Patent Application
20200156516
The present invention relates to a vehicle seat and is especially applicable to a vehicle seat that can flatten (horizontal state) a seat cushion and a seat back.
There have been proposed techniques of vehicle seats that flatten seat cushions and seat backs (see JP2010-116114A, JP2004-31387A, JP H09-262149A, and JP 563-34253A).
However, it is extremely difficult to provide a flat reclining posture where a surface of a seat cushion and a surface of a seat back are approximately parallel to a floor surface of a vehicle.
An object of the present invention is to provide a flat reclining posture that becomes approximately parallel to a floor surface of a vehicle.
Other objects and novel features will become clear by descriptions in this Description and attached drawings.
A brief description of an outline of representative configurations of the present invention is as follows.
That is, a vehicle seat includes a seat cushion, a seat back, risers, a reclining mechanism, a first link member, a second link member, and tracks. The seat cushion includes a cushion frame. The seat back includes a back frame. The reclining mechanism is disposed at an upper portion at a rear end of the riser. The reclining mechanism is coupled to a lower end portion of the back frame. The first link member is rotatably disposed between a rear end portion of the cushion frame and the reclining mechanism. The second link member is rotatably disposed between upper portions at front ends of the risers and front end portions of the cushion frame. The tracks are disposed at lower portions of the risers. In conjunction with a rear inclination of the seat cushion by the reclining mechanism, a rear end portion of the seat cushion moves forward and upward by the first link member, and a front end portion of the seat cushion moves forward and upward by the second link member.
The vehicle seat can provide a flat reclining posture that becomes approximately parallel to a floor surface of a vehicle.
The following describes embodiments of the present invention with reference to the drawings.
Note the disclosure is merely one example, and, for clearer descriptions, the drawings are schematically illustrated in width, thickness, shape, and similar factor of each unit compared with those of actual aspects in some cases. However, they are not intended to limit interpretations of the present invention. In the present description and the respective drawings, components similar to those described previously with reference to earlier figures are labeled with like reference numerals, and the detailed description thereof is omitted appropriately. In the drawings, the FRONT arrow indicates a front of a vehicle, the REAR arrow indicates the rear of the vehicle, the LEFT arrow indicates the left side of the vehicle, the RIGHT arrow indicates the right side of the vehicle, the UP arrow indicates the upper side of the vehicle, and the DOWN arrow indicates the lower side of the vehicle. In the following description, unless otherwise stated, the front, rear, upper, lower, left, and right are intended to mean the front, rear, upper, lower, left, and right of the vehicle.
The vehicle seat 1 includes a seat cushion 2 and a seat back 3 mounted to be tiltable with respect to the rear end portion of the seat cushion 2. Shield covers 4 to cover a pair of right and left respective risers (6) described later are disposed on right and left side surfaces of the vehicle seat 1. The shield covers 4 can be each made of a resin and are also usable as, for example, arm rests.
A pair of right and left tracks 5 are disposed at the lower portions of the respective risers (6) covered with the respective shield covers 4. The tracks 5 have a role as slide mechanisms that allow the vehicle seat 1 to move in a front-rear direction. The tracks 5 each include a lower rail fixed to a floor of the vehicle and an upper rail that can move on the lower rail in the front-rear direction. The risers (6) of the vehicle seat 1 are each fixed to the upper rail.
With reference to
The reclining mechanism 7 is disposed at the upper end portion at the rear of the left riser 6. The reclining lock mechanism 8 is disposed at the upper end portion at the rear of the right riser 6.
A cushion frame 21 of the seat cushion 2 is formed of a rounded pipe member bent into an approximately rectangular shape. The cushion frame 21 includes a front frame 21F, a rear frame 21RR, a left frame 21L, and a right frame 21R.
A first link member 10 is disposed to couple between the back frame 31 and the rear portion of the cushion frame 21. The first link member 10 is formed of a rounded pipe member bent into an approximately U shape. The first link member 10 includes a left link portion 10L and a right link portion 10R. The upper end portion of the left link part 10L is coupled to the reclining mechanism 7. The lower end portion of the left link part 10L is rotatably coupled to the left end portion of the rear frame 21RR via a first pivot 11L. The upper end portion of the right link portion 10R is coupled to the reclining lock mechanism 8. The lower end portion of the right link portion 10R is rotatably coupled to the right end portion of the rear frame 21RR via a first pivot 11R.
With the above-described configuration, the rear frame 21RR of the cushion frame 21 moves on a circular moving trajectory with a rotational center 7C of the reclining mechanism 7 as a center point and with a distance between the rotational center 7C of the reclining mechanism 7 and a rotational center 11C of the first pivot (11R, 11L) as a radius. Accordingly, when the seat back 3 is inclined rearward, the rear end portion of the seat cushion 2 moves forward and upward in conjunction with the inclination.
A second link member 12 (12L, 12R) is disposed on the front frame 21F side of the cushion frame 21.
The upper end portion of the left link member 12L of the second link member 12 is rotatably coupled to the upper end portion at the front of the left riser 6 via a second pivot 13L. The lower end portion of the left link member 12L is rotatably coupled to the left end portion of the front frame 21F via a third pivot 14L.
The upper end portion of the right link member 12R of the second link member 12 is rotatably coupled to the upper end portion at the front of the right riser 6 via a second pivot 13R. The lower end portion of the right link member 12R is rotatably coupled to the right end portion of the front frame 21F via a third pivot 14R.
With the above-described configuration, the front frame 21F of the cushion frame 21 moves on a circular moving trajectory with a rotational center 13C of the second pivot (13R, 13L) as a center point and with a distance between the rotational center 13C of the second pivot (13R, 13L) and a rotational center 14C of the third pivot (14R, 14L) as a radius. Accordingly, when the seat back 3 is inclined rearward, the front end portion of the seat cushion 2 moves forward and upward in conjunction with the inclination.
Accordingly, with the first link member 10 and the second link member 12, when the seat back 3 is inclined rearward, the entire seat cushion 2 moves forward and upward in conjunction with the inclination.
The following mainly describes states of the first pivot 11L, the second pivot 13L, the third pivot 14L, the seat cushion 2, and the seat back 3 with reference to
As illustrated in
Meanwhile, as illustrated in
In
As illustrated in
When the vehicle seat 1 is set in the full-flat state, the rotational center 14C of the third pivot (14R, 14L) in the usual use state moves on a circular moving trajectory with the rotational center 13C of the second pivot (13R, 13L) as a center point and with a distance between the rotational center 13C of the second pivot (13R, 13L) and the rotational center 14C of the third pivot (14R, 14L) as a radius as indicated by an arrow BB, thus moving to a position indicated by a rotational center 14Cf. That is, the rotational center 14C of the third pivot (14R, 14L) in the usual use state is positioned at the lower side of the rotational center 13C of the second pivot (13R, 13L). When the vehicle seat 1 is set in the full-flat state, the rotational center 14C moves from the lower side of the rotational center 13C as indicated by the arrow BB and then is positioned as the rotational center 14Cf, the left lower side of the rotational center 13C.
Accordingly, the rear end portion and the front end portion of the seat cushion 2 comparatively easily move to the upper side using the rotational center 7C and the rotational center 13C as fulcrums in conjunction with the rear inclination of the seat back 3. That is, as illustrated in
With the first embodiment, the following effects can be obtained.
1) The line L2 indicative of the respective surfaces of the seat cushion 2f, the seat back 3f, and the headrest 32f when the vehicle seat 1 is set in the full-flat state becomes approximately parallel to the floor surface (line L1) of the vehicle to which the tracks 5 are fixed. This allows providing a flat, full reclining posture approximately parallel to the floor surface (line L1) of the vehicle.
For example, in the case where a rear obstacle such as a rear seat is present on the rear side of the vehicle seat 1, adjusting a height position of the rotational center 7C of the reclining mechanism 7 from the floor surface (line L1) of the vehicle allows providing the flat, full reclining posture while avoiding the rear obstacle.
2) The coordinated movement of the seat back 3 and the seat cushion 2 in the full-flat state is similar to usability of the usual reclining mechanism, and the operation in the full-flat state is simple.
3) The rotational center 11C of the first pivot (11R, 11L) is configured to be near the center of the circular arc cross-sectional shape at the rear end portion of the seat cushion 2. This ensues facilitating regulating a clearance between the lower end portion of the seat back 3 and the rear end portion of the seat cushion 2 and a sliding resistance between the lower end portion of the seat back 3 and the rear end portion of the seat cushion 2 during reclining.
The following describes a vehicle seat of the second embodiment. The vehicle seat 1 of the first embodiment has the configuration that includes the first link member 10 (10L, 10R) coupled to the rear frame 21RR of the cushion frame 21 and the second link member 12 (12L, 12R) coupled to the front frame 21F side of the cushion frame 21. The vehicle seat of the second embodiment includes a slide mechanism (80) for parallel movement of the front frame 21F on the front frame 21F side of the cushion frame 21. The slide mechanism (80) will be described in detail in
A vehicle seat 1a includes the seat cushion 2, the seat back 3 mounted to be tiltable with respect to the rear end portion of the seat cushion 2, and the headrest 32 disposed on the upper end portion of the seat back 3. The shield covers 4 to cover the pair of right and left respective risers (6) described later are disposed on the right and left side surfaces of the vehicle seat 1a. The shield covers 4 can be each made of a resin.
The pair of right and left tracks 5 are disposed at the lower portions of the respective risers (6) covered with the respective shield covers 4. The tracks 5 have a role as slide mechanisms that allow the vehicle seat 1a to move in the front-rear direction. The tracks 5 each include the lower rail fixed to the floor of the vehicle and the upper rail that can move on the lower rail in the front-rear direction. The risers (6) of the vehicle seat 1a are each fixed to the upper rail.
The reclining mechanism 7 tiltably couples the rear end portion of the seat cushion 2 to the lower end of the seat back 3. That is, similarly to the first embodiment, the rear end portion of the seat frame of the seat cushion 2 and the lower end of the back frame 31 of the seat back 3 are, for example, linked with the first link member 10 (10L, 10R) and are tiltable with the reclining mechanism 7. Note that the first link member 10 has a length shorter than that of the first link member 10 of the first embodiment.
As illustrated in
On the other hand, with the vehicle seat 1a in the full-flat state, a rotational center 21FC of the front frame 21F of the cushion frame of the vehicle seat 1a moves parallel to a position indicated by a rotational center 21FCf by the slide mechanism (80).
With reference to
Similarly to the first embodiment, with the above-described configuration according to the second embodiment, the respective surfaces of the seat cushion 2f, the seat back 3f, and the headrest 32f when the vehicle seat 1a is set in the full-flat state become approximately parallel to the floor surface (line L1) of the vehicle to which the tracks 5 are fixed.
With the second embodiment, the following effects can be obtained.
The vehicle seat 1a of the second embodiment in the full-flat state slides the front end portion of the seat cushion 2f forward by the slide mechanism 80. Therefore, the heights of the respective surfaces of the seat cushion 2f, the seat back 3f, and the headrest 32f of the vehicle seat 1a in the full-flat state can be lower than those of the vehicle seat 1 of the first embodiment. That is, while the full-flat state can be set, the vehicle seat 1a with the low-profile seat cushion 2f can be provided.
While the invention made by the inventor has been specifically described based on the embodiments, this invention is not limited to the above-described embodiments, and obviously, variously changeable.
