JP2009257050A - Vehicle door locking device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a vehicle door locking device for making the display state of a mechanical display part coincide with the unlock or lock state of a vehicle door. <P>SOLUTION: This device includes an engaging pin 23e abutting on an active lever 26 to transmit power on the side of moving the active lever 26 into a lock position from an unlock position; a spring 43 biasing the engaging pin 23e to the side of abutting on the active lever 26; an engaging piece 22c abutting on an inside open lever 23 on the moving side interlocked with the locking operation of an inside handle to transmit power to the inside open lever 23 to move the active lever 26 into the lock position from the unlock position; a spring 41 biasing the engaging piece 22c to the side of abutting on the inside open lever 23 with biasing force smaller than the spring 43; and a locking actuator 29 moving the active lever 26 between the unlock position and the lock position. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a vehicle door lock device.

  Conventionally, as a door lock device for vehicles, what was indicated, for example in patent documents 1 is known. In this vehicle door lock device, the inside handle (C) and the lock device main body (B) are connected by a single cable (7), and the inside handle is unlocked when the vehicle door is unlocked (unlocked). By pushing it to the side, it becomes locked (locked) state. On the other hand, when the vehicle door is locked, the inside handle is pulled to the front to unlock the vehicle door, and by pulling the vehicle to the front, the vehicle door is opened to the vehicle body.

  Specifically, in the linkage of the operation member (4) connected to the cable and the locking member (3) for preventing the latch member (2) of the latch mechanism from rotating, the part opposes a part of the locking member. There is provided switching means (6) installed so as to be able to reciprocate between the unlock position and the lock position for maintaining the locking of the latch by the locking member, and the switching means is interlocked with the operation member. An interlocking member (91) is provided. On the other hand, the operation member includes a guide portion (63) for pushing and moving the interlocking member in a process in which the operation member moves between the unlock position and the lock position to change the switching means between the unlock position and the lock position. ) And a release portion (64) for breaking the linkage with the interlocking member in the process of moving the operation member between the unlocked position and the position where the pawl is released (release position). Yes.

  In addition, as another vehicle door lock device, a function that prevents the vehicle door from being opened with respect to the vehicle body by operating the inside handle when the vehicle door is in an unlocked state, a so-called child lock function is provided. A thing is also known (for example, patent document 2 etc.). And when adding such a function to the door lock device for vehicles of patent documents 1, the state which can transmit power from the operation member to a locking member by dividing an operation member, for example, and impossible It is necessary to configure so that the state can be created selectively.

Furthermore, as another vehicle door lock device, a function that prevents the vehicle door from being opened with respect to the vehicle body by operating the inside handle when the vehicle door is in a locked state, a so-called double lock function is provided. Is also known.
Japanese Patent Laid-Open No. 11-101041 (FIG. 1-8) JP 2003-328623 A

  By the way, in the case of a configuration in which the locked state or the unlocked state is obtained only by operating the inside handle as in the vehicle door lock device of Patent Document 1, the current state of the vehicle door (lock / unlock) is adjusted according to the arrangement of the inside handle. It is common to provide a mechanical display unit that switches and displays the lock state. In this case, when the child lock state with the above-described function addition is switched to the lock state (that is, the double lock state) by, for example, the electric drive means, the power transmission with the inside handle is cut off, so the display unit is unlocked. There is a problem that the vehicle door is locked while the state is displayed, and the display state of the display unit does not match the state of the vehicle door.

  An object of the present invention is to provide a vehicle door lock device having a function of preventing the vehicle door from being opened with respect to the vehicle body by operating the inside handle, in an unlocked / locked state in accordance with the arrangement of the inside handle. An object of the present invention is to provide a vehicle door lock device capable of matching the display state of a mechanical display unit for display with the unlocked / locked state of a vehicle door.

  In order to solve the above problems, the invention according to claim 1 is characterized in that the latch mechanism for holding the vehicle door in a closed state with respect to the vehicle body and the inside handle operated from the indoor side are in the first predetermined position. Sometimes an unlocked state is displayed, and a mechanical display unit that displays the locked state when the second predetermined position is moved from the first predetermined position to the one side direction and the cable via one cable. An inside lever that is connected to the inside handle and moves in conjunction with the inside handle, an inside open lever that can release the holding state of the closed state by the latch mechanism, and the vehicle door that can be opened with respect to the vehicle body The movement of the inside open lever and the outdoor operation force can be transmitted to the latch mechanism to operate the latch mechanism so that A locking lever that can be moved between a locked position and a non-transmittable lock position, an unset position where power can be transmitted between the inside lever and the inside open lever, and power transmission between the inside lever and the inside open lever. A movable body movable to a set position where the movable handle is in the unlocked position, and the inside handle is in the first predetermined position when the movable body is in the unlocked position. By moving in the other direction from the position, the inside open lever is moved by power transmission via the moving body between the inside lever and the inside open lever, and the vehicle door can be opened with respect to the vehicle body. The vehicle door that operates the latch mechanism to be An engagement portion provided on the inside open lever, capable of transmitting power on the side that contacts the locking lever and moves the locking lever from the unlocked position to the locked position, and one end portion And the other end portion is respectively engaged with the inside open lever and the locking lever, and the engagement portion is provided on the inside lever, and is urged toward the side in contact with the locking lever, Power can be transmitted to the inside open lever to contact the inside open lever and move the locking lever from the unlocked position to the locked position on the moving side interlocking with the movement of the inside handle in the one side direction. The engagement piece, one end and the other end are the inside lever and the A second urging unit that is respectively locked to the inside open lever and urges the engagement piece to a side that contacts the inside open lever with a smaller urging force than the first urging unit; and The gist is provided with the unlocking position and an electric driving means for moving between the unlocking position and the locking position.

  According to this configuration, when the locking handle is in the unlocked position and the moving body is in the set position, the inside handle moves from the first predetermined position to the other side direction. Although the inside lever moves in conjunction with the second urging force, the second urging force has a smaller urging force than the first urging means because the inside open lever is urged and held by the first urging means. The biasing means is bent and power transmission from the inside lever to the inside open lever is interrupted. Therefore, the holding of the closed state by the latch mechanism cannot be released by the movement of the inside handle. Further, when the electric driving means is driven to move the locking lever to the locked position when the locking lever is in the unlocked position and the moving body is in the set position, the first attachment is performed. The inside open lever is moved by being biased by the biasing means, and the inside lever is moved by being biased by the second biasing means. At this time, the inside handle moves from the first predetermined position to the second predetermined position in conjunction with the movement of the inside lever, and the lock state is displayed on the display unit correspondingly. On the other hand, when the electric drive means is driven to move the locking lever to the unlocked position in this state, the engagement portion is pressed by the locking lever to move the inside open lever, and the inside open The engaging lever is pressed by the lever, and the inside lever moves. At this time, the inside handle moves from the second predetermined position to the first predetermined position in conjunction with the movement of the inside lever, and the unlocked state is displayed on the display unit accordingly. Therefore, when the movable body is in the set position, even if the locking lever is moved to the unlocked position or the locked position by the electric driving means, the inside lever and the inside handle are moved in conjunction with this movement. Thus, it is possible to display a state (lock / unlock state) corresponding to each state on the display unit.

  According to a second aspect of the present invention, in the vehicle door lock device according to the first aspect of the present invention, the vehicle is provided with a third urging unit that selectively holds the locking lever at the unlocked position and the locked position. The gist is that the urging forces of the first and second urging means are set to be larger than the urging forces of the third urging means.

  According to this configuration, the locking lever is selectively biased and held by the third biasing means, so that the locking lever can be stably held at the unlock position and the lock position. . Further, the urging forces of the first and second urging means are set to be larger than the urging forces of the third urging means, for example, the locking lever is in the lock position, and If the inside handle moves from the second predetermined position to the first predetermined position when the movable body is at the set position, the second urging means is applied to the second lever as the inside lever moves in conjunction therewith. The inside open lever is moved against the urging force of the third urging means and urged by the first urging means, and the locking lever is against the urging force of the third urging means. And move to the unlock position. Therefore, the locking lever can be moved from the locked position to the unlocked position against the urging force of the third urging means.

  In the present invention, in the vehicle door lock device having a function of preventing the vehicle door from being opened with respect to the vehicle body by operating the inside handle, the unlocked / locked state is displayed in accordance with the arrangement of the inside handle. It is possible to provide a vehicle door lock device capable of matching the display state of the mechanical display unit with the unlocked / locked state of the vehicle door.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, an embodiment of the invention will be described with reference to the drawings.
As shown in FIG. 1, a door lock device that engages with a striker 2 provided in a vehicle body (not shown) in the vehicle door 1 and holds the vehicle door 1 in a closed state with respect to the vehicle body. 10 is disposed along the rear edge. The vehicle door 1 is provided with an inside handle 3 so as to be exposed to the indoor side, and an outside handle 4 is provided so as to be exposed to the outside of the room.

  In this embodiment, the conventional lock knob is omitted, and the inside handle 3 and the door lock device 10 are connected by a single cable (not shown), so that the inside handle 3 is in a neutral position (first predetermined position). The operation of pushing from the position) to the back side and moving it to a predetermined position (second predetermined position) is a lock (locking) operation of the vehicle door 1. Further, the operation of pulling the inside handle 3 forward from the predetermined position to move it to the neutral position is an unlocking (unlocking) operation of the vehicle door 1, and the operation of further pulling the inside handle 3 is an opening operation of the vehicle door 1. On the indoor side of the vehicle door 1, a mechanical display unit that displays an unlocked / locked (unlocked / locked) state in accordance with the arrangement (neutral position / predetermined position) of the inside handle 3 associated with the above-described operation. 5 is installed.

  As shown in FIG. 2, the latch mechanism 11 included in the door lock device 10 includes a latch 12 and a pole 13, and engages with the striker 2 to move the vehicle door 1 against the vehicle body. Hold in the closed state. That is, when the vehicle door 1 is closed, the latch 12 rotates and engages the striker 2, and at the same time, the pawl 13 prevents the latch 12 from rotating, thereby holding the vehicle door 1 in the closed state. Further, when the pawl 13 is moved to release the latch 12, the latch 12 is urged by a return spring (not shown) to rotate back and release the engaged state with the striker 2 to the vehicle body. To bring the vehicle door 1 into an openable state.

  Next, the door lock device 10 will be described in more detail with reference to FIGS. 3 shows a state in which the vehicle door 1 is in an unlocked state (unlocked state) and allows the opening operation of the vehicle door 1 by the operation of the inside handle 3 (hereinafter also referred to as “unset state”). ).

  As shown in FIG. 3, the door lock device 10 includes a box-shaped housing 21, an inside lever 22, an inside open lever 23, a bush 24 as a moving body, an active lever 26 as a locking lever, and a panic. A lever 27, an open link 28, a locking actuator 29, a child protector lever 30, an intermediate lever 31, and a child protector actuator 32 are provided.

  The inside lever 22 is made of, for example, a metal plate, and is connected to the housing 21 so as to be rotatable in the clockwise and counterclockwise directions shown in the figure around the rotation axis O1. The inside lever 22 is connected to the inside handle 3 through the one cable described above, and the inside handle 3 moves to one side from the neutral position to the predetermined position (pushed into the back side). ) To rotate in the clockwise direction in the figure in conjunction with this, and in the counterclockwise direction in the figure in conjunction with this by moving the inside handle 3 to the other side (pulled to the near side). To do.

  This inside lever 22 has a hook-shaped locking piece 22a formed by folding a tip portion extending toward the upper right side in the figure to the rotating shaft O1 side. The inside lever 22 is connected to the inside handle 3 by the cable at the locking piece 22a. The inside lever 22 has an engagement groove 22b formed by cutting a distal end extending in the radial direction centered on the rotation axis O1 (lower right side in FIG. 3) into a U shape on the rotation axis O1 side. At the same time, the distal end extending to the other side in the radial direction (upper left side in FIG. 3) is bent on the side toward the clockwise direction in the figure to form a flange-like engagement piece 22c.

  The inside open lever 23 is made of, for example, a metal plate, and is rotatable in the illustrated clockwise and counterclockwise directions with respect to the housing 21 around the rotation axis O1 on the back side perpendicular to the paper surface of the inside lever 22. It is connected. The inside open lever 23 has a claw-like pressing piece 23a extending on one side in the radial direction centered on the rotation axis O1 (lower right side in FIG. 3), and both sides of the proximal end portion of the pressing piece 23a are The guide pieces 23b are formed in parallel with each other. In addition, the inside open lever 23 has a distal end extending in the other radial direction (the lower side in FIG. 3) bent at the side toward the counterclockwise direction in the figure to form a flange-like locking piece 23c. The engagement piece 22c has a flange-like engagement piece 23d disposed on the turning locus in the clockwise direction of the drawing.

  The other end portion of the spring 41 serving as the second urging means, which is wound around the rotation axis O1 and is locked at one end portion to the engagement piece 22c, is engaged with the locking piece 23c. The inside lever 22 is biased by the spring 41 to the side that rotates in the clockwise direction in the figure with respect to the inside open lever 23, that is, the side where the engaging piece 22c contacts the engaging piece 23d. . Note that an engaging pin 23e as an engaging portion is attached to a distal end portion of the inside open lever 23 that extends in the radial direction on the upper side in the drawing.

  The bush 24 is formed, for example, in a flat plate shape with a resin material, and is slidably supported along the longitudinal direction (radial direction) by the guide piece 23b. The bush 24 is formed with a substantially cylindrical engaging protrusion 24a that protrudes toward the near side and the far side perpendicular to the paper surface. When the bush 24 is disposed at a predetermined position on the rotation axis O1 side in the guide piece 23b, the engagement protrusion 24a is inserted into the engagement groove 22b and the rotation axis O1 is centered with respect to the inside lever 22. The relative movement in the circumferential direction is restricted. At this time, the bush 24 can transmit the movement (rotation) of the inside lever 22 to the inside open lever 23, and the position of the bush 24 at this time is referred to as an unset position.

  On the other hand, when the bush 24 is disposed at a predetermined position on the distal end side (side away from the rotation axis O1) of the guide piece 23b (see FIG. 7), the engagement protrusion 24a is separated from the engagement groove 22b. The restriction of the relative movement with respect to the inside lever 22 is released. At this time, the bush 24 cannot transmit the movement (rotation) of the inside lever 22 to the inside open lever 23, and the position of the bush 24 at this time is referred to as a set position. That is, the bush 24 is selectively switched so that the inside lever 22 and the inside open lever 23 can be integrally rotated and relatively rotated by displacement along the guide piece 23b.

  The active lever 26 is formed of, for example, a resin material, and rotates in a predetermined direction with respect to the housing 21 around a rotation axis O2 parallel to the rotation axis O1 at an axial position overlapping with the inside open lever 23. Within the range, they are coupled so as to be rotatable in the clockwise direction and the counterclockwise direction shown in the figure. The pivot position shown in FIGS. 3 and 4 where the pivoting of the active lever 26 in the illustrated clockwise direction is restricted is referred to as the unlock position of the active lever 26. Further, the rotation position shown in FIG. 5 where the rotation of the active lever 26 in the illustrated counterclockwise rotation direction is restricted is referred to as a lock position of the active lever 26. The housing 21 is attached with a spring 42 as a third urging means for positioning the active lever 26. The active lever 26 is urged by the spring 42 to unlock its rotational position. The position and the lock position are selectively switched and held.

  The active lever 26 extends in one radial direction (lower side in FIG. 3) around the rotation axis O2 and rotates in the clockwise direction in the figure around the rotation axis O1 of the engagement pin 23e. A contact surface 26a disposed on the locus is formed, and a fan-shaped gear portion 26b extending from the rotating shaft O2 toward the locking actuator 29 is provided. The locking actuator 29 has an electric motor 29a and an output gear portion 29b fixed to the rotating shaft of the electric motor 29a. The active lever 26 is connected to the output gear portion 29b of the locking actuator 29 in the gear portion 26b. It is in meshing connection. The active lever 26 is driven by the lock actuator 29 and selectively switched between the unlock position and the lock position.

  The active lever 26 is engaged with the other end of a spring 43 as a first urging means wound around the rotation axis O2 and locked to one end of the engaging pin 23e. The inside open lever 23 is biased by the spring 43 toward the side rotating around the rotation axis O1 in the clockwise direction in the figure, that is, the side where the engagement pin 23e contacts the contact surface 26a. ing. The biasing force of the spring 43 is set larger than the biasing force of the spring 41.

  The panic lever 27 is made of, for example, a metal plate, and is coupled to the housing 21 so as to be rotatable in the illustrated clockwise and counterclockwise directions around the rotation axis O2. The panic lever 27 is wound around the rotation axis O2, and the other end of the biasing member (not shown) whose one end is locked to the active lever 26 is locked. Basically, it is supported so as to rotate integrally with the active lever 26. Note that a locking pin 27 a is attached to the front end of the panic lever 27 so as to protrude to the near side perpendicular to the paper surface.

  The open link 28 is made of, for example, a metal plate, and extends in the vertical direction. At one end of the open link 28, a long hole-like engagement through which the locking pin 27 a of the panic lever 27 is inserted. A joint groove 28a is formed. The open link 28 is connected to the panic lever 27 so as to be movable along the longitudinal direction of the engagement groove 28a.

  The other end of the open link 28 is formed with a connecting portion 28b that is connected to an open lever 35 provided in the housing 21. The open link 28 is swingably connected to the open lever 35. ing. The open lever 35 is rotatably attached to the housing 21 by a support pin 36 and is stably disposed at a predetermined rotational position by a torsion spring (not shown). The open lever 35 is connected to the connecting portion 28b of the open link 28 at one end 35a, and is linked to the outside handle 4 at the other end opposite to the rotation center. The open lever 35 rotates so as to move the end portion 35a, that is, the connecting portion 28b of the open link 28, against the torsion spring by the operation of the outside handle 4 in the opening direction.

  Further, the open link 28 is formed with a flange-like engagement piece portion 28c below the connection portion 28b, and a claw-like engagement piece portion at an intermediate portion between the engagement groove 28a and the connection portion 28b. 28d is formed. The engagement piece portion 28c is arranged to face the pressing piece 23a of the inside open lever 23 in the vertical direction, and is arranged on the rotation locus of the pressing piece 23a. Therefore, for example, when the inside open lever 23 is rotated counterclockwise in the figure, the opposing end surface of the engaging piece portion 28c is pressed by the pressing piece 23a, and the open link 28 moves upward. On the other hand, the engaging piece portion 28d is disposed in the vicinity of a lift lever 37 that is rotatably attached to the housing 21. The lift lever 37 is connected so as to rotate integrally with the pole 13 (see FIG. 2). When the lift lever 37 is rotated so that the tip end portion 37a of the lift lever 37 on the engagement piece 28d side is moved upward, as the pole 13 is integrally rotated, the latch mechanism 11 is connected to the striker 2. The engaged state is released, and the vehicle door 1 becomes openable with respect to the vehicle body.

  Here, the arrangement relationship between the engagement piece portion 28d and the tip portion 37a corresponding to the unlock position and the lock position of the active lever 26 will be described. When the active lever 26 is in the unlocked position (see FIGS. 3 and 4), one end of the open link 28 is moved to one side (the right side in FIGS. 3 and 4) by the locking pin 27a of the panic lever 27. Guided. At this time, the engaging piece portion 28d and the tip end portion 37a are opposed to each other in the vertical direction, and the engaging groove 28a is also arranged so that the longitudinal direction thereof coincides with the vertical direction. Accordingly, if the open link 28 (engagement piece portion 28d) is moved up in this state in this state, the tip portion 37a is moved upward by being pressed by the engagement piece portion 28d, and the striker 2 by the latch mechanism 11 The engagement state is released.

  On the other hand, when the active lever 26 is in the locked position (see FIG. 5), one end of the open link 28 is guided to the other side (left side in FIG. 5) by the locking pin 27a of the panic lever 27. At this time, the engaging piece portion 28d is arranged such that an extension line along the longitudinal direction of the engaging groove 28a is disengaged from the distal end portion 37a. Therefore, even if the open link 28 moves up, the engagement piece 28d does not press the tip 37a so as to move up, and the engagement state of the latch mechanism 11 with the striker 2 is maintained.

  The lock actuator 29 is driven and controlled by detecting a remote operation (lock / unlock operation) of a lock / unlock switch provided on a key blade or door interior trim by a control circuit (not shown). . By driving the lock actuator 29, the active lever 26 is selectively switched between the unlock position and the lock position. The active lever 26 is linked to the inside open lever 23 so that it can be selectively switched between the unlock position and the lock position by the operation (manual operation) of the inside handle 3.

  As shown in FIG. 3, the child protector lever 30 is formed of, for example, a resin material, and has a predetermined depth relative to the housing 21 around the rotation axis O <b> 1 on the back side orthogonal to the paper surface of the inside open lever 23. Within the rotation range, they are connected so as to be rotatable in the clockwise direction and the counterclockwise direction shown in the figure. The rotation position shown in FIG. 3 where the rotation of the child protector lever 30 in the counterclockwise direction shown in the figure is restricted is called the child lock unset position of the child protector lever 30. A rotation position (not shown) in which the rotation of the child protector lever 30 in the clockwise direction shown in the figure is restricted is referred to as a child lock set position of the child protector lever 30. The housing 21 is attached with a moderation spring 44 for positioning the child protector lever 30. The child protector lever 30 is urged by the moderation spring 44 so that its rotational position is a child lock unset position. And is selectively switched and held at the child lock set position.

  The child protector lever 30 has a plate-like lever portion 30a extending in the radial direction from the center of rotation, and a substantially cylindrical engaging projection that projects to the near side perpendicular to the paper surface at the tip of the lever portion 30a. 30b, and further has a fan-shaped gear portion 30c extending from the rotation center toward the child protector actuator 32 side. The child protector actuator 32 has an electric motor 32a and an output gear portion 32b fixed to the rotating shaft of the electric motor 32a. The child protector lever 30 is an output gear of the child protector actuator 32 at the gear portion 30c. It is meshed with the portion 32b. The child protector lever 30 is driven by the child protector actuator 32 and selectively switched between the child lock unset position and the child lock set position.

  The child protector lever 30 has a plate-like operation lever portion 30d that extends from the rotation axis O1 in a radial direction different from the lever portion 30a and has a tip portion exposed to the outside of the vehicle door 1 (for example, a door mating surface). It is possible to selectively switch the child lock unset position and the child lock set position manually.

  The intermediate lever 31 is made of, for example, a metal plate, extends in a straight line in the extending direction of the guide piece 23b, has a long hole-shaped guide hole 31a through which the rotating shaft O1 is inserted, and the guide hole 31a. Has a long hole 31b extending linearly in parallel with the longitudinal direction. The intermediate lever 31 is displaced in the axial direction of the rotary shaft O1 and is disposed so as to overlap between the inside open lever 23 and the child protector lever 30. A guide pin 46 is inserted through the long hole 31b so as to protrude from the housing 21 toward the front side orthogonal to the paper surface. Accordingly, the intermediate lever 31 is supported so as to be movable in the longitudinal direction of the guide hole 31a in such a manner that the guide hole 31a and the long hole 31b are guided by the rotation shaft O1 and the guide pin 46, respectively.

  The intermediate lever 31 has a plate-like lever portion 31c that extends in a direction perpendicular to the longitudinal direction of the guide hole 31a adjacent to the lever portion 30a, and extends from the distal end of the lever portion 31c toward the proximal end. And has an engagement groove 31d through which the engagement protrusion 30b is inserted, and further extends in the circumferential direction centering on the end of the guide hole 31a on the bush 24 side. It has an arcuate hole 31e through which a protrusion on the back side perpendicular to the paper surface of the protrusion 24a is inserted. That is, the bush 24 (engagement protrusion 24a) is restricted from moving in the radial direction by the arcuate hole 31e.

  When the child protector lever 30 is in the child lock unset position, the intermediate lever 31 is arranged so that the end of the guide hole 31a on the bush 24 side is adjacent to the rotation axis O1, The engaging protrusion 24a of the bush 24 mounted on the guide piece 23b is disposed in the engaging groove 22b of the inside lever 22 by being guided by the arc-shaped hole 31e (unset position). . At this time, the bush 24 can transmit the movement (rotation) of the inside lever 22 to the inside open lever 23. At this time, the arc-shaped hole 31e having an arc shape centering on the end of the guide hole 31a on the bush 24 side extends along a circumferential direction centering on the rotation axis O1. Therefore, in this state, the engagement protrusion 24a inserted through the arc-shaped hole 31e can be rotated around the rotation axis O1, so that interference with the intermediate lever 31 is avoided, and the rotation of the bush 24 is prevented. Is allowed. When the inside lever 22 rotates, the inside projection lever 24a of the bush 24 is pressed against the engagement groove 22b, so that the inside open lever 23 that supports the bush 24 rotates integrally.

  On the other hand, when the child protector lever 30 is in the child lock set position, the intermediate lever 31 is disposed such that the end of the guide hole 31a opposite to the bush 24 is adjacent to the rotating shaft O1, The engaging protrusion 24a of the bush 24 mounted on the guide piece 23b is disposed outside the engaging groove 22b of the inside lever 22 by being guided by the arcuate hole 31e (set position, FIG. 7). At this time, the bush 24 cannot transmit the movement (rotation) of the inside lever 22 to the inside open lever 23.

  The child protector actuator 32 is driven and controlled by detecting a remote operation (set / unset operation) of a child protector switch provided on a key blade or a door interior trim by a control circuit (not shown). By driving the child protector actuator 32, the child protector lever 30 is selectively switched between a child lock unset position and a child lock set position.

Next, the operation of this embodiment will be described collectively.
As shown in FIG. 4, when the active lever 26 is in the unlocked position and the bush 24 is in the unset position (unlocked state, unset state), the inside handle 3 is moved from the neutral position to the predetermined position. When the inside lever 22 is rotated in the clockwise direction as shown in FIG. 1, the engagement protrusion 24a is pressed against the engagement groove 22b, and the inside open lever 23 that supports the bush 24 is integrally rotated and engaged. The active lever 26 whose contact surface 26a is pressed against the pin 23e rotates in the counterclockwise direction shown in the figure and moves to the locked position (refer to FIG. 5 in the locked state). The display unit 5 displays a locked state in accordance with the movement of the inside handle 3.

  Further, in this state, when the inside lever 22 rotates in the counterclockwise direction in the drawing as the inside handle 3 moves from the predetermined position to the neutral position, the engaging protrusion 24a is pressed against the engaging groove 22b. Then, the inside open lever 23 supporting the bush 24 rotates integrally, and the active lever 26 rotates in the clockwise direction shown in the figure by being biased by the spring 43 whose one end is pressed against the engagement pin 23e. Move to the unlock position. The display unit 5 displays the unlocked state in accordance with the movement of the inside handle 3. As described above, the biasing force of the spring 43 at this time is set larger than the biasing force of the spring 42.

  On the other hand, when the active lever 26 is rotated counterclockwise by the driving of the locking actuator 29 in the state shown in FIG. 4 and moved to the lock position, one of the springs 43 biased by the active lever 26 is moved. The inner open lever 23 is rotated in the clockwise direction in the figure by the pressing of the engaging pin 23e to the end portion, and the engaging groove 22b is formed in the engaging protrusion 24a of the bush 24 supported by the inner open lever 23. The inside lever 22 is integrally rotated by being pressed. As the inside lever 22 moves, the inside handle 3 moves from the neutral position to the predetermined position, so that the lock state is displayed on the display unit 5.

  Further, in this state, when the active lever 26 is rotated in the clockwise direction in the figure by the driving of the locking actuator 29 and moved to the unlock position, the engagement pin 23e is pressed against the contact surface 26a, and the inside open lever 23 rotates counterclockwise in the figure, and the engaging groove 22b is pressed against the engaging protrusion 24a of the bush 24 supported by the inside open lever 23, so that the inside lever 22 rotates integrally. In the inside lever 22, the engagement piece 22 c is pressed against the engagement piece 23 d of the inside open lever 23. Then, as the inside lever 22 moves, the inside handle 3 moves from the predetermined position to the neutral position, whereby the unlocking state is displayed on the display unit 5.

  Furthermore, when the inside handle 3 is pulled and moved in the other direction from the neutral position in the state shown in FIG. 4, the inside lever 22 rotates counterclockwise as shown in FIG. Then, the inside projection lever 24 is pressed against the engagement groove 22b and the inside open lever 23 supporting the bush 24 rotates integrally against the urging force of the spring 43, and the open piece 28 of the open link 28 is rotated by the pressing piece 23a. The engaging piece 28c is pressed. At this time, the engagement piece portion 28d of the open link 28 and the distal end portion 37a of the lift lever 37 are disposed to face each other in the vertical direction, so that the distal end portion 37a moves upward. And the engagement state with the striker 2 by the latch mechanism 11 is cancelled | released. At this time, the spring 43 generates a biasing force that moves the active lever 26 to the unlock position, so that the active lever 26 already in the unlock position does not move. Alternatively, even when the end portion 35a of the open lever 35 is moved upward by an operation of the outside handle 4 in the opening direction, the engagement state with the striker 2 by the latch mechanism 11 is similarly released.

  Furthermore, as shown in FIG. 7, in the state where the active lever 26 is in the unlocked position and the bush 24 is in the set position (the unlocked state, the set state, that is, the child lock state), When the inside lever 22 rotates in the clockwise direction shown in the drawing from the position to the predetermined position, the engaging piece 23d is pressed against the engaging piece 22c, and the inside open lever 23 rotates integrally. The active lever 26 whose contact surface 26a is pressed against the pin 23e is rotated counterclockwise in the figure and moved to the lock position (double lock state, see FIG. 8). The display unit 5 displays the locked state in accordance with the movement of the inside handle 3.

  Further, in this state, when the inside lever 22 rotates in the counterclockwise direction shown in the drawing as the inside handle 3 moves from the predetermined position to the neutral position, the inside lever 22 is held by the spring 41. While the inside open lever 23 rotates integrally, the active lever 26 rotates in the clockwise direction shown in the figure by being biased by the spring 43 whose one end is pressed against the engagement pin 23e and moves to the unlock position. . The display unit 5 displays the unlocked state in accordance with the movement of the inside handle 3. As described above, the urging forces of the springs 41 and 43 at this time are set larger than the urging forces of the springs 42, respectively.

  On the other hand, in the state shown in FIG. 7, when the active lever 26 is rotated counterclockwise by the driving of the locking actuator 29 and moved to the lock position, one of the springs 43 urged by the active lever 26 is moved. The engaging pin 23e is pressed against the end of the inner open lever 23 so that the inside open lever 23 rotates in the clockwise direction in the figure, and the inside lever 22 held by the spring 41 is integrally rotated with the inside open lever 23. As the inside lever 22 moves, the inside handle 3 moves from the neutral position to the predetermined position, so that the lock state is displayed on the display unit 5.

  Further, in this state, when the active lever 26 is rotated in the clockwise direction in the figure by the driving of the locking actuator 29 and moved to the unlock position, the engagement pin 23e is pressed against the contact surface 26a, and the inside open lever 23 rotates counterclockwise in the figure, and the engagement piece 22c is pressed against the engagement piece 23d, so that the inside lever 22 rotates integrally. Then, as the inside lever 22 moves, the inside handle 3 moves from the predetermined position to the neutral position, whereby the unlocking state is displayed on the display unit 5.

  Further, when the inside handle 3 is pulled and moved in the other direction from the neutral position in the state shown in FIG. 7, the inside lever 22 rotates counterclockwise as shown in FIG. However, since the inside open lever 23 is held by the active lever 26 by the spring 42 having a biasing force larger than the biasing force of the spring 41, the spring 41 is bent and power transmission to the inside open lever 23 is interrupted. . Therefore, in this state, even if the inside lever 22 is rotated in the counterclockwise direction in the figure by operating the inside handle 3 in the opening direction, relative rotation of the inside lever 22 and the inside open lever 23 is permitted. The inside lever 22 rotates idly with the inside open lever 23 remaining. That is, when the bush 24 is in the set position, even if the inside handle 3 is operated, the inside lever 22 only rotates, and naturally the engagement state with the striker 2 by the latch mechanism 11 is released. Absent. On the other hand, in the operation of the outside handle 4 in the opening direction, the engagement piece portion 28d of the open link 28 and the tip end portion 37a of the lift lever 37 are opposed to each other in the vertical direction, so that the latch mechanism 11 The engagement state with the striker 2 is released.

  Further, when the inside handle 3 is pulled and moved in the other direction from the neutral position in the state shown in FIG. 8, the inside lever 22 is rotated counterclockwise as shown in FIG. However, the power transmission to the inside open lever 23 is interrupted in the above-described manner, so that the engagement state with the striker 2 by the latch mechanism 11 is not released. On the other hand, even when the outside handle 4 is operated in the opening direction, the engagement piece portion 28d of the open link 28 and the tip end portion 37a of the lift lever 37 are not opposed to each other in the vertical direction. The engaged state with the striker 2 is not released.

As described above in detail, according to the present embodiment, the following effects can be obtained.
(1) In the present embodiment, when the active lever 26 is in the unlocked position and the bush 24 is in the set position, when the inside handle 3 is pulled from the neutral position, the inside lever 22 Although it moves, the inside open lever 23 is biased and held by the spring 43, so that the spring 41 having a biasing force smaller than that of the spring 43 is bent and power transmission from the inside lever 22 to the inside open lever 23 is performed. Blocked. Therefore, the movement of the inside handle 3 cannot release the closed state held by the latch mechanism 11 (child lock state). When the active lever 26 is in the unlocked position and the bush 24 is in the set position, when the locking actuator 29 is driven to move the active lever 26 to the locked position, the spring 43 is biased. While the inside open lever 23 moves, the inside lever 22 is moved by being biased by the spring 41. At this time, the inside handle 3 moves from the neutral position to the predetermined position in conjunction with the movement of the inside lever 22, and the lock state is displayed on the display unit 5 correspondingly. On the other hand, when the locking actuator 29 is driven to move the active lever 26 to the unlocked position in this state, the engaging pin 23e is pressed by the active lever 26 to move the inside open lever 23, and the inside open lever The engaging piece 22c is pressed by 23 and the inside lever 22 moves. At this time, the inside handle 3 moves from the predetermined position to the neutral position in conjunction with the movement of the inside lever 22, and the unlocked state is displayed on the display unit 5 correspondingly. Therefore, when the bush 24 is in the set position, even if the active lever 26 is moved to the unlocked position or the locked position by the locking actuator 29, the inside lever 22 and the inside handle 3 move in conjunction with this, A state (lock / unlock state) corresponding to each state can be displayed on the display unit 5.

  (2) In the present embodiment, the active lever 26 is selectively biased and held by the spring 42, so that the active lever 26 can be stably held at the unlocked position and the locked position. Further, the urging forces of the springs 41 and 43 are set to be larger than the urging force of the spring 42, so that, for example, when the active lever 26 is in the lock position and the bush 24 is in the set position, the inside When the handle 3 moves from the predetermined position to the neutral position, the inside open lever 23 is moved against the urging force of the spring 42 by being urged by the spring 41 in accordance with the movement of the inside lever 22 interlocked therewith, The active lever 26 is biased by the spring 43 and moves to the unlock position against the biasing force of the spring 42. Therefore, the active lever 26 can be moved from the locked position to the unlocked position against the biasing force of the spring 42.

In addition, you may change the said embodiment as follows.
-In the said embodiment, the display part 5 may be another member (lever etc.) interlock | cooperated with the movement of the inside handle 3, and the inside handle 3 is hidden by the vehicle door 1 according to the arrangement | positioning. It may be a drawn character or picture.

  In the above embodiment, the linkage with the inside open lever 23 or the like is performed by the active lever 26, but it may be performed by the panic lever 27 or the open link 28. Moreover, the arrangement itself of the inside handle 3 may be used.

  In the above-described embodiment, an electromagnetic solenoid or the like may be employed as the drive unit of the lock actuator 29 or the child protector actuator 32.

The front view which shows the vehicle door to which this invention is applied. The elevation view which shows the latch mechanism of the door lock device. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement. The side view which shows a door lock apparatus and its operation | movement.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Vehicle door, 3 ... Inside handle, 5 ... Display part, 10 ... Door lock apparatus, 11 ... Latch mechanism, 22 ... Inside lever, 22c ... Engagement piece, 23 ... Inside open lever, 23e ... Engagement pin (engagement) 24 ... Bush (moving body), 26 ... Active lever (locking lever), 29 ... Locking actuator (electric drive means), 41 ... Spring (second urging means), 42 ... Spring (third) Urging means), 43... Spring (first urging means).

Claims (2)

A latch mechanism for holding the vehicle door closed with respect to the vehicle body;
The unlocked state is displayed when the inside handle operated from the indoor side is at the first predetermined position, and the locked state is displayed when the inside handle is moved to the second predetermined position from the first predetermined position. A mechanical display,
An inside lever coupled to the inside handle via a single cable and moving in conjunction with the inside handle;
An inside open lever capable of releasing the holding of the closed state by the latch mechanism;
An unlock position capable of transmitting the movement of the inside open lever and an outdoor operation force to the latch mechanism so as to operate the latch mechanism so that the vehicle door can be opened with respect to the vehicle body, and transmission A locking lever that can be moved to an impossible locking position;
A movable body movable to an unset position where power transmission between the inside lever and the inside open lever is possible, and a set position where power transmission between the inside lever and the inside open lever is impossible,
When the locking lever is in the unlocked position and the moving body is in the unset position, the inside handle moves in the other direction from the first predetermined position, so that the inside lever and the In the vehicle door lock device that moves the inside open lever by power transmission via the moving body between the inside open levers and operates the latch mechanism so that the vehicle door can be opened with respect to the vehicle body. ,
An engaging portion provided on the inside open lever, capable of transmitting power on the side that contacts the locking lever and moves the locking lever from the unlocked position to the locked position;
A first urging means for urging one end portion and the other end portion to the inside open lever and the locking lever, respectively, and urging the engaging portion to a side in contact with the locking lever;
The inside open is provided to the inside lever to move the locking lever from the unlocked position to the locked position by contacting the inside open lever on the moving side interlocking with the movement of the inside handle in the one side direction. An engagement piece capable of transmitting power to the lever;
One end and the other end are engaged with the inside lever and the inside open lever, respectively, and the engagement piece abuts against the inside open lever with a biasing force smaller than that of the first biasing means. A second biasing means for biasing to
An electric door locking device for moving the locking lever between the unlocked position and the locked position. The vehicle door lock device according to claim 1,
A third biasing means for selectively holding the locking lever at the unlocked position and the locked position;
The vehicle door lock device according to claim 1, wherein the urging forces of the first and second urging means are set to be larger than the urging forces of the third urging means.

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