M. Thus, the door D can be opened by the electric opening device 100.
In the vehicle door opening device in this embodiment, when the door is closed and the locking mechanism is in the lock state, the regular user with the electronic key SW5 approaches a predetermined area around the vehicle, and the user operates the outside handle OH. The outside handle returns to its initial position after it is operated once, and the control 200 controls the locking motor M1 for unlocking, and turns the locking mechanism from the lock state to the unlock state. After completion of the turning, the release motor M2 is controlled for releasing to enable the door D to open. Thereafter, the door opening motor M is controlled to open the door D, enabling the door D to open owing to the electric door opening device 100 securely and reliably without losing operativity. Specifically, the vehicle door opening device in this embodiment simplifies the structure of the operating unit 1 and enables the door D to open securely and reliably because the locking mechanism is turned from the lock state to the unlock state owing to action of the outside handle OH with releasing action of the release actuator AC2. Thus, it is not necessary to provide the structure for preventing each element from interacting with each other.
In order to improve security, the control 200 is configured not to perform unlock control of the locking motor M1, release control of the release motor M2 and opening control of the door opening motor M when time t1 for detecting action of the outside handle OH owing to the outside handle detecting switch SW3 is shorter than predetermined time.
Motion of the operating unit 1 in this embodiment will be described with respect to
The Outside Handle OH is Operated to Open the Door when the Door D is Fully Closed in
In
In this case, because the lock mechanism is in the unlock state, the door D can be opened by the electric door opening device 100 owing to the outside handle OH whether or not an operator with the outside handle OH is a regular user with an electronic key.
The Inside Handle is Operated to Open the Door when the Door is in a Fully-Open Position in
In
The opening inside lever 8 moves counterclockwise around the shaft 24 against the spring 35. Releasing action is transmitted to the engagement pin 18, the subsidiary lever 11, the release lever 12 and the emergency lever 9. With releasing action of the opening inside lever 8, the engagement pin 18 moves forward, but the engagement pin 18 is in a position where it cannot come in contact with the contact portion 5a of the switch lever 5. So the engagement pin 18 does not come in contact with the contact portion 5a even if it moves forward. Thus, the switch lever 5 does not operate.
The release lever 12 is moved with releasing action of the opening inside lever 8. Releasing action is transmitted to the fully-closed door latch unit DL2 via the motion-transmitting member 64 and to the fully-closed door latch unit DL1 via the motion-transmitting member 65. Thus, the fully-closed door latch units DL2, DL1 are released to enable the door D to open. The control 200 carries out opening control of the electric door opening device 100 based on an opening signal of the inside-handle detecting switch SW1.
The Outside Handle OH is Operated when the Door D is in the Fully-Closed Position in
In
Because the locking mechanism is in the lock state this time, in
The outside handle OH returns to the initial position, and the outside-handle detecting switch SW3 turns ON from OFF, and the first outside lever 7, the second outside lever 10 and the subsidiary lever 11 return to their initial positions. The locking actuator AC1 performs unlocking action to turn the locking mechanism to the unlock state.
In
If there is no agreement in checking of ID signals on wireless communication between the electronic key SW5 and the receiver 201, the door D cannot be opened even if the outside handle OH is operated.
The Inside Handle IH is Operated to Open the Door when the Door D is Fully Closed in
In
The opening inside lever 8 rotates counterclockwise against the spring 35 around the shaft 24 to perform releasing action. The releasing action is transmitted to the engagement pin 18, the subsidiary lever 11 and the emergency lever 9, but is not transmitted to the release lever 12 because the engagement pin 33 of the locking mechanism is in the lock position. In this state, forward motion of the engagement pin 18 owing to the releasing action of the opening inside lever 8 is not transmitted to the switch lever 5.
Thus, even if the inside handle IH is operated to open the door, the fully-closed door latch units DL2, DL1 cannot be released, so that the door D cannot be opened. The control 200 does not perform opening control of the electric door opening device 100 even if a signal is transmitted from the inside-handle detecting switch SW1.
The Outside Handle OH is Operated to Open the Door when the Door D is Fully Open in
When the outside handle OH is operated to open the door in
Because the locking mechanism is in the unlock state, the control 200 performs releasing control of the release motor M2 when the outside-handle detecting switch SW3 turns ON from OFF owing to action of the outside handle OH to enable the door D to open. Right after it, the electric door opening device 100 performs opening control.
The Inside Handle IH is Operated to Open the Door when the door D is Fully Closed in
When the inside handle IH is operated to open the door in
However, in the childproof lock state, in
Thus, in
The Inside Handle IH is Operated to Close the Door when the Door D is Fully Open in
In
The closing inside lever 13 is moved clockwise from its initial position against the spring 31, and releasing action is transmitted to the fully-open door latch unit DL3 via the motion-transmitting member 61. Thus, the fully-open door latch unit DL3 is released and disengages from the striker to enable the door D to close.
The inside lever 3 is operated to close the door counterclockwise, and the contact portion 3c of the inside lever 3 comes in contact with the upper end 17a of the inside-handle detecting lever 17, which is rotated clockwise from its neutral position. Thus, the inside-handle detecting switch SW1 turns ON from OFF. Based on transmission of an ON signal from the inside-handle detecting switch SW1, the control 200 performs closing control of the electric door opening device 100.
The Inside Handle IH is Operated to Close the Door when the Door D is in the Fully-Open Position in
In
The closing inside lever 13 is moved clockwise from its initial position against the spring 31, and releasing action is transmitted to the fully-open door latch unit DL3 via the motion transmitting member 61. Thus, the fully-open door latch unit DL3 is released and disengages from the striker to close the door D.
The inside lever 3 is moved counterclockwise to perform closing action. Even when the slider 19 is in the childproof lock position, the contact portion 3c of the inside lever 3 comes in contact with the upper end 17a of the inside-handle detecting lever 17 to make the inside-handle detecting lever 17 rotate clockwise from its neutral position. Thus, the inside-handle detecting switch SW1 turns ON from OFF, and the control 200 carries out opening control of the electric door opening device 100 based on transmission of ON signal from the inside-handle detecting switch SW1.
The Outside Handle OH is Operated when the Door is in the Fully-Open Position in
Whether a regular user or not, when the outside handle OH is operated, the outside-handle detecting switch SW3 turns ON from OFF, the control 200 does not perform drive control, but perform releasing drive control of the release motor M2. Then, it performs closing drive control of the door opening motor M.
The Outside Handle OH is Operated when the Door D is in the Fully-Open Position in
Whether a regular user or not, as well as the fully-closed position of the door D, the outside handle OH returns to its initial position after it is operated. The control 200 performs unlocking control of the locking motor M1 to turn the locking mechanism from the lock state to the unlock state. After completion of the turning, the release motor M2 is controlled for releasing to enable the door D to open. Thereafter, the door opening motor M is controlled to close the door.
The Outside Handle OH is Operated when the Door D is between the Fully-Closed Position and the Fully-Open Position in
In order to improve security, whether the locking mechanism is in the unlock state or lock state, taking the opportunity that the outside-handle detecting switch SW3 turns ON by detecting the operation of the outside handle OH, the control 200 does not perform releasing control of the release motor M2, but performs the door opening motor closing control. Thus, the door D can be opened by the electric opening device 100 based on the operation of the outside handle OH.
Number | Date | Country | Kind |
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2014-111725 | May 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/079314 | 11/5/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/182008 | 12/3/2015 | WO | A |
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