JP4047048B2 - Sheet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a seat main body comprising a seat cushion for supporting a butt portion of an occupant, a seat back for supporting a back portion of the occupant, a seat slide mechanism for adjusting a position of the seat main body in the front-rear direction, and the seat back The present invention relates to a seat having a reclining mechanism for adjusting the tilt angle of the seat.
[0002]
[Prior art]
As shown in FIG. 14, in a three-row seat vehicle 7 including a front seat 1, a second seat 3, and a third seat 5, boarding / exiting to / from the second seat 3 and the third seat 5 is provided on the side of the second seat 3. This is done through the sliding door 9.
[0003]
In particular, since the second seat 3 gets in the way when getting on and off the third seat 5, as shown in FIG. 15, the seat back 3a of the second seat 3 is tilted forward, and the second seat 3 is advanced to the front seat 1 side. The distance between the second seat 3 and the third seat 5 is widened to facilitate boarding / exiting from the slide door 9.
[0004]
Such an operation is generally realized by a mechanism called a walk-in mechanism, and when the reclining mechanism of the second seat 3 is unlocked in the absence of a seated person, the seat back 3a is tilted forward to a predetermined angle, and the reclining mechanism In conjunction with the unlocking, the lock of the seat slide mechanism of the second seat 3 is released, and the second seat 3 is advanced by the urging force or human power of the spring. Further, in this walk-in mechanism, when the seat back tilted forward is returned to the seatable state, the lock of the seat slide mechanism is activated.
[0005]
On the other hand, in such a three-row seat vehicle 7, as shown in FIG. 16, there is a reclining mechanism that can be tilted forward until the seat back 3 a of the second seat 3 abuts against the seat cushion 3 b, and the folded seat back Some of the back surface of 3a becomes a table for the seated person of the third seat 5, or becomes a luggage compartment.
[0006]
In the present specification, hereinafter, tilting forward until the seat back comes into contact with the seat cushion is referred to as folding the seat back.
[0007]
[Problems to be solved by the invention]
However, there are three-row seats of the second seat 3 that have a seat slide slide mechanism and a reclining mechanism that tilts the seat back 3a forward to a folded state, but none that has a walk-in mechanism.
[0008]
In consideration of attaching the walk-in mechanism with a second seat having a reclining mechanism for tilting the seat back 3a to the folded state, the conventional walk-in mechanism can be used until the seat back 3a is tilted forward. At that time, the lock mechanism of the seat slide mechanism is also unlocked in conjunction with it. Since the back of the seat back 3a of the second seat 3 cannot be used as a table or a luggage compartment with the seat slide mechanism unlocked, it is necessary to lock the seat slide mechanism. In order to lock the seat slide, This is because it is necessary to return the seat back 3a to a seatable state and it cannot be used as a table or a luggage compartment.
[0009]
The present invention has been made in view of the above problems, and an object of the present invention is to provide a seat that can be walked in and folded back by a series of operations.
[0010]
[Means for Solving the Problems]
The invention according to claim 1, which solves the above problem, adjusts the position of the seat body in the front-rear direction, and a seat body comprising a seat cushion that supports the butt of the occupant, a seat back that supports the back of the occupant A seat having a seat slide mechanism and a reclining mechanism for adjusting a tilt angle of the seat back, wherein the seat back can be seated when the reclining mechanism is unlocked and the seat back tilts forward The intermediate lock mechanism that prohibits the tilting of the seat back, the cam drive arm that rotates together with the tilt of the seat back, and the cam drive arm are rotatably provided until the seat cushion is in contact with the seat cushion. , An open lever capable of contacting a slide lock lever of the seat slide mechanism, the cam A live arm, a stopper provided on one of the open levers and configured to restrict rotation of the open lever in one direction, and a first biasing unit that biases the open lever in a direction in which rotation is regulated by the stopper. When the seat back tilts forward, the cam drive arm and the open lever rotate together while the seat back passes through the seatable state and the intermediate locking mechanism prohibits tilting. The slide lock lever of the seat slide mechanism moves in the unlocking direction, the seat slide mechanism is unlocked, and the open lever is released from the slide lock lever until the seat back comes into contact with the seat cushion. And a slide lock controller for locking the seat slide mechanism. A sheet characterized by comprising a mechanism.
[0011]
When the reclining mechanism is unlocked and the seat back is tilted forward, the intermediate locking mechanism temporarily prohibits forward tilt.
At this time, in the slide lock control mechanism, when the seat back is tilted forward, the cam lock arm and the cam drive arm and the When the open lever rotates integrally, the slide lock lever of the seat slide mechanism moves in the unlocking direction, and unlocks the seat slide mechanism.
[0012]
When the walk-in is performed, the seat is advanced to a walk-in state in a state where the forward tilt of the seat back is prohibited by the intermediate lock mechanism. In order to return from the walk-in state to the seatable state, the seat is returned backward and the seat back is tilted backward. In the middle of the rearward tilt of the seat back, the seat slide mechanism is locked again by the slide lock control mechanism.
[0013]
On the other hand, when folding the seat back, the intermediate lock mechanism is released, the seat back is further tilted forward, and the seat back is folded. In the middle of the forward tilt of the seat back, the open lever is released from the slide lock lever and locks the seat slide mechanism. To return the seat back from the folded state to the seatable state, the seat back is tilted backward.
[0014]
Thus, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back is tilted between the state where the seat back can be seated and the state where the seat back contacts the seat cushion. An intermediate locking mechanism to be prohibited, and when the seat back is tilted forward, the seat slide mechanism is unlocked while the seat back passes through a seatable state and tilting is prohibited by the intermediate locking mechanism, With a slide lock control mechanism that locks the seat slide mechanism until the intermediate lock mechanism is unlocked and abuts against the seat cushion, a series of operations of seat walk-in and seat back folding is performed. Is possible.
[0015]
Since the seat lock mechanism is unlocked by the slide lock control mechanism itself, the number of parts is small and the operation is ensured.
Further, in order to return the seat back from the folded state to the seatable state, when the seat back is tilted backward, the open lever rotates, so that the seat slide mechanism is not locked → unlocked → locked. That is, the seat slide mechanism is not unlocked when the seat back is tilted backward.
[0016]
The invention according to claim 2 is a seat body comprising a seat cushion for supporting the occupant's buttocks, a seat back for supporting the back of the occupant, and a seat slide mechanism for adjusting the position of the seat body in the front-rear direction. And a reclining mechanism for adjusting a tilt angle of the seat back, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back passes through a seatable state. An intermediate lock mechanism that prohibits tilting of the seat back until the state of contact with the cushion, a cam drive arm that rotates with tilting of the seat back, a cam drive arm that is rotatably provided and has a hook portion A cam hook is provided rotatably on the same axis as the cam drive arm. An open lever that has an engaging groove that can be engaged and disengaged, and that can release the lock of the seat slide mechanism, and a first attachment that biases the open lever in a direction away from the slide lock lever of the seat slide mechanism. And a second biasing means for biasing the cam hook in a direction in which the hook portion of the cam hook engages with the engagement groove of the open lever, and the hook portion of the cam hook is brought into contact with the open lever. A stopper that rotates the cam hook in a direction away from the engagement groove, and when the seat back tilts forward, the intermediate lock mechanism prohibits tilting after the seat back has passed the seatable state. During this time, the hook portion of the cam hook engages with the engagement groove of the open lever, and the open lever rotates. Rotation of the lever causes the slide lock lever of the seat slide mechanism to move in the unlocking direction, unlocks the seat slide mechanism, and the cam hook contacts the stopper until the seat back comes into contact with the seat cushion. A slide lock control mechanism for contacting and locking the seat slide mechanism by releasing a hook portion of the cam hook from an engagement groove of the open lever.
[0017]
When the reclining mechanism is unlocked and the seat back is tilted forward, the intermediate locking mechanism temporarily prohibits forward tilt.
At this time, in the slide lock control mechanism, when the seat back is tilted forward, the hook portion of the cam hook is moved while the seat back is over the seatable state and tilting is prohibited by the intermediate lock mechanism. Engaging with the engaging groove of the open lever, the open lever rotates, and the rotation of the open lever moves the slide lock lever of the seat slide mechanism in the unlocking direction, thereby unlocking the seat slide mechanism.
[0018]
When the walk-in is performed, the seat is advanced to a walk-in state in a state where the forward tilt of the seat back is prohibited by the intermediate lock mechanism. In order to return from the walk-in state to the seatable state, the seat is returned backward and the seat back is tilted backward. In the middle of the rearward tilt of the seat back, the seat slide mechanism is locked again by the slide lock control mechanism.
[0019]
On the other hand, when folding the seat back, the intermediate lock mechanism is released, the seat back is further tilted forward, and the seat back is folded. During the forward tilt of the seat back, the cam hook comes into contact with the stopper, the cam hook rotates, the hook portion of the cam hook is detached from the engagement groove of the open lever, the open lever returns to the original position, and the seat slide mechanism Locks. To return the seat back from the folded state to the seatable state, the seat back is tilted backward.
[0020]
Thus, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back is tilted between the state where the seat back can be seated and the state where the seat back contacts the seat cushion. An intermediate locking mechanism to be prohibited, and when the seat back is tilted forward, the seat slide mechanism is unlocked while the seat back passes through a seatable state and tilting is prohibited by the intermediate locking mechanism, With a slide lock control mechanism that locks the seat slide mechanism until the intermediate lock mechanism is unlocked and abuts against the seat cushion, a series of operations of seat walk-in and seat back folding is performed. Is possible.
[0021]
Since the seat lock mechanism is unlocked by the slide lock control mechanism itself, the number of parts is small and the operation is ensured.
The invention according to claim 3 is the seat according to claim 1 or 2, wherein the cable includes a cable and an outer cable, and a pulley for guiding the cable is provided in the vicinity of the cam drive arm. .
[0022]
Providing a pulley for guiding the cable in the vicinity of the cam drive arm eliminates excessive contact between the cable and the outer cable.
According to a fourth aspect of the present invention, there is provided a seat body comprising a seat cushion for supporting the occupant's buttocks, a seat back for supporting the back of the occupant, and a seat slide mechanism for adjusting the position of the seat body in the front-rear direction. And a reclining mechanism for adjusting a tilt angle of the seat back, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back passes through a seatable state. An intermediate lock mechanism that prohibits tilting of the seat back until it comes into contact with the cushion, a guide plate that moves with the tilt of the seat back, a first guide that linearly guides the guide plate, And a rolling hook having a hook portion rotatably attached to the rolling hook. A slide hook formed with a hook portion that can be engaged and disengaged, a second guide that linearly guides the slide hook in a direction substantially parallel to a guide direction of the first guide, and a hook portion of the rolling hook First urging means for urging the rolling hook in a direction to engage with the hook portion of the slide hook, the rolling hook can contact, and the hook portion of the rolling hook is detached from the hook portion of the slide hook. Guide means for guiding the rolling hook in a direction, a lock release plate that rotates with the movement of the slide hook and that can press the slide lock lever of the seat slide mechanism in the unlocking direction, and the lock release plate is connected to the seat slide mechanism. Consists of a second urging means that urges in a direction away from the slide lock lever. When the seat back is tilted forward, the hook portion of the rolling hook is engaged with the hook portion of the slide hook while the seat back is over the seatable state and tilting is prohibited by the intermediate lock mechanism. The guide plate and the slide hook move together, and by this movement, the lock release plate pushes the slide lock lever of the seat slide mechanism in the unlocking direction, unlocks the seat slide mechanism, and the seat back A slide lock control mechanism for locking the seat slide mechanism by detaching the hook portion of the rolling hook from the hook portion of the slide hook by the guide means until it abuts on the seat cushion. This is a characteristic sheet.
[0023]
When the reclining mechanism is unlocked and the seat back is tilted forward, the intermediate locking mechanism temporarily prohibits forward tilt.
At this time, in the slide lock control mechanism, when the seat back is tilted forward, the hook portion of the rolling hook is not moved while the seat back is over the seatable state and tilting is prohibited by the intermediate lock mechanism. The guide plate and the slide hook move together as a result of engaging with the hook portion of the slide hook, and by this movement, the unlocking plate pushes the slide lock lever of the seat slide mechanism in the unlocking direction, and the seat Unlock the slide mechanism.
[0024]
When the walk-in is performed, the seat is advanced to a walk-in state in a state where the forward tilt of the seat back is prohibited by the intermediate lock mechanism. In order to return from the walk-in state to the seatable state, the seat is returned backward and the seat back is tilted backward. In the middle of the rearward tilt of the seat back, the seat slide mechanism is locked again by the slide lock control mechanism.
[0025]
On the other hand, when folding the seat back, the intermediate lock mechanism is released, the seat back is further tilted forward, and the seat back is folded. During the forward tilt of the seat back until the seat back comes into contact with the seat cushion, the hook portion of the rolling hook is detached from the hook portion of the slide hook by the guide means, and the seat slide mechanism Lock. To return the seat back from the folded state to the seatable state, the seat back is tilted backward.
[0026]
Thus, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back is tilted between the state where the seat back can be seated and the state where the seat back contacts the seat cushion. An intermediate locking mechanism to be prohibited, and when the seat back is tilted forward, the seat slide mechanism is unlocked while the seat back passes through a seatable state and tilting is prohibited by the intermediate locking mechanism, With a slide lock control mechanism that locks the seat slide mechanism until the intermediate lock mechanism is unlocked and abuts against the seat cushion, a series of operations of seat walk-in and seat back folding is performed. Is possible.
[0027]
Since the slide lock control mechanism itself becomes an independent mechanism unit, replacement at the time of failure becomes easy. It is also easy to attach to existing seats.
The invention according to claim 5 is characterized in that the tilt of the seat back is transmitted to the guide plate via a cable, and the first urging means urges the guide plate in a direction in which the cable is stretched. The sheet according to claim 4.
[0028]
The first urging means urges the rolling hook and urges the guide plate in the direction in which the cable is stretched. Therefore, a means for urging only the rolling hook and a means for urging the guide plate are provided. Compared to the case, the number of parts can be reduced.
[0029]
According to a sixth aspect of the present invention, the intermediate lock mechanism is provided on an intermediate stopper lever provided on one of the seat back side and the seat cushion side, and on the other of the seat back side and the seat cushion side. A cam formed with a portion and an urging means that presses the intermediate stopper lever against the cam, and the cam is tilted to a state where the seat back passes through a seatable state and abuts against the seat cushion. 5. The seat according to claim 1, wherein the shape of the cam is set so that the intermediate stopper lever comes into contact with the stepped portion of the seat and prohibits forward tilting of the seat back. is there.
[0030]
When the seat back is tilted forward from the seatable state, the intermediate stopper lever abuts against the cam step and the forward tilt of the seat back is prohibited, but if the seat back is tilted backward from the folded state, the intermediate stopper lever Slips down the cam step and the back tilt of the seat back is not prohibited.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
(First embodiment (corresponding to claims 1, 3 and 6))
(overall structure)
First, the overall configuration of the sheet according to the first embodiment will be described with reference to FIG.
[0032]
In the figure, the seat slide mechanism 100 includes a lower rail 110 fixed to the floor side and an upper rail 120 movably engaged with the lower rail 110.
[0033]
A lower arm 200 that is a member on the side of the seat cushion 201 that supports the butt portion of the seated person is fixed to the upper rail 120, and the seat back 401 side that supports the back part of the seated person via the reclining mechanism 300 to the lower arm 200. An upper arm 400 as a member is provided so as to be tiltable.
[0034]
The reclining mechanism 300 according to the present embodiment enables the seat back 401 to tilt from a position where the seat back 401 can be seated to a folded state (a state where the seat back 201 abuts on the seat cushion 201).
[0035]
In the lower arm 200 and the upper arm 400, when the reclining mechanism 300 is unlocked and the seat back 401 tilts forward, the seat back 401 is past the seatable state (the seat back 401 is attached to the seat cushion 201). An intermediate lock mechanism 500 that prohibits the tilting of the seat back 401 is provided until the contact state).
[0036]
When the seat back 401 tilts forward, the lower arm 200 unlocks the seat slide mechanism 100 while the seat back 401 passes the seatable state and the intermediate lock mechanism 500 prohibits tilting, and the intermediate lock mechanism A slide lock control mechanism 600 that locks the seat slide mechanism 100 is provided between the time when the lock 500 is unlocked and the folding state is reached.
(Intermediate lock mechanism)
The intermediate lock mechanism 500 will be described. The upper arm 400 is formed with a cam portion 505 provided with a step portion 503.
[0037]
On the other hand, the lower arm 200 is rotatably provided with an intermediate stopper lever 501 that can come into contact with the cam portion 505. Further, the intermediate stopper lever 501 is urged in the direction of arrow C by an urging means (not shown), so that the intermediate stopper lever 501 always comes into contact with the cam portion 505 of the upper arm 400.
[0038]
The intermediate stopper lever 501 comes into contact with the step portion 503 of the cam portion 505 while the step portion 503 of the cam portion 505 tilts to the folded state after the seat back 401 can be seated. The shape of the cam portion 505 is set so as to prohibit tilting.
(Seat slide mechanism)
The seat slide mechanism 100 is provided with a lock mechanism that prohibits the movement of the upper rail 120.
[0039]
As shown in FIG. 4, which is a perspective view for explaining the locking mechanism, locking teeth 111 are formed on the lower rail 110 along the longitudinal direction.
On the other hand, as shown in FIG. 3, which is a cross-sectional view taken along the section line CC in FIG. 1, a slide lock lever 123 is provided between the upper rails 120 made of two plates using pins 121. .
[0040]
As shown in FIGS. 1, 3, and 4, a bent portion 125 is formed at the rotation end of the slide lock lever 123, and a lock hole in which the lock tooth 111 of the lower rail 110 can be engaged and disengaged is formed in the bent portion 125. 127 is formed. Therefore, when the lock hole 127 of the slide lock lever 123 on the upper rail 120 side is engaged with the lock tooth 111 of the lower rail 110, the movement of the upper rail 120 is prohibited, and the lock hole 127 of the slide lock lever 123 on the upper rail 120 side is When the lower rail 110 is separated from the lock teeth 111, the upper rail 120 is allowed to move.
[0041]
Further, as shown in FIGS. 1 and 3, a bent portion 123 a that protrudes outside through a hole 200 a formed in the lower arm 200 is formed on the upper portion of the slide lock lever 123. The slide lock lever 123 is urged in the direction of arrow D in the figure by a spring 129 whose one end is engaged with the lower arm 200 and the other end is engaged with the bent portion 123a of the slide lock lever 123. 127 engages with the lock teeth 111 of the lower rail 110 and prohibits the movement of the upper rail 120 (the seat slide mechanism is locked).
(Slide lock control mechanism)
As shown in FIG. 1, a substantially L-shaped release lever 601 is rotatably engaged with the hinge pin 301 of the reclining mechanism 300. One rotation end of the release lever 601 can come into contact with a cut-and-raised portion 400 a provided on the upper arm 400. A slit portion 301 a is formed on the end surface of the hinge pin 301, an inner end portion is wound around the slit portion 301 a, an intermediate portion is wound around the hinge pin 301, and an outer end portion is formed on the cut and raised portion 400 a of the upper arm 400. The seat back 401 is biased in a forward tilting direction by the spiral spring 305 to be locked.
[0042]
One end of a cable 603 is connected to the other rotating end of the release lever 601, and the cam drive arm 607 is rotatably attached to the lower arm 200 using a pin 605 at the other end of the cable 603. It is connected to the.
[0043]
Note that one end of the cable 603 is fixed to the lower arm 200 near the reclining mechanism 300 and the other end is inserted through the outer cable 604 fixed to the lower arm 200 near the slide lock control mechanism 600. The cable 603 on the cam drive arm 607 side is connected to the cam drive arm 607 via a pulley 606 provided on the lower arm 200 in the vicinity of the cam drive arm 607.
[0044]
The cam drive arm 607 is wound around a pin 605 at its intermediate portion, and is provided by a torsion spring 609 as a second urging means in which one end is locked to the lower arm 200 and the other end is locked to the cam drive arm 607. The cam drive arm 607 is biased in the direction in which the cable 603 is stretched (direction of arrow E).
[0045]
As shown in FIG. 2, the cam drive arm 607 is rotatably provided with an open lever 615 that can abut on the bent portion 123 a of the slide lock lever 123 of the seat slide mechanism 100 using a pin 613. The open lever 615 is formed with a bending protrusion 617 (stopper) that can come into contact with the cam surface 608 of the cam drive arm 607. Then, the intermediate portion is wound around the pin 613, one end portion is locked to the open lever 615, and the other end portion is locked to the slit portion 613a of the pin 613 as a first urging means. The open lever 615 is urged by the torsion spring 619 in the direction in which the bent protrusion 617 abuts against the cam surface 608 of the cam drive arm 607 (the direction of arrow F: the direction in which the rotation is restricted by the protrusion 617).
[0046]
Next, the operation of the above configuration will be described with reference to FIG.
(1) (I)-(II) Sitting possible state (neutral state)
In this state, the seat slide mechanism is in a locked state.
[0047]
(2) (III) Intermediate stopper operation
In FIG. 1, when the seated person is not seated and the lever of the reclining mechanism 300 is operated, the seat back 401 starts to tilt forward by the urging force of the spiral spring 305.
[0048]
Due to the forward tilt of the seat back 401, the cut-and-raised portion 400a of the upper arm 400 pushes the release lever 601, the release lever 601 rotates, and the release lever 601 moves via the cable 603 and the cam drive arm of the slide lock control mechanism 600. The cam drive arm 607 rotates in the direction opposite to the arrow E (counterclockwise) against the urging force of the torsion spring 609. By the rotation of the cam drive arm 607, the open lever 615 is also rotated, and the folding portion 123a of the slide lock lever 123 of the seat slide mechanism 100 is pushed and the seat slide mechanism 100 is rotated as shown in FIGS. Is unlocked.
[0049]
When the seat back 401 tilts forward to a predetermined angle, the step 503 on the upper arm 400 side of the intermediate lock mechanism 500 comes into contact with the intermediate stopper lever 501, and further forward tilt of the seat back 401 is prohibited.
[0050]
{Circle around (3)} When the walk-in is performed from the state (III), the seat slide mechanism 100 is unlocked, so that the seat is advanced to enter the walk-in state.
[0051]
In addition, in order to return to the seatable state from the walk-in state, the seat is returned later and the seat back 401 is tilted backward. At this time, when the rearward tilt of the seat back 401 starts, the cam drive arm 607 and the open lever 615 also start to rotate toward the original positions, and the seat slide mechanism 100 is immediately locked. Then, the cam drive arm 607 and the open lever 615 of the slide lock control mechanism 600 return to the positions where they can be seated.
[0052]
(4) When the seat back is folded from the state of (III), the intermediate stopper lever 501 of the intermediate lock mechanism 500 is operated to release the contact between the step portion 503 and the intermediate stopper lever 501, and the seat back 401 Enables further forward tilting. It is sufficient to operate the intermediate stopper lever 501 until the step 503 of the upper arm 400 passes through the intermediate stopper lever 501. Thereafter, even if the operation force of the intermediate stopper lever 501 is released, the intermediate stopper lever 501 is pressed against the upper arm 400, and the forward tilt of the seat back 401 is not prohibited.
[0053]
The seat back 401 is further tilted forward, and the seat back 401 is folded. During the forward tilt of the seat back 401, as shown in FIG. 6C, the open lever 615 provided on the cam drive arm 607 of the slide lock control mechanism 600 bends the slide lock lever 123 of the seat slide mechanism 100. The seat slide mechanism 100 is locked away from the portion 123a.
[0054]
Next, in order to return the seat back 401 from the folded state to the seatable state, the seat back 401 is tilted backward.
At this time, when the rearward tilt of the seat back 401 starts, the cam drive arm 607 also starts to rotate toward the original position.
[0055]
Since the open lever 615 is allowed to rotate in the direction opposite to the arrow F (clockwise), the open lever 615 gets over the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100 in the locked state, and the cam drive of the slide lock control mechanism 600 The arm 607 and the open lever 615 return to the position where they can be seated.
[0056]
According to the above configuration, the following effects can be obtained.
(1) When the reclining mechanism 300 is unlocked and the seat back 401 tilts forward, the seat back 401 is tilted until the seat back 401 abuts the seat cushion 201 after passing the seatable state. When the intermediate lock mechanism 500 to be prohibited and the seat back 401 tilt forward, the seat slide mechanism 100 is unlocked while the seat back 401 passes through the seatable state and the intermediate lock mechanism 500 prohibits tilting. By providing the slide lock control mechanism 600 that locks the seat slide mechanism 100 until the intermediate lock mechanism 500 is unlocked and comes into contact with the seat cushion 201, a series of seat walk-in and seat back folding is performed. It becomes possible by the operation of.
[0057]
(2) A cable 603 for transmitting the tilt of the seat back 401 to the cam drive arm 607 and a torsion spring 609 as two urging means for urging the cam drive arm 607 in the direction in which the cable 603 is stretched (direction of arrow E) By providing, the degree of freedom in designing the transmission means for transmitting the tilt of the seat back 401 to the cam drive arm 607 is increased.
[0058]
(3) Since the pulley 606 for guiding the cable 603 is provided in the vicinity of the cam drive arm 607, excessive contact between the cable 603 and the outer cable 604 is eliminated.
[0059]
(4) When the seat back 401 is tilted forward from a seatable state, the intermediate stopper lever 501 comes into contact with the step portion 503 of the cam portion 505 and the forward tilt of the seat back 401 is prohibited. When the back 401 tilts backward, the intermediate stopper lever 501 slides down the stepped portion 503 of the cam portion 505, and the backward tilting of the seat back 401 is not prohibited.
[0060]
(5) Since the seat slide mechanism 100 is unlocked by the slide lock control mechanism 600 itself, the number of parts is small and the operation is reliable.
(6) Since the open lever 615 is allowed to rotate in the direction opposite to the arrow F when the seat back 401 is tilted backward to return the seat back 401 from the folded state to the seatable state, the seat back 401 is locked. The seat slide mechanism 100 is prevented from being locked, unlocked, and locked by getting over the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100. That is, the seat slide mechanism 100 is not unlocked when the seat back is tilted backward.
[0061]
The present invention is not limited to the above embodiment. In the above embodiment, the bent protrusion 617 is formed on the open lever 615 as a stopper for restricting the rotation of the open lever 615 in one direction, but the rotation of the open lever 615 in one direction is restricted on the cam drive arm 607 side. Bending protrusions may be formed.
(Second embodiment (corresponding to claims 2, 3 and 6))
The difference between the present embodiment and the first embodiment is a slide lock control mechanism 700, and the other parts are the same as those of the first embodiment. The description which overlaps is abbreviate | omitted.
(Slide lock control mechanism)
As shown in FIG. 7, one end of a cable 603 is connected to the other rotating end of the release lever 601, and a pin 701 provided on the lower arm 200 is used for the other end of the cable 603. It is connected to a cam drive arm 703 that is rotatably provided.
[0062]
Note that one end of the cable 603 is fixed to the lower arm 200 near the reclining mechanism 300, and the other end is inserted through the outer cable 604 fixed to the lower arm 200 near the slide lock control mechanism 700. The cable 603 on the cam drive arm 703 side is connected to the cam drive arm 703 via a pulley 606 provided on the lower arm 200 in the vicinity of the cam drive arm 703.
[0063]
A cam hook 707 is rotatably attached to the cam drive arm 703 using a pin 705. A hook portion 709 is formed on the cam hook 707. The cable 603 described above is connected to the pin 705.
[0064]
An open lever 711 is rotatably attached to a pin 701 that is a rotation shaft of the cam drive 703. The open lever 711 is provided with an engaging groove 713 to which the hook portion 709 of the cam hook 707 can be engaged and disengaged, and can be brought into contact with the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100 by rotating. It has become.
[0065]
In FIG. 8, which is an enlarged view of the cam drive arm 703, the cam hook 707, and the open lever 711, the other end of the tension spring (first urging means) 721 whose one end is locked to the lower arm 200 is the open lever 711. The open lever 711 is biased in a direction away from the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100 (in the direction of arrow G) by being locked by the bent locking portion 711a.
[0066]
The intermediate portion winds the pin 705, one end is locked to the cam drive arm 703, and the other end is locked to the cam hook 707, whereby the cam hook 707 is hooked. The portion 709 is biased in the direction (arrow H direction) in which it engages with the engagement groove 713 of the open lever 711.
[0067]
A torsion spring (third biasing means) 725 in which the intermediate portion winds the pin 701, one end is locked to the cam drive arm 703, and the other end is locked to the slot 701a of the pin 701, The cam drive arm 703 is biased in the direction in which the cable 603 is stretched (in the direction of arrow I).
[0068]
Further, the lower arm 200 in the vicinity of the cam hook 707 is provided with a stopper 727 that rotates the cam hook 707 in a direction in which the hook portion 709 of the cam hook 707 is detached from the engagement groove 713 of the open lever 711 when the cam hook 707 contacts. Yes.
[0069]
Next, the operation of the above configuration will be described with reference to FIGS. 9 and 10.
(1) The position in FIG. 9 (a) shows a state where the seat can be seated. In this state, the slide lock lever 123 of the seat slide mechanism 100 is in a locked state.
[0070]
The open lever 711 is located away from the bent portion 123 a of the slide lock lever 123 of the seat slide mechanism 100, and the hook portion 709 of the cam hook 707 is engaged with the engagement groove 713 of the open lever 711.
[0071]
(2) When the locked state of the reclining mechanism 300 is released from the state of FIG. 9A and the seat back 401 is tilted forward, the cable 603 is pulled, and the cam hooks provided on the cam drive arm 703 and the cam drive arm 703 The open lever 711 engaged with the hook portion 707 and the hook portion 709 of the cam hook 707 rotates, and the open lever 711 pushes the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100, and the lock of the seat slide mechanism 100 is released.
[0072]
(3) When the walk-in is performed from the state of FIG. 9 (b), the seat slide mechanism 100 is unlocked, so that the seat is advanced to enter the walk-in state.
[0073]
In addition, in order to return to the seatable state from the walk-in state, the seat is returned later and the seat back 401 is tilted backward. At this time, when the seatback 401 starts to tilt backward, the cam drive arm 703, the cam hook 707 provided on the cam drive arm 703, and the open lever 711 engaged with the hook portion 709 of the cam hook 707 also move toward the original position. The seat slide mechanism 100 immediately locks and the seat slide mechanism 100 is locked. Then, the cam drive arm 607 and the open lever 711 of the slide lock control mechanism 700 return to the positions where they can be seated.
[0074]
(4) When the seat back is folded from the state shown in FIG. 9B, the intermediate stopper lever 501 of the intermediate lock mechanism 500 is operated to release the contact between the step 503 and the intermediate stopper lever 501. The back 401 can be further tilted forward. It is sufficient to operate the intermediate stopper lever 501 until the step 503 of the upper arm 400 passes through the intermediate stopper lever 501. Thereafter, even if the operation force of the intermediate stopper lever 501 is released, the intermediate stopper lever 501 is pressed against the upper arm 400, and the forward tilt of the seat back 401 is not prohibited.
[0075]
The seat back 401 is further tilted forward, and the seat back 401 is folded. During the forward tilt of the seat back 401, as shown in FIG. 10A, the cam hook 707 contacts the stopper 727, the cam hook 707 rotates, and the hook portion 709 of the cam hook 707 engages with the engagement groove of the open lever 711. The lever 711 is released from the position 713, the open lever 711 returns to the original position, and the seat slide mechanism 100 is locked (see FIG. 10B).
[0076]
In order to return the seat back from the folded state to the seatable state, the seat back 401 is tilted backward. At this time, when the rearward tilt of the seat back 401 starts, the cam drive arm 703 and the cam hook 707 also start to rotate toward their original positions, and when the cam hook 707 is detached from the stopper 727, the engagement groove 713 of the open lever 711 is reached. It returns to the state where it can be engaged.
[0077]
Then, the hook portion 709 of the cam hook 707 engages with the engagement groove 713 of the open lever 711 and returns to the state of FIG.
According to the above configuration, the following effects can be obtained.
[0078]
(1) When the reclining mechanism 300 is unlocked and the seat back 401 tilts forward, the seat back 401 is tilted until the seat back 401 abuts the seat cushion 201 after passing the seatable state. When the intermediate lock mechanism 500 to be prohibited and the seat back 401 tilt forward, the seat slide mechanism 100 is unlocked while the seat back 401 passes through the seatable state and the intermediate lock mechanism 500 prohibits tilting. By providing the slide lock control mechanism 700 that locks the seat slide mechanism 100 until the intermediate lock mechanism 500 is unlocked and abuts against the seat cushion 201, a series of seat walk-in and seat back folding is performed. It becomes possible by the operation of.
[0079]
(2) By providing a cable 603 for transmitting the tilt of the seat back 401 to the cam drive arm 703 and a torsion spring 725 as a biasing means for biasing the cam drive arm 703 in the direction in which the cable 603 is stretched, The degree of freedom in designing the transmission means for transmitting the tilt of 401 to the cam drive arm 703 is increased.
[0080]
(3) Since the pulley 606 for guiding the cable 603 is provided in the vicinity of the cam drive arm 703, excessive contact between the cable 603 and the outer cable 604 is eliminated.
[0081]
(4) When the seat back 401 is tilted forward from a seatable state, the intermediate stopper lever 501 comes into contact with the step portion 503 of the cam portion 505 and the forward tilt of the seat back 401 is prohibited. When the back 401 tilts backward, the intermediate stopper lever 501 slides down the stepped portion 503 of the cam portion 505, and the backward tilting of the seat back 401 is not prohibited.
[0082]
(5) Since the seat slide mechanism 100 is unlocked by the slide lock control mechanism 700 itself, the number of parts is small and the operation is ensured.
(Third embodiment (corresponding to claims 4, 5 and 6))
The difference between the present embodiment and the first embodiment is a slide lock control mechanism 800, and the other parts are the same as those of the first embodiment. The description which overlaps is abbreviate | omitted.
(Slide lock control mechanism)
As shown in FIG. 11, the lower arm 200 is rotatably provided with a lock release plate 803 capable of pressing the bent portion 123 a of the slide lock lever 123 of the seat slide mechanism 100 in the unlocking direction using a pin 801. Yes.
[0083]
The lock release plate 803 has one end locked to the lower arm 200 and the other end locked to the lock release plate 803, so that the lock release plate 803 is a seat slide mechanism. The 100 slide lock levers 123 are biased away from the bent portions 123a.
[0084]
A slide lock control unit 811 is provided on the lower arm 200 adjacent to the lock release plate 803.
One end of the cable 603 is connected to the other rotation end of the release lever 601, and the other end of the cable 603 is connected to the slide lock control unit 811.
[0085]
The cable 603 has one end portion fixed to the lower arm 200 near the reclining mechanism 300 and the other end portion inserted through the outer cable 604 fixed to the lower arm 200 near the slide lock control mechanism 800.
[0086]
As shown in FIG. 12, a guide plate 815 is provided on the base 813 of the slide lock control unit 811. The guide plate 815 is guided by a first guide 817 provided on the base 813 to move linearly. Further, a cable 603 is connected to the guide plate 815 and moves with the tilt of the seat back 401. On the guide plate 815, a rolling hook 825 having a hook portion 823 using a pin 821 is rotatably provided.
[0087]
The base 813 is provided with a slide hook 831. The slide hook 831 is guided by a second guide 833 provided on the base 813 and linearly moves substantially parallel to the moving direction of the guide plate 815. The slide hook 831 is formed with a hook portion 837 to which the hook portion 823 of the rolling hook 825 can be engaged and disengaged.
[0088]
The slide hook 831 and the lock release plate 803 are connected by a cable 835 (see FIG. 11).
The other end of the tension spring (first biasing means) 841 whose one end is locked to the lower arm is locked to the rolling hook 825, and the hook 823 of the rolling hook 825 is the hook of the slide hook 831. 837 is urged in a direction to engage with 837. Further, the cable 603 is biased in the tensioning direction by the biasing force of the tension spring 841.
[0089]
A guide (guide means) having a guide slope 851 that can guide the rolling hook 825 in a direction in which the rolling hook 825 can come into contact with the base 813 and the hook portion 823 of the rolling hook 825 separates from the hook portion 837 of the slide hook 831. 853 is provided.
[0090]
Next, the operation of the above configuration will be described.
(1) The position in FIG. 12 shows a state in which the seat can be seated. In this state, the slide lock lever 123 of the seat slide mechanism 100 is in a locked state.
[0091]
The lock release plate 803 is located away from the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100, and the hook portion 823 of the rolling hook 825 of the slide lock control unit 811 is connected to the hook portion 837 of the slide hook 831. Is engaged.
[0092]
(2) When the locked state of the reclining mechanism 300 is released and the seat back 401 is tilted forward, the cable 603 is pulled, and the guide plate 815 and the slide hook 831 of the slide lock control unit 811 move together. By this movement, the lock release plate 803 presses the bent portion 123a of the slide lock lever 123 of the seat slide mechanism 100 via the cable 835, and the lock of the seat slide mechanism 100 is released.
[0093]
{Circle around (3)} In this state, when the walk-in is performed, the seat slide mechanism 100 is unlocked, so that the seat is advanced to enter the walk-in state. In addition, in order to return to the seatable state from the walk-in state, the seat is returned later and the seat back 401 is tilted backward. At this time, when the rearward tilt of the seat back 401 starts, the guide plate 815, the slide hook 831, and the lock release plate 803 of the slide lock control unit 811 begin to move toward the original positions, and the seat slide mechanism 100 is immediately locked. Is done. Then, the guide plate 815 and the slide hook 831 of the slide lock control mechanism 800 return to the positions where they can be seated.
[0094]
(4) When the seat back is folded from the intermediate lock state, the intermediate stopper lever 501 of the intermediate lock mechanism 500 is operated to release the contact between the step portion 503 and the intermediate stopper lever 501, and the seat back 401 is Enables forward tilt. It is sufficient to operate the intermediate stopper lever 501 until the step 503 of the upper arm 400 passes through the intermediate stopper lever 501. Thereafter, even if the operation force of the intermediate stopper lever 501 is released, the intermediate stopper lever 501 is pressed against the upper arm 400, and the forward tilt of the seat back 401 is not prohibited.
[0095]
The seat back 401 is further tilted forward, and the seat back 401 is folded. In the middle of the forward tilt of the seat back 401, the hook portion 823 of the rolling hook 825 is detached from the hook portion 837 of the slide hook 831 by the guide slope 851 of the guide 853, as shown in FIG. The release plate 803 returns to the original position, and the seat slide mechanism 100 is locked.
[0096]
In order to return the seat back from the folded state to the seatable state, the seat back 401 is tilted backward. At this time, when the rearward tilt of the seat back 401 starts, the guide plate 815 moves toward the original position, the hook portion 823 of the rolling hook 825 engages with the hook portion 823 of the slide hook 831, and the state of FIG. Return to.
[0097]
According to the above configuration, the following effects can be obtained.
(1) When the reclining mechanism 300 is unlocked and the seat back 401 tilts forward, the seat back 401 is tilted until the seat back 401 abuts the seat cushion 201 after passing the seatable state. When the intermediate lock mechanism 500 to be prohibited and the seat back 401 tilt forward, the seat slide mechanism 100 is unlocked while the seat back 401 passes through the seatable state and the intermediate lock mechanism 500 prohibits tilting. By providing the slide lock control mechanism 800 that locks the seat slide mechanism 100 until the intermediate lock mechanism 500 is unlocked and comes into contact with the seat cushion 201, a series of seat walk-in and seat back folding is performed. It becomes possible by the operation of.
[0098]
(2) By providing the cable 603 for transmitting the tilt of the seat back 401 to the guide plate 815 and the tension spring 841 as the urging means for urging the guide plate 815 in the direction in which the cable 603 is stretched, The degree of freedom in designing the transmission means for transmitting the tilt to the guide plate 815 is increased.
[0099]
(3) An urging means for urging the hook portion 823 of the rolling hook 825 in a direction to engage with the hook portion 837 of the slide hook 831, and an urging means for urging the guide plate 815 in the direction in which the cable 603 is stretched. By using one tension spring 841, the number of parts can be reduced.
[0100]
(4) By using the slide lock control unit 811 having the guide plate 815, the rolling hook 825, and the slide hook 831 provided on the base 813, it can be easily attached to the lower arm of a normal seat.
[0101]
(5) When the seat back 401 is tilted forward from a seatable state, the intermediate stopper lever 501 comes into contact with the step 503 of the cam portion 505, and the forward tilt of the seat back 401 is prohibited. When the back 401 tilts backward, the intermediate stopper lever 501 slides down the stepped portion 503 of the cam portion 505, and the backward tilting of the seat back 401 is not prohibited.
[0102]
(6) Since the slide lock control mechanism 800 itself becomes an independent mechanism unit, replacement at the time of failure becomes easy. It is also easy to attach to existing seats.
[0103]
【The invention's effect】
As described above, according to the first aspect of the present invention, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back is in a state of contacting the seat cushion past the seatable state. The intermediate lock mechanism that prohibits the tilting of the seat back, and when the tilting is prohibited by the intermediate lock mechanism after the seat back can be seated when the seat back tilts forward. The seat slide mechanism is unlocked, the intermediate lock mechanism is unlocked, and a slide lock control mechanism that locks the seat slide mechanism until it comes into contact with the seat cushion is provided. Inn and seat back can be folded by a series of operations.
[0104]
Since the seat lock mechanism is unlocked by the slide lock control mechanism itself, the number of parts is small and the operation is ensured.
Further, in order to return the seat back from the folded state to the seatable state, when the seat back is tilted backward, the open lever rotates, so that the seat slide mechanism is not locked → unlocked → locked. That is, the seat slide mechanism is not unlocked when the seat back is tilted backward.
[0105]
According to the invention of claim 2, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back passes through a state where the seat back can be seated and until it comes into contact with the seat cushion. An intermediate lock mechanism that prohibits the tilting of the seat back, and the seat slide mechanism while the tilting is prohibited by the intermediate lock mechanism after the seat back is in a seatable state when the seat back tilts forward. And a slide lock control mechanism that locks the seat slide mechanism until the intermediate lock mechanism is unlocked and abutted against the seat cushion. Folding is possible through a series of operations.
[0106]
Since the seat lock mechanism is unlocked by the slide lock control mechanism itself, the number of parts is small and the operation is ensured.
According to the third aspect of the present invention, by providing the pulley for guiding the cable in the vicinity of the cam drive arm, there is no excessive contact between the cable and the outer cable.
[0107]
According to the invention of claim 4, when the reclining mechanism is unlocked and the seat back is tilted forward, the seat back passes through the seatable state and comes into contact with the seat cushion. An intermediate lock mechanism that prohibits tilting of the seat back, and the seat slide mechanism while tilting is prohibited by the intermediate lock mechanism after the seat back is in a seatable state when the seat back tilts forward. And a slide lock control mechanism that locks the seat slide mechanism until the intermediate lock mechanism is unlocked and abuts against the seat cushion. Folding is possible by a series of operations.
[0108]
Since the slide lock control mechanism itself becomes an independent mechanism unit, replacement at the time of failure becomes easy. It is also easy to attach to existing seats.
According to the invention of claim 5, the first urging means urges the rolling hook and urges the guide plate in the direction in which the cable is stretched. The number of parts can be reduced as compared with the case where each means for urging the guide plate is provided.
[0109]
According to the sixth aspect of the present invention, when the seat back is tilted forward from the seatable state, the intermediate stopper lever comes into contact with the stepped portion of the cam and the forward tilt of the seat back is prohibited. When the vehicle is tilted backward, the intermediate stopper lever slides down the cam step, and the rear tilt of the seat back is not prohibited.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an overall configuration of a sheet according to a first embodiment.
FIG. 2 is an enlarged perspective view of the cam drive arm and the open lever of FIG.
3 is a cross-sectional view taken along a cutting line CC in FIG.
4 is a perspective view illustrating a lock mechanism of the seat slide mechanism shown in FIG. 1. FIG.
FIG. 5 is a diagram for explaining the operation of the seat shown in FIG. 1;
6 is a diagram for explaining the operation of the cam drive arm and the open lever of FIG. 1; FIG.
FIG. 7 is a diagram illustrating an overall configuration of a sheet according to a second exemplary embodiment.
8 is an enlarged perspective view of the cam drive arm, cam hook, and open lever of FIG.
9 is a diagram for explaining the operation of the cam drive arm, cam hook, and open lever of FIG. 7; FIG.
10 is a diagram for explaining the operation of the cam drive arm, cam hook, and open lever of FIG. 7; FIG.
FIG. 11 is a diagram illustrating an overall configuration of a sheet according to a third exemplary embodiment.
12 is an enlarged view of the slide lock control unit of FIG. 11. FIG.
13 is a diagram for explaining the operation of FIG. 12;
FIG. 14 is a diagram illustrating a three-row seat vehicle.
15 is a diagram for explaining the walk-in of the second seat of the vehicle of FIG. 14;
16 is a diagram for explaining folding of the second seat of the vehicle in FIG. 14;
[Explanation of symbols]
100 Seat slide mechanism
201 seat cushion
300 Reclining mechanism
401 Seat back
500 Intermediate lock mechanism

Claims (6)

A seat body comprising a seat cushion for supporting the occupant's hip, and a seat back for supporting the back of the occupant;
A seat slide mechanism for adjusting the position of the seat body in the front-rear direction;
A reclining mechanism for adjusting the tilt angle of the seat back;
In a sheet having
When the reclining mechanism is unlocked and the seat back tilts forward, an intermediate lock that prohibits tilting of the seat back until the seat back passes the seatable state and comes into contact with the seat cushion. Mechanism,
One of a cam drive arm that rotates with tilting of the seat back, an open lever that is rotatably provided on the cam drive arm and can come into contact with a slide lock lever of the seat slide mechanism, the cam drive arm, or the open lever Provided with a stopper for restricting the rotation of the open lever in one direction, and a first biasing means for biasing the open lever in a direction in which the rotation is regulated by the stopper, and the seat back tilts forward. In this case, the cam drive arm and the open lever rotate together while the seat back passes through the seatable state and the intermediate lock mechanism prohibits tilting, so that the slide lock lever of the seat slide mechanism is rotated. Moves in the unlocking direction and locks the seat slide mechanism Dividing the said opening lever until the seat back abuts the seat cushion is disengaged from the slide lock lever, and slide lock control mechanism for locking the seat slide mechanism,
A sheet characterized by comprising: A seat body comprising a seat cushion for supporting the occupant's hip, and a seat back for supporting the back of the occupant;
A seat slide mechanism for adjusting the position of the seat body in the front-rear direction;
A reclining mechanism for adjusting the tilt angle of the seat back;
In a sheet having
When the reclining mechanism is unlocked and the seat back tilts forward, an intermediate lock that prohibits tilting of the seat back until the seat back passes the seatable state and comes into contact with the seat cushion. Mechanism,
A cam drive arm that rotates with tilting of the seat back, a cam hook that is rotatably provided on the cam drive arm, and that is provided rotatably on the same axis as the cam drive arm. An open lever having a detachable engagement groove and capable of releasing the lock of the seat slide mechanism, a first biasing means for biasing the open lever in a direction away from the slide lock lever of the seat slide mechanism, and a cam hook A second urging means for urging the cam hook in a direction in which the hook portion engages with the engagement groove of the open lever, and the hook portion of the cam hook comes into contact with the engagement groove of the open lever. A stopper that rotates the cam hook in a direction of separating from the seat, and the seat back is tilted forward When the seat back passes the seatable state and tilting is prohibited by the intermediate lock mechanism, the hook portion of the cam hook engages with the engagement groove of the open lever, and the open lever rotates. Then, the rotation of the open lever moves the slide lock lever of the seat slide mechanism in the unlocking direction, unlocks the seat slide mechanism, and the cam hook moves until the seat back comes into contact with the seat cushion. A slide lock control mechanism that contacts the stopper, the hook portion of the cam hook is detached from the engagement groove of the open lever, and locks the seat slide mechanism;
A sheet characterized by comprising: The cable consists of a cable and an outer cable,
The seat according to claim 1, wherein a pulley for guiding the cable is provided in the vicinity of the cam drive arm. A seat body comprising a seat cushion for supporting the occupant's hip, and a seat back for supporting the back of the occupant;
A seat slide mechanism for adjusting the position of the seat body in the front-rear direction;
A reclining mechanism for adjusting the tilt angle of the seat back;
In a sheet having
When the reclining mechanism is unlocked and the seat back tilts forward, an intermediate lock that prohibits tilting of the seat back until the seat back passes the seatable state and comes into contact with the seat cushion. Mechanism,
A guide plate that moves as the seat back tilts, a first guide that linearly guides the guide plate, a rolling hook that is rotatably mounted on the guide plate and has a hook portion, and a hook portion of the rolling hook. A slide hook having a removable hook portion, a second guide that linearly guides the slide hook in a direction substantially parallel to the guide direction of the first guide, and a hook portion of the rolling hook is a hook of the slide hook A first urging means for urging the rolling hook in a direction of engaging the rolling hook; the rolling hook is abuttable; and the rolling hook is separated from the hook portion of the sliding hook. A guide means for guiding a hook, which rotates with the movement of the slide hook, A lock release plate capable of pressing the slide lock lever of the door mechanism in the unlocking direction, and a second biasing means for biasing the lock release plate in a direction of releasing from the slide lock lever of the seat slide mechanism, When the seat back is tilted forward, the hook portion of the rolling hook is engaged with the hook portion of the slide hook while the seat back is over the seatable state and tilting is prohibited by the intermediate lock mechanism. The guide plate and the slide hook move together, and by this movement, the lock release plate pushes the slide lock lever of the seat slide mechanism in the unlocking direction, unlocks the seat slide mechanism, and the seat back By the guide means until the contact with the seat cushion, A slide lock control mechanism hook portion of the ring hook is disengaged from the hook portion of the slide hook, for locking the seat slide mechanism,
A sheet characterized by comprising: The tilt of the seat back is transmitted to the guide plate via a cable,
The sheet according to claim 4, wherein the first urging unit urges the guide plate in a direction in which the cable is stretched. The intermediate locking mechanism is
An intermediate stopper lever provided on one of the seat back side and the seat cushion side;
A cam provided on the other side of the seat back side and the seat cushion side and having a stepped portion;
Urging means for pressing the intermediate stopper lever against the cam;
Consists of
The intermediate stopper lever is in contact with the stepped portion of the cam while the seat back is tilted to a state in which the seat back is in contact with the seat cushion, and the forward tilt of the seat back is prohibited. 5. The sheet according to claim 1, wherein a shape of the cam is set.

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