JP3915751B2 - Vehicle seat - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle seat in which a disabled person or an elderly person (hereinafter simply referred to as a seated person) can easily get on and off the vehicle.
[0002]
[Prior art]
Conventionally, as this type of vehicle seat, for example, the one disclosed in Japanese Patent No. 3127901 has been provided. This vehicle seat includes a seat body and front and rear wheels, and a seat device that can be used alone as a wheelchair, and a seat movement for connecting the seat device to move between the vehicle interior and the exterior of the vehicle interior. With a device, a seated person can get on and off the vehicle while sitting on the seat body, and if it is separated from the seat moving device, it can be used as a wheelchair as it is, In addition to getting on and off the vehicle, it is possible to easily move outside the passenger compartment.
[0003]
[Patent Document 1]
Japanese Patent No. 3127904 [Patent Document 2]
Japanese Patent Laid-Open No. 2002-119543
[Problems to be solved by the invention]
However, the conventional vehicle seat has the following problems to be improved. That is, various forms of connection methods of the sheet moving device to the sheet device are provided. For example, in recent years, a sheet connection base is provided between the tip portions of the left and right four-bar linkage mechanisms constituting the sheet moving device, and the sheet connection base is made to enter the lower surface of the sheet holder of the sheet device, and the sheet connection base in this state of entry. There is provided a method of scooping up and connecting seat devices by raising the base.
In this connection form, a conventional apparatus having a sufficient function for positioning the sheet device with respect to the sheet connection base has not been provided.
Therefore, the present invention can separate the seat device from the seat moving device outside the passenger compartment and can be used alone as a wheelchair, and the seat device is connected to the seat moving device via the seat connection base of the seat moving device. It is an object of the present invention to provide a vehicle seat that can be reliably positioned with respect to the seat connection base of the seat device, and thus the seat moving device.
[0005]
[Means for Solving the Problems]
For this reason, the present invention provides a vehicle seat having the structure described in the above claims.
According to the vehicle seat of the first aspect, the front and rear direction positioning and the left and right direction positioning with respect to the seat coupling base of the seat device and thus the seat moving device are performed, and the upward displacement is restricted. The position of each direction of the sheet device with respect to the sheet moving device can be fixed.
In this specification, the positioning direction of the seat device with respect to the seat coupling base or the seat moving device or the positional relationship of the members is the direction or position with respect to the seated person.
Further , when the seat connection base is inserted below the seat device in the stage of connecting the seat device to the seat moving device outside the passenger compartment, the left and right side portions of the seat connection base are respectively opposed to the positioning wall portions. Positioning in the left-right direction with respect to the sheet connection base of the sheet device and thus the sheet moving device is performed.
Since the seat device is connected in a state in which the seat device is positioned in the left-right direction outside the passenger compartment, the lateral displacement of the seat device in the passenger compartment can be restricted.
[0006]
In the stage of connecting the seat device to the seat moving device outside the passenger compartment, when the seat connection base is moved up and raised below the seat device, the fitting portions provided on the seat device and the seat connection base are mutually connected. By being fitted to each other, positioning in the front-rear direction with respect to the sheet coupling base of the seat device is performed.
Since the seat device is connected in a state where the seat device is positioned in the front-rear direction outside the passenger compartment, the displacement of the seat device in the front-rear direction in the passenger compartment can be restricted.
Further, when the seat device is moved into the vehicle interior by the seat moving device, the fitting portions provided in each of the seat device and the seat moving device are fitted to each other in the vehicle interior / exterior direction, thereby the vehicle interior of the seat device The upward displacement at can be restricted.
[0007]
【The invention's effect】
According to the present invention, since the positioning of the seat device with respect to the seat moving device is ensured, the connecting operation of the seat device to the seat moving device can be performed quickly and reliably, and the displacement of the seat device in the vehicle interior (Backlash) can be regulated.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows a vehicle M provided with a vehicle seat 1 of the present embodiment. In the present embodiment, as illustrated, a case where the vehicle seat 1 is applied to a passenger seat is illustrated, but the vehicle seat 1 according to the present invention is not limited to this, for example, a second seat of a driver seat or a one-box car. It can be applied as a seat for other parts such as row seats.
The vehicle seat 1 includes front and rear wheels, and can be used as a wheelchair outside the passenger compartment. A seat device 10 that can be used as a seat for a passenger to sit inside the passenger compartment and a door opening K of the vehicle M are provided. Accordingly, a seat moving device 100 is provided for moving the seat device 10 from the vehicle interior to the vehicle interior or vice versa. The seat device 10 is installed in the vehicle interior in a state of being connected to the seat moving device 100. First, the sheet moving apparatus 100 will be described.
2 to 4 show details of the sheet moving apparatus 100. The seat moving device 100 includes a first slide mechanism 110 that moves the seat device 10 in the longitudinal direction of the vehicle, and a position between the position facing the front of the vehicle and the position facing the door opening when the seat device 10 is viewed from the seated person. A rotation mechanism 120 that rotates approximately 90 degrees at the same time, a lifting mechanism 159 that moves the seat device 10 facing the door opening K side toward the door opening K by the rotation mechanism 120 and lowers the seat device 10, and the seat device 10 is further moved into the passenger compartment. A third slide mechanism 140 that horizontally moves outward is provided.
[0009]
Hereinafter, each mechanism 110, 120, 140, 159 of the sheet moving apparatus 100 will be described. A fixed base 111 is attached to the floor F of the vehicle M. A first slide base 113 is provided on the upper surface of the fixed base 111 so as to be slidable in the vehicle front-rear direction via guide rails 112, 112 attached in parallel to the vehicle front-rear direction. Between the fixed base 111 and the first slide base 113, a first slide motor 114a, a screw shaft 114b, and a nut 114c meshing with the first slide motor 114a are interposed. The first slide motor 114 a and the screw shaft 114 b are attached to the fixed base 111, and the nut 114 c is attached to the first slide base 113. For this reason, when the first slide motor 114a is activated, the screw shaft 114b is rotated, whereby the first slide base 113 is moved forward or rearward in the vehicle (in a direction orthogonal to the paper surface in FIGS. 2 to 4).
The rotation mechanism 120 has an outer ring 121 and an inner ring 122 that are coaxially and rotatably combined with each other. The outer ring 121 is fixed to the upper surface of the first slide base 113, and the inner ring 122 is fixed to the lower surface of the intermediate base 131 of the lifting mechanism 159. An electric motor for rotation driving (rotary motor 123) is attached to the upper surface of the first slide base 113. The rotational output of the rotary motor 123 is transmitted to the inner ring 122 via a gear transmission mechanism (not shown), whereby the intermediate base 131 and, as a result, the lifting mechanism 159 and the seat device 10 are rotated together.
[0010]
Next, details of the elevating mechanism 159 and the third slide mechanism 140 are shown in FIGS. First, as shown in FIGS. 5 and 6, the elevating mechanism 159 includes a second slide mechanism 130 and a pair of left and right four-bar linkage mechanisms 133 and 133. The second slide mechanism 130 includes the intermediate base 131 and a second slide base 132 that slides relative to the intermediate base 131. The second slide base 132 is slidably supported via slide rails 160 and 160 attached to the intermediate base 131 in parallel with each other. The slide rails 160 and 160 are positioned parallel to each other along the vehicle front-rear direction when the seat device 10 faces the front of the vehicle, and along the vehicle width direction when the seat device 10 faces the door opening K side. Thus, they are in a state of being substantially parallel to each other. On the other hand, the second slide base 132 is provided with guide rollers 161 and 161 rotatably on each side. Each guide roller 161 is supported by the guide rail 160 so as to be able to roll. Thus, the second slide base 132 is supported so as to be slidable with respect to the intermediate base 131.
A second drive device 170 having a second slide motor 171 and a screw shaft 172 is interposed between the second slide base 132 and the intermediate base 131. A second slide motor 171 is attached to the lower surface side of the second slide base 132 and a screw shaft 172 is rotatably supported. A nut 173 that engages with the screw shaft 172 is attached to the upper surface of the intermediate base 131. For this reason, when the second slide motor 171 is rotated forward or backward to rotate the screw shaft 172 with the seat device 10 directed toward the door opening K, the second slide base 132 is directed toward the outdoor side or Slide toward the indoor side (left and right in FIGS. 2 to 4).
[0011]
A pair of left and right four-joint link mechanisms 133 and 133 are attached to the left and right sides of the second slide base 132. Both the four-bar linkage mechanisms 133, 133 are provided with an inner link arm 133a and an outer link arm 133b, respectively. Both link arms 133a and 133b are supported on the side portions of the second slide base 132 so as to be vertically rotatable via support shafts 133c and 133d.
As shown in FIGS. 5 and 7, the inner link arms 133a and 133a on the left and right sides each have a structure in which two arm plates are fixed at regular intervals. One guide roller 134 is rotatably attached to each arm plate at a position near the support shaft 133c. Both guide rollers 134, 134 are placed on the upper surfaces of guide cams 139, 139 attached to both sides of the intermediate base 131 so as to be able to roll, respectively. The upper surfaces of both guide cams 139, 139 are substantially horizontal horizontal guide surfaces 139a. In addition, an inclined guide surface 139b is formed in a certain range of the upper surface of the distal end of the outdoor side when the seat device 10 is directed to the door opening K side, at the distal end side of both guide cams 139, 139. The inclined guide surface 139b is inclined in a direction downward to the tip side. As the second slide base 132 moves from the indoor side to the outdoor side, or conversely, from the outdoor side to the indoor side, both the four-bar linkage mechanisms 133 and 133 move together. At the stage where the guide rollers 134, 134 of the inner link arms 133a, 133a roll along the horizontal guide surface 139a, the four-bar linkage mechanisms 133, 133 move in a substantially horizontal state (without tilting up and down), Accordingly, the seat device 10 and the third slide mechanism 140 move substantially horizontally without being displaced up and down. On the other hand, at the stage where the guide roller 134 rolls along the inclined cam surface 139b, the inner link arm 133a and thus the four-bar linkage mechanisms 133 and 133 tilt upward or downward, whereby the seat device 10 and the third The slide mechanism 140 is raised or lowered. FIG. 4 shows a state in which both the four-bar linkage mechanisms 133 and 133 are moved to the outermost side, and the seat apparatus 10 is thereby lowered to the lowest position.
As described above, by tilting the four-joint link mechanisms 133, 133 up and down while moving in the vehicle width direction, the seating apparatus 10 is always kept in its seating posture without tilting when the seat apparatus 10 is moved up and down. Thus, the distance between the fulcrums of the inner and outer link arms 133a and 133b is appropriately set. Accordingly, both the four-bar linkage mechanisms 133 and 133 constitute a four-bar parallel link mechanism.
Rear side engaging portions 200, 200 are provided symmetrically on the outer side surface of the outer link arms 133b, 133b on the rotation base end side (position close to the support shaft 133d). Both rear side engaging portions 200, 200 extend toward the distal end side of the outer link arms 133b, 133b, respectively. Engaging claws 200a are formed at the lower ends of the tips of the rear engaging portions 200 and 200, respectively. Further, front side engaging portions 201, 201 are provided at the upper part of the rotation leading end side (position near the supporting shaft 133f) of both outer side link arms 133b, 133b. The functions of the front and rear engaging members 201 and 200 will be described later.
[0012]
The third slide mechanism 140 is provided between the distal ends of the pair of left and right four-bar linkage mechanisms 133 and 133. Details of the third slide mechanism 140 are shown in FIGS. The third slide mechanism 140 includes a lifting base 135. The ends of the link arms 133a and 133b of the four-joint link mechanisms 133 and 133 are connected to the side of the elevating base 135 through the support shafts 133e and 133f, respectively.
A seat coupling base 151 is slidably provided on the upper surface side of the elevating base 135. A pair of left and right slide rails 141 and 141 are attached to the lower surface side of the seat coupling base 151. Two guide rollers 136 and 136 are rotatably attached to the left and right sides of the elevating base 135, respectively. The guide rollers 136 to 136 are supported by the slide rail 141 so as to be able to roll. Accordingly, the seat coupling base 151 is supported so as to be slidable with respect to the elevating base 135.
A third driving device 150 is interposed between the elevating base 135 and the seat coupling base 151.
The third driving device 150 includes a third slide motor 152 attached to the lower surface of the seat coupling base 151 and a screw shaft 153 that rotates thereby. A nut 154 that engages with the screw shaft 153 is attached to the upper surface of the elevating base 135. For this reason, when the third slide motor 152 is activated and the screw shaft 153 is rotated in a state where the seat device 10 is directed toward the door opening K, the seat coupling base 151 is moved in the vehicle width direction ( Slide in the horizontal direction in FIG. The sheet apparatus 10 is coupled to the sheet moving apparatus 100 via the sheet coupling base 151. Therefore, the seat device 10 slides in the vehicle width direction in two stages by the second slide mechanism 130 and the third slide mechanism 140.
As shown in FIGS. 2, 3, 8, and 9, a pair of front main engagement portions 137 and 137 are provided on the lower surface of the front portion of the elevating base 135. When the second slide base 132 and the four-bar linkage mechanisms 133 and 133 are returned to the vehicle interior side, the front main engagement portions 137 and 137 are engaged with the front end portions of the intermediate base 131, respectively. As a result, the lifting base 135 and the displacement of the seat device 10 and the four-bar linkage mechanisms 133 and 133 in the lifting direction are restricted. However, the front main engagement portions 137 and 137 function only when the seat apparatus 10 moves in a direction different from the movement direction during normal use due to a vehicle front collision or the like. For this reason, during the normal use of the vehicle seat 1, the moving operation of the elevating base 135 is not hindered by the front main engagement portions 137 and 137.
[0013]
The sheet device 10 is detachably connected (mounted) to the upper surface side of the sheet connection base 151. Hereinafter, the sheet apparatus 10 will be described.
11 and 12 show a state where the sheet apparatus 10 is separated from the sheet moving apparatus 100. FIG. The seat device 10 can be used alone as a wheelchair by being separated from the seat moving device 100 outside the vehicle compartment.
The seat device 10 includes a seat body 11 having a seat cushion 11a, a seat back 11b, and a seat holder 20 for supporting them, a pair of left and right front wheels 30, 30 and a pair of left and right rear wheels 40, 40 provided on the seat holder 20. I have. As shown in FIG. 19, a pair of handle portions 22, 22 are provided on the upper and lower sides of the seat back 11 b so as to be gripped when the caregiver moves the seat device 10. A brake lever 22a is provided on each of the handle portions 22 and 22, respectively. By operating the brake levers 22a and 22a, the rear wheels 40 and 40 can be braked. This will be further described later.
Further, a battery 26 for supplying power to various electric devices attached to the seat device 10 is mounted on the back surface of the seat back 11b. As will be described later, the battery 26 is charged by power supply from the seat moving device 100 side.
The front wheels 30 and 30 and the rear wheels 40 and 40 are provided symmetrically in a foldable state with respect to the seat holder 20. FIG. 11 shows a support structure for the left and right front and rear wheels 30 and 40 as viewed from the seated person.
First, side frame portions 20 </ b> L and 20 </ b> R are provided in parallel to each other on the left and right side portions of the sheet holder 20. Front wheel stays 32 are supported on the front portions of the left and right side frame portions 20L and 20R via pivots 31 so as to be vertically rotatable. A front wheel holder 33 that can swing freely is attached to the lower end of the front wheel stay 32. The front wheel 30 is rotatably supported by the front wheel holder 33. On the other hand, rear wheel stays 42 are supported at the rear portions of the side frame portions 20L and 20R of the seat holder 20 via pivots 41 so as to be vertically rotatable. A rear wheel 40 is rotatably supported at the rotating tip of the rear wheel stay 42.
[0014]
On the other hand, slide brackets 51 are provided on both side frame portions 20L and 20R of the seat holder 20 so as to be movable within a certain range along the side frame portions 20L and 20R, respectively. The slide bracket 51 and the front wheel stay 32 are connected by a front wheel connecting arm 34. The slide bracket 51 and the rear wheel stay 32 are connected by a rear wheel connecting arm 43. That is, the front end side of the front wheel connecting arm 34 is connected to the bracket portion 32a of the front wheel stay 32 via the support shaft 35 so as to be vertically rotatable. On the other hand, the rear end side of the front wheel connecting arm 34 is connected to the slide bracket 51 via the support shaft 52 so as to be vertically rotatable. Further, the front end side of the rear wheel connecting arm 43 is connected to the slide bracket 51 via the support shaft 52 so as to be vertically rotatable, and the rear end side is connected to the upper portion of the rear wheel stay 42 via the support shaft 44. It is connected so that it can rotate up and down.
As shown in the drawing, the support shaft 35 on the front side of the front wheel connecting arm 34 is set on the rotating tip side of the support shaft 31 of the front wheel stay 32, and the support shaft 44 of the rear wheel connecting arm 43 is set on the support shaft 41 of the rear wheel stay 42. It is set to the rotation tip side rather than. For this reason, when the slide bracket 51 moves to the front side (left side in the drawing) as shown by the solid line in FIG. 11, the front wheel stay 32 and the rear wheel stay 42 rotate downward, whereby the front wheel 30 and the rear wheel 40 move. It is taken out to the use position. Conversely, when the slide bracket 51 moves to the rear side (right side in FIG. 11) as indicated by a two-dot chain line in FIG. 11, the front wheel stay 32 rotates upward about the support shaft 31, and the rear wheel stay. 42 pivots upward about the support shaft 41, whereby the front wheel 30 and the rear wheel 40 are folded to the upper storage position. By folding the front wheel 30 and the rear wheel 40 rearward, they can be stored as much as possible in a range that does not disturb the seated person. According to this, when the seat device 10 is moved into the passenger compartment, the seat device 10 can be installed lower, and thus the so-called hip point of the seated person can be set lower. A feeling can be lost.
[0015]
Next, as shown in FIG. 14, the seat holder 20 is provided with a folding drive mechanism 50 for folding the front and rear wheels 30, 30, 40, 40 to the storage position and taking them out to the use position. The fold drive mechanism 50 moves the slide brackets 51 and 51 back and forth. The folding drive mechanism 50 includes a drive motor 56 attached to the front portion of the seat holder 20 as a drive source. Output shafts 56a and 56b protrude from both the front and rear portions (lower and upper portions in FIG. 14) of the drive motor 56. Both the output shafts 56a and 56b are rotated in the normal direction or in the reverse direction. Rotational power output from both output shafts 56a and 56b is transmitted to the screw shaft 53 through intermediate transmission blocks 57 and 57 attached to the front corners of the seat holder 20. Both screw shafts 53, 53 are arranged along both sides of the sheet holder 20. A nut block 55 is fitted to both the screw shafts 53 and 53 in a meshed state. The nut block 55 is fixed to the slider 60. The left and right sliders 60, 60 are accommodated in the left and right side frame portions 20L, 20R of the seat holder 20 so as to be movable in the front-rear direction.
Between the lower surface of the sliders 60 and 60 and the lower surface of the side frame portion 20L (20R) and between the upper surface of the sliders 60 and 60 and the upper surface of the side frame portion 20L (20R), high slidability is obtained. Liners 60a-60a are interposed. The liners 60a to 60a allow the sliders 60 and 60 to move smoothly in the side frame portions 20L and 20R without rattling.
Window portions 20a are respectively provided on the lower surfaces of the side frame portions 20L and 20R. A slide bracket 51 protrudes downward from the window portion 20a. When the drive motor 56 is activated and both the output shafts 56a and 56b rotate, the rotation output is transmitted to the screw shaft 53 through the intermediate transmission blocks 57 and 57, respectively, whereby the both screw shafts 53 and 53 are rotated forward and reverse. Rotate in the direction. By rotating both screw shafts 53, 53 in a synchronized manner, the pair of left and right sliders 60, 60 move together in the front-rear direction, so that the slide brackets 51, 51 move back and forth within the range of the window portion 20a. To do.
As described above, when the slide brackets 51 and 51 move back and forth, the front and rear wheels 30, 30, 40, and 40 are taken out to the use position and folded into the storage position.
[0016]
Thus, since not only the front wheels 30 and 30 but also the rear wheels 40 and 40 are stored rearward with respect to the rotation support shafts 41 and 41 of the rear wheel stays 42 and 42, the front wheels 30 and 30 and the rear wheels are stored. 40 and 40 can be stored in a range from the middle in the front-rear direction of the seat holder 20 to the rear side. According to this, since the front wheels 30 and 30 and the rear wheels 40 and 40 can be stored in a portion that is relatively unobtrusive when viewed from the seated person, it is possible to store these by displacing them to a higher position than before. Thus, the storage space for the front and rear wheels 30, 30, 40, 40 required below the seat holder 20 in the stored state can be made smaller than before. Conventionally, the rear wheel has a configuration in which a rear wheel stay supported rotatably at the rear portion of the seat holder is rotated forward (in the clockwise direction in FIG. 11) and stored. It is configured to be stored in front of the moving support shaft, that is, in front of the seat holder. For this reason, the rear wheel cannot be stored at a very high position with respect to the seat holder, so that it does not interfere with the seated person's seating and transfer. Therefore, a large storage space is required on the lower side of the sheet holder. In addition, since the rear wheel, which is usually set to have a larger diameter than the front wheel, is stored on the front side when viewed from the seated person, a large storage space is required below the seat holder in this respect as well.
The front wheels 30 and 30 and the rear wheels 40 and 40 that are stored in the interlocked manner as described above can be taken out downward by starting the drive motor 56 of the folding drive mechanism 50 in the reverse direction. When the drive motor 56 rotates in the reverse direction, the nut blocks 55 and 55 and the sliders 60 and 60 move to the front side of the seat holder 20, and thereby the slide brackets 51 and 51 move to the front side of the seat holder 20. When the slide brackets 51 and 51 are moved to the front side, the connecting links 34 and 42 are respectively moved to the front side, whereby the rear wheel stays 42 and 42 are rotated downward about the support shafts 41 and 41, and the front wheel stays are moved. 32 and 32 respectively rotate downward about the support shaft 31, whereby the front and rear wheels 30, 30, 40, and 40 are taken out to the lower use position.
As shown in FIG. 21, the front and rear wheels 30, 30, 40, 40 are completely stored by connecting the seat device 10 to the seat moving device 100 and then moving the sliders 60, 60 to the rear end position. The At the bottom near the rear ends of the sliders 60, 60, there are engaging holes 61 for engaging the rear engaging portions 200, 200 provided on the outer link arms 133b, 133b of the four-bar linkage mechanisms 133, 133, respectively. Is provided. This will be described later.
[0017]
Next, the seat device 10 includes a brake device 70 that is used when used alone as a wheelchair. The brake device 70 includes a seat body side mechanism 70A provided on the seat body 11 or the seat holder 20 side, and a wheel stay side mechanism 70B provided on the rear wheel stay 42 side.
The seat body side mechanism 70 </ b> A includes a single lever portion 71 and a pair of left and right operating portions 72 and 72. Details of the lever portion 71 are shown in FIG. 18, and details of the operating portion 72 are shown in FIG. FIG. 11 shows only the brake lever 73 of the lever portion 71. First, the operation parts 72 and 72 will be described. The operating portions 72 and 72 are provided in the same configuration at the rear portions of the left and right side frame portions 20L and 20R of the seat holder 20 corresponding to both the rear wheels 40 and 40. As shown in FIG. 16, the operation part 72 of the left side frame part 20L of the sheet holder 20 will be described.
As shown in the drawing, an operating lever 74 is provided at the rear portion of the left frame portion 20L of the seat holder 20 so as to be pivotable up and down about a support shaft 75. The operating lever 74 is urged counterclockwise by a torsion spring (not shown). A brake lever 76 of the wheel stay side mechanism 70 </ b> B is provided below the operation lever 74 and above the rear wheel stay 42 so as to be pivotable up and down about the support shaft 77. The brake lever 76 is urged clockwise by a torsion spring (not shown).
When the actuating lever 74 rotates in the clockwise direction in FIG. 16 against the torsion spring, its one end 74 a interferes with one end 76 a of the braking lever 76 as shown by a two-dot chain line in the figure. In this interference state, the actuating lever 74 is further rotated in the clockwise direction in the figure, whereby the brake lever 76 is rotated in the clockwise direction in the figure about the support shaft 77 against the torsion spring. When the brake lever 76 is rotated in the clockwise direction in the drawing, the other end 76b is pressed against the rear wheel 40, whereby a rotational resistance, that is, a braking force is applied to the rear wheel 40.
One end side of two brake wires 78 and 79 is connected to the other end 74 b of the operating lever 74. One brake wire 78 is routed to the lever portion 71 side. The other brake wire 79 is connected to the brake lever 22a for the caregiver to operate. Both brake wires 78 and 79 are inserted into wire covers 78a and 79a each having one end fixed to a fixing plate 20b provided on the left frame portion 20L of the seat holder 20.
The lever portion 71 is provided at the front portion of the right frame portion 20R of the seat holder 20, and is disposed at a position where the seated person can operate the brake lever 73 with the right hand. Reference numeral 80 in FIG. 18 indicates a lever portion base. The lever portion base 80 is fixed to the front portion of the right frame portion 20R. The brake lever 73 and the link lever 81 are supported on the lever base 80. The brake lever 73 is rotatably supported on the lever portion base 80 via a support shaft 82. On the other hand, the link lever 81 is rotatably supported on the lever base 80 via a support shaft 83 on the front side (left side in FIG. 18) of the brake lever 73. The brake lever 73 and the link lever 81 are connected by a connecting lever 84. One end side of the connecting lever 84 is rotatably connected to the link lever 81 via a support shaft 84a, and the other end side is rotatably connected to the brake lever 73 via a support shaft 84b.
A bracket portion 81 a is provided on the rotating distal end side of the link lever 81. The other end side of the brake wire 78 is connected to the bracket portion 81a. The other end portion of the wire cover 78 a through which the brake wire 78 is inserted is fixed to a bracket portion 80 a provided on the lever portion base 80.
[0018]
The brake lever 73 is biased by a torsion spring (not shown) to a non-braking position side (clockwise direction in FIG. 18) that rotates to the front side of the seated person. Further, the other end sides of the brake wires 78 and 78 routed from the left and right operating portions 72 and 72 are connected to the rotating tip side of the link lever 81, respectively.
When the brake lever 73 is tilted by manual operation from the non-braking position indicated by a solid line in FIG. 18 to the braking position indicated by a two-dot chain line in FIG. 18 against the torsion spring, the support shaft 84b of the connecting lever 84 is It moves to the opposite side across the line L connecting 82 and the support shaft 84a. In FIG. 18, a line connecting the support shaft 82 and the support shaft 84 a after the brake lever 73 is tilted to the braking position is indicated by the reference symbol L ′.
In other words, each support shaft 82, 83, 84a, 84b constitutes a so-called turnover mechanism. For this reason, when the brake lever 73 is tilted from the non-braking position to the braking position, the link lever 81 rotates to the left in FIG. 18 via the connecting lever 84, so that the brake wire 78 is pulled in the same direction. When the brake wire 78 is pulled, the operating arm 74 rotates in the clockwise direction in FIG. 16 against the torsion spring, whereby the other end 76b of the brake lever 76 is pressed against the rear wheel 40 as described above. Thus, a braking force is applied to the rear wheel 40.
This braking state is maintained when the brake lever 73 is locked at the braking position by the turnover mechanism. The brake lever 73 positioned at the braking position is tilted to the non-braking position side (front side as viewed from the seated person) by the seated person or caregiver to release the tension of the brake wire 78, and the operating lever 74 is moved by the torsion spring. 16 can be returned to the position indicated by the solid line, and the braking state of the rear wheel 40 by the braking lever 76 can be thereby released. That is, the other end 76b of the brake lever 76 is separated from the rear wheel 40, and the rear wheel 40 is allowed to rotate. In this non-braking state, as shown by a solid line in FIG. 16, the operating lever 74 and the braking lever are arranged so that an appropriate gap is generated between one end 74a of the operating lever 74 and one end 76a of the braking lever 76. The position such as 76 or the length of one end 74a, 76a is set. For this reason, when the rear wheels 40 and 40 are in the non-braking state and an appropriate gap is generated between the one end portion 74 a of the operating lever 74 and the one end portion 76 a of the braking lever 76, the rear wheel stay 42. The brake lever 76 can move to the rear side of the actuating lever 74 integrally with the rear wheel stay 42 without interfering with the actuating lever 74 in accordance with the rearward rotation.
Brake wires 79 and 79 respectively connected to the operating levers 74 and 74 of the pair of left and right operating parts 72 are connected to a brake lever 22a provided at the upper back of the seat back 11b. Therefore, when the caregiver brakes the left and right brake levers 22a, 22a with the hand holding the handle portions 22, 22, the brake wires 79, 79 are pulled when the brake levers 22a, 22a are turned counterclockwise in FIG. As a result, the left and right operating levers 74 and 47 rotate in the clockwise direction in FIG. 16, so that a braking force is applied to the rear wheels 40 and 40.
[0019]
Next, as shown in FIGS. 15 and 21, a pair of left and right front side connecting members 210, 210 are provided in a state of projecting downward at the lower front portion of the sheet holder 20. As shown in FIG. 13, a pair of left and right front connection engaging members 155 and 155 are provided on the front upper surface of the sheet connection base 151 of the sheet moving apparatus 100 with respect to the front connection members 210 and 210. The front side connecting member 210 is provided with an engaging groove 210a for the front side connecting engaging member 155 to be fitted and engaged therewith. The engagement groove 210a is formed by cutting along a substantially arc-shaped path from the lower side of the front side connecting member 210 to the front side obliquely upward. When the seat device 10 is connected to the seat connection base 151 and the connection engagement member 155 is fitted into the engagement groove 210a of the front side connection member 210, the position of the seat device 10 in the front-rear direction is mainly relative to the seat connection base 151. Be regulated.
The engaging groove 210a of the front connecting member 210 in the seat holder 20 and the front connecting engaging member 155 of the seat connecting base 151 correspond to an embodiment of the front / rear positioning mechanism and the fitting portion of the present invention .
In addition, as shown in FIG. 20, a pair of left and right rear side connecting members 211 and 211 are attached to the rear side of the lower surface of the seat holder 20. Each of the rear connecting members 211 and 211 is formed with an engaging groove 211a that opens downward. On the other hand, as shown in FIGS. 13 and 20, rear side connection engagement members 156 and 156 are provided on the rear side of the upper surface of the seat connection base 151. The seat connection base 151 of the seat device 10 can also be obtained by connecting the seat device 10 to the seat connection base 151 and fitting the rear side connection engagement members 156 and 156 into the engagement grooves 211a of the rear side connection member 211, respectively. The position in the front-rear direction with respect to is mainly regulated. In other words, the engagement grooves 211a of the rear connection members 211 and 211 in the seat holder 20 and the rear connection engagement members 156 and 156 of the seat connection base 151 correspond to an embodiment of the front-rear positioning mechanism of the present invention.
Thus, the front connection engagement member 155 fits in the engagement groove 210a of the front connection member 210, and the rear connection engagement members 156 and 156 fit in the engagement groove 211a of the rear connection member 211. Thus, the seat device 10 is positioned in the front-rear direction (as viewed from the seated person) with respect to the seat connection base 151. In addition, as shown in FIG. 12, positioning wall portions 28, 28 that are parallel to each other are provided on the inside of the left and right side frame portions 20L, 20R of the seat holder 20 so as to protrude downward (FIG. 12). Then, only the positioning wall portion 28 on the right side as viewed from the seated person is seen). When the seat coupling base 151 enters between the positioning wall portions 28, 28, the seat device 10 is positioned in the left-right direction (as viewed from the seated person) with respect to the seat coupling base 151.
That is, the parallel positioning wall portion 28 of the sheet holder 20 corresponds to an embodiment of the left / right positioning mechanism of the present invention.
Further, an arm engagement portion 210b for engaging with the front engagement portion 201 provided on the outer link arm 133b on the seat moving device 100 side is provided at the rear portion of the front connection member 210 so as to protrude rearward. .
Further, a connection recess 212 is provided between the rear connection members 211 and 211 on the rear side of the lower surface of the seat holder 20. A connecting projection 213 is provided at the center of the second slide base 132 with respect to the connecting recess 212.
[0020]
When the sheet apparatus 10 is connected to the sheet connection base 151 of the sheet moving apparatus 100, the front side of the sheet connection base 151 side is formed in the engagement grooves 210a and 210a of the front side connection members 210 and 210 of the sheet apparatus 10 side as described above. Each of the coupling engagement members 155 is fitted, and the rear coupling members 156 and 156 on the sheet coupling base 151 side are engaged with the rear coupling members 211 and 211 on the seat apparatus 10 side, whereby the sheet apparatus. 10 is positioned in the front-rear direction mainly with respect to the seat coupling base 151, and the relative displacement in the same direction is restricted. Further, when the sheet connection base 151 enters between the left and right positioning wall portions 28, 28 of the sheet holder 20, the sheet device 10 is positioned in the left-right direction with respect to the sheet connection base 151 of the sheet device 10. It is connected to the connection base 151.
In this connected state, when the second slide base 132 is retracted indoors by the second slide mechanism 130, the left and right four-bar linkage mechanisms 133, 133 are retracted while being tilted upward, and the seat device 10 is being lifted. Returned indoors. When the second slide base 132 reaches the retracted end on the indoor side, and then the seat connecting base 151 is retracted indoors with respect to the lift base 135 by the third slide mechanism 140, the seat device 10 moves to the four-bar linkage mechanism 133. , 133 and the second slide base 132 are displaced indoors. That is, the third slide mechanism 140 corresponds to the auxiliary slide mechanism of the present invention.
As a result, the arm engaging portions 210b and 210b of the front connecting members 210 and 210 on the seat device 10 side engage with the front engaging portion 201 of the outer link arm 133b, respectively, and the sliders 60 and 60 on the seat device 10 side. Each of the rear engaging portions 200 on the seat moving device 100 side enters from the rear. Further, at this stage, the connecting convex portion 213 of the second slide base 132 enters the connecting concave portion 212 on the sheet apparatus 10 side. FIG. 23 shows the state at this stage.
When the arm engaging portion 210b of the front connecting member 210 is engaged with the front engaging portion 201 of the outer link arm 133b, the front portion of the seat cushion 10a, in particular, the seat cushion 11a is separated from the seat moving device 100. Lifting is regulated. According to this, even if a large inertial force in the direction of lifting the front portion of the seat cushion 11a is applied to the seat device 10 due to, for example, a large impact load generated by a rear collision of the vehicle, the seat device 10 Displacement (inclination in the rearward tilt direction) can be reliably regulated (measures for rear collision).
In addition, the rear engagement portion 200 enters the sliders 60 and 60 on the seat device 10 side, and the connection convex portion 213 of the second slide base 132 enters the connection recess 212 of the seat device 10. As a result, the rear portion of the seat device 10, in particular, the rear portion of the seat cushion 11 a is restricted from floating (displacement upward) from the seat moving device 100. The connecting concave portion 212 and the connecting convex portion 213 correspond to an embodiment of the upward displacement regulating mechanism and the fitting portion of the present invention . The second slide base 132 corresponds to the vehicle width direction movement base of the present invention.
According to this, even when a large inertia force acts on the seat device 10 in the direction of lifting the rear portion of the seat cushion 11b due to, for example, a large impact load generated by the front collision of the vehicle, Displacement (tilt in the forward tilt direction) can be reliably regulated (front crash countermeasures).
Here, the engagement state between the arm engagement portion 210b of the front connection member 210 and the front engagement portion 201 of the outer link arm 133b, the state in which the rear engagement portion 200 has entered the slider 60, and the connection recess 212. In addition to the state in which the connecting projections 213 are in contact with each other, the seat device 10 is positioned with a slight gap between them, and the seat device 10 is moved in a normal use state due to a large inertia force or vehicle vibration. Are in contact with each other only when they are slightly displaced in another direction. For this reason, in a normal use state, they do not interfere with each other, so that the sheet apparatus 10 can be smoothly moved with respect to the sheet moving apparatus 100.
As shown in FIG. 13, male-side power connectors 158 and 158 are arranged on the upper surface of the sheet coupling base 151. With respect to the male side power connectors 158 and 158, female side power connectors 25 and 25 are arranged on the lower surface side of the sheet holder 20 of the sheet apparatus 10. When the sheet apparatus 10 is coupled to the sheet coupling base 151 of the sheet moving apparatus 100, the female-side power connectors 25 and 25 are connected to the male-side power connectors 158 and 158, respectively. By connecting the female-side power connectors 25, 25 to the male-side power connectors 158, 158, power is supplied from the sheet moving apparatus 100 side to the sheet apparatus 10 side. The power supplied thereby activates the folding drive mechanism 50 of the front and rear wheels 30, 30, 40, 40 and other electric devices on the seat device 10 side, and charges the battery 26 mounted on the back surface of the seat back 11 b. Is done.
[0021]
Next, as shown in FIGS. 13, 20, and 21, a contact wall portion 21 is provided at the front portion of the sheet apparatus 10 so as to straddle between the front end portions of the left and right side frames 20 </ b> L and 20 </ b> R. . A pair of left and right buffer blocks 23, 23 are attached to the rear surface (right side surface in FIG. 21) of the contact wall portion 21. As shown in FIG. 21, inclined surfaces 23 a are provided on the rear surfaces of the buffer blocks 23, 23, which are inclined in a direction in which the protruding dimension from the contact wall portion 21 decreases toward the upper side. The inclined surface 23a corresponds to an embodiment of the inclined surface described in the claims. The inclination surface 23a is set in the inclination direction and the inclination angle in accordance with the movement locus (ascending path) of the seat coupling base 155 accompanying the movement to the vehicle interior side in the four-bar linkage mechanism 133, 133 in the seat moving device 100. Has been.
On the other hand, a pair of left and right contact protrusions 157 and 157 are attached to the front surface of the seat coupling base 151 corresponding to the buffer blocks 23 and 23. Elastic rubber is used for the both contact protrusions 157 and 157.
FIG. 11 shows a state where the seat device 10 used as a wheelchair outside the vehicle compartment is returned to the vehicle compartment and the seat device 10 is moved backward to approach the seat coupling base 151. By further retracting the sheet apparatus 10 from this approaching state, the sheet connection base 151 can be relatively moved downward to the sheet holder 20.
When the sheet connecting base 151 is relatively moved downward with respect to the seat holder 20 due to the retreat of the sheet device 10, both contact protrusions 157 and 157 contact the inclined surface 23a of the buffer block 23, respectively. Temporary positioning in the front-rear direction of the seat with respect to the ten seat coupling bases 151 is performed. By raising the sheet connection base 151 from this temporary positioning state, the sheet apparatus 10 is connected to the sheet connection base 151. This will be further described later.
A pair of left and right footrests 27, 27 are provided on the outer surface of the abutting wall portion 21 for a seated person to put his / her feet on.
[0022]
In the vehicle seat 1 configured as described above, the seat device 10 is moved from the vehicle interior to the vehicle exterior and separated from the seat moving device 100 as described below, and conversely, the seat device 10 used as a wheelchair outside the vehicle interior. Is connected to the seat moving device 100 and returned to the passenger compartment.
First, in a state in which the seat main body 11 (and thus a seated person) is positioned facing the front of the vehicle in the vehicle interior (a state when the vehicle is running, etc.), the seat coupling base 151 and thus the seat main body 11 are moved to the lifting base 135 in the third slide mechanism 130. The front main engagement portion 137 of the elevating base 135 is engaged with the front end of the intermediate base 131 and the arm engagement of the front connection members 210 and 210 of the seat device 10 because the front main engagement portion 137 is engaged with the front end of the intermediate base 131. The portions 210b and 210b are engaged with the front side engaging portion 201 of the outer link arm 133b. As a result, for example, even when a large impact load is applied to the seat main body 11 at the time of a rear-end collision of the vehicle, the lifting of the seat device 10 from the seat moving device 100 particularly in the front portion is restricted, and thereby the seat main body 11 As a result, displacement in the backward tilt direction of the seated person is reliably prevented.
Further, in this state, the rear side engaging portion 200 provided on the rotation base end side of the outer link arm 133 b enters the sliders 60 and 60 of the seat device 10, respectively, and enters the connection recess 212 of the seat device 10. In this state, the connecting convex portion 213 provided on the second slide base 132 has entered. Thereby, for example, even when a large impact load (so-called seat belt load) is applied to the seat main body 11 at the time of a frontal collision of the vehicle, the lifting of the seat device 10 from the seat moving device 100 particularly at the rear is restricted, As a result, the displacement (lifting) of the seat main body 11 and consequently the seated person in the forward direction is reliably regulated.
On the other hand, in the normal state where the impact load is not applied, the front main engagement portion 137 is engaged with the front end of the intermediate base 131, the arm engagement portion 210b of the front connection member 210, the front engagement portion 201, and the like. In the engaged state, the state in which the rear side engaging portion 200 has entered the slider 60, and the state in which the connecting convex portion 213 has entered the connecting concave portion 212, the vehicle of the seat connecting base 151 and the seat body 11 (seat device 10), respectively. Movement outward in the width direction (moving forward as viewed from the seated person) is permitted. For this reason, during normal use, the seated person or the caregiver can perform the movement operation of the vehicle seat 1 without performing any special unlocking operation. In particular, the rear engagement portion 200 that has entered the slider 60 does not engage with the slider 60 in a normal state. On the other hand, when an impact load is applied to the sheet main body 11 and the rear portion of the sheet main body 11 starts to be slightly displaced in the lifting direction, the engaging claw 200a of the rear side engaging portion 200 starts at this stage for the slider 60. The displacement of the sheet body 11 is regulated by being engaged with the engagement hole 61, and as a result, the displacement of the sheet body 11 in an inappropriate direction is reliably regulated.
[0023]
In a state where the seat main body 11 is positioned in front of the vehicle, the first slide motor 114a of the first slide mechanism 110 and the rotation motor 123 of the rotation mechanism 120 are activated, and the door opening portion is moved while the seat main body 11 moves forward of the vehicle. It is rotated to the K side. FIG. 2 shows a state in which the seat body 11 is directed to the door opening K side.
Next, the third slide motor 152 of the third slide mechanism 140 is activated, and the seat coupling base 151 slides to the outside of the passenger compartment, thereby moving the seat body 11 horizontally to the outside of the passenger compartment. This state is shown in FIG.
Next, the second slide motor 171 of the second slide mechanism 130 is activated, and the second slide base 132 moves to the outside of the passenger compartment. As a result, the left and right four-bar linkage mechanisms 133 and 133 move toward the passenger compartment side. At this time, the guide roller 134 attached to the inner link arm 133a rolls on the horizontal guide surface 139a of the guide cam 139, so that both the four-bar linkage mechanisms 133, 133 move downward while moving to the outside of the passenger compartment (see FIG. 4 in a counterclockwise direction), whereby the elevating base 135 and thus the seat device 10 move out of the passenger compartment and are lowered to a position lower than the passenger compartment. FIG. 4 shows this state.
At this stage, the front and rear wheels 30, 30, 40, 40 are taken out to the lower use position by starting the folding drive mechanism 50 on the seat device 10 side. Thereafter, the seat device 10 is lowered by moving the second slide base 132 further outside the passenger compartment and further lowering the elevating base 135, thereby grounding the front and rear wheels 30, 30, 40, 40. When the elevating base 132 is further lowered, the sheet connecting base 151 is detached downward from the sheet holder 20 of the sheet apparatus 10, and thus the sheet apparatus 10 can be separated from the sheet moving apparatus 100.
[0024]
By separating the seat device 10 from the seat moving device 100, the seat device 10 can be used as a wheelchair. When used as a wheelchair, the brake device 70 can be operated by tilting the brake lever 73 forward while a seated person is sitting. When the brake lever 73 is tilted forward, the brake wires 78 and 78 are pulled and the operation levers 74 and 74 are rotated, whereby the brake levers 76 and 76 are rotated and pressed against the rear wheel 40, respectively. A braking force can be applied to the wheels 40 (40). This rear wheel braking state is maintained by the brake lever 73 being locked to the braking side by a so-called turnover mechanism. When the seated person returns the brake lever 73 to the front, the brake wires 78 and 78 are loosened, and the operating levers 74 and 74 and the brake levers 76 and 76 are returned to the non-brake side by the biasing force of the respective torsion springs. 40 and 40 are in a rotatable state. Thereby, the seat apparatus 10 (wheelchair) can be moved.
In addition, handle portions 22 and 22 are provided on the upper back of the seat back 11b for holding when the caregiver moves the seat device 10 and the like. Each of the handle portions 22 and 22 is equipped with a brake lever 22a connected to the operation lever 74 via a brake wire 79. The caregiver can also operate the brake levers 22a and 22a to rotate the operating levers 74 and 74 to the braking side and press the braking levers 76 and 76 against the rear wheels 40 and 40. The brakes can be applied to the rear wheels 40, 40.
Further, according to the left and right brake levers 22a and 22a, for example, when the seat device 10 as a wheelchair is moved in a direction down a slope, a caregiver operates the brake levers 22a and 22a with an appropriate operation force. Thus, it is possible to move the seat device while adjusting the pressing force of the brake levers 76, 76 against the rear wheels 40, 40, whereby the seat device can be moved slowly.
Furthermore, when the caregiver operates the left and right brake levers 22a, 22a with different operating forces, the left and right rear wheels 40, 40 can be rotated at mutually different rotational speeds. The direction can be changed easily.
[0025]
When the seat device 10 used as a wheelchair is returned to the passenger compartment, the seat device 10 is moved backward to approach the seat connection base 151 of the seat moving device 100. In this case, the seat coupling base 151 is previously moved to the lowest position outside the passenger compartment. By retreating the sheet apparatus 10, the sheet connection base 151 can be entered below the sheet holder 20. When almost the entire sheet connection base 151 enters the lower surface side of the sheet apparatus 10, the contact protrusions 157 and 157 on the sheet connection base 151 side are formed on the inclined surfaces 23a and 23a of the buffer blocks 23 and 23 on the sheet apparatus 10 side. Abut. Accordingly, the sheet connection base 151 is temporarily positioned in the front-rear direction with respect to the sheet apparatus 10.
In this temporary positioning state, the sheet connecting base 151 is slightly raised by retracting the second slide base 132 on the sheet moving device 100 side. As a result, the sheet connection base 151 gradually approaches (rises) the sheet holder 20 of the sheet apparatus 10.
In this ascending stage, since the leading ends (sheet coupling base 151) of both the four-bar linkage mechanisms 133 and 133 are displaced along the arc-shaped locus, the sheet coupling base 151 is slightly horizontal with respect to the sheet apparatus 10. With the above displacement (while the sheet coupling base 151 is displaced relatively forward), it rises and approaches the sheet holder 20.
In this respect, since the rear surfaces of the buffer blocks 23 and 23 on the seat device 10 side are formed on the inclined surfaces 23a that are inclined in the direction in which the protruding size becomes smaller toward the upper side, the contact convex portions 157 with respect to the buffer blocks 23 and 23 are formed. , 157, while maintaining the contact state (temporary positioning state) of the sheet connection base 151, a slight horizontal displacement of the sheet connection base 151 with respect to the sheet device 10 is allowed smoothly. 155, 155, 156 and 156 are surely inserted into the engaging grooves 210a and 211a of the connecting members 21, 21, 211, and 211 on the sheet apparatus 10 side, respectively.
Further, since the engaging grooves 210a and 210a of the front side connecting members 210 and 210 on the seat device 10 side are formed along an arcuate path, also in this respect, the connecting and engaging is performed in the engaging grooves 210a and 210a. The members 155 and 155 can be made to approach smoothly while allowing the seat coupling base 151 to move slightly in the horizontal direction with respect to the seat device 10 while smoothly entering.
Thus, as the seat connection base 151 rises and approaches the seat holder 20, the front side connection engagement members 155 and 155 reach the back of the engagement groove 210a of the front side connection member 210, respectively, and the rear side of the sheet holder By engaging the rear side coupling engagement member 156 on the seat coupling base 151 side in the respective engagement grooves 211 a of the rear side coupling members 211, 211, the seat device 10 is mainly moved back and forth with respect to the sheet coupling base 151. They are connected in a state of being positioned in the direction.
Further, when the seat connection base 151 enters between the positioning wall portions 28 of the seat holder 20, the seat device 10 is positioned in the left-right direction as viewed from the seated person with respect to the seat connection base 151.
Further, when the seat device 10 is connected to the seat connection base 151, the male power connectors 25, 25 on the seat device 10 side are connected to the female power connectors 158, 158 on the seat connection base 151 side. Power is supplied to the device 10 side.
[0026]
After the connection of the seat device 10 to the seat connection base 151 is completed, the second slide base 132 is further retracted to the vehicle interior side, so that both the four-bar linkage mechanisms 133 and 133 are returned to the vehicle interior side while being tilted upward. As a result, the sheet apparatus 10 starts to rise. When the sheet apparatus 10 is raised to an appropriate height, the folding drive mechanism 50 of the sheet apparatus 10 is activated and the sliders 60 and 60 move to the rear side (right side in FIG. 11) of the sheet apparatus 10, thereby The front and rear wheels 30, 30, 40, 40 are folded upward. That is, when the sliders 60, 60 move to the rear side of the seat device 10, the slide brackets 51, 51 move to the rear side together with the sliders 60, 60.
When the left and right slide brackets 51, 51 move to the rear side of the seat device 10, the front wheel connecting arms 34, 34 and the rear wheel connecting arms 43, 43 are also displaced rearward. By moving the front wheel connecting arms 34, 34 to the rear side, the front wheel stays 32, 32 are pivoted upward about the support shaft 31, respectively, and the front wheels 30, 30 are folded to the retracted position. When the rear wheels 43 and 43 move rearward, the rear wheel stays 42 and 42 rotate upward about the support shaft 41, respectively, and the rear wheels 40 and 40 are folded to the storage position. In FIG. 11, the folded front and rear wheels 30, 30, 40, 40 are indicated by two-dot chain lines.
[0027]
Here, at the stage where the rear wheel stays 42, 42 rotate upward about the support shaft 41 by the movement of the rear wheel connecting arms 43, 43 to the rear side, the brake lever 73 is moved to the non-braking side (seat person). By placing the brake device 70 in a non-braking state by being positioned on the near side as viewed from the side, the operating lever 74 is held on the non-braking side (position indicated by a solid line in FIG. 16) by the spring biasing force, thereby The brake lever 76 can be held on the non-brake side (position indicated by a solid line in FIG. 16) by the spring biasing force. When the operating lever 74 and the braking lever 76 are held on the non-braking side, an appropriate gap is generated between them as shown in the figure, so that the rear wheel stay 42 rotates upward about the support shaft 41. In doing so, the brake lever 76 does not interfere with the operating lever 74, whereby a smooth rotation of the rear wheel stay 42 and a smooth folding operation of the rear wheel 40 can be obtained.
Therefore, in this specification, the appropriate clearance between the operation lever 74 and the brake lever 76 is such that the two wheels 74 and 76 do not interfere with each other when the rear wheel stay 42 is rotated upward. In order to satisfy this condition while ensuring the original braking function, the relative positions of the operating lever 74 and the braking lever 76 or the length dimensions of the one end portions 74a and 76a, etc. Is set appropriately.
By retracting the second slide base 132, the front and rear wheels 30, 30, 40, 40 are folded while the seat device 10 is raised, and the seat device 10 reaches the ascending end by continuously raising after the folding is completed. . FIG. 3 shows the state at this stage. At this stage, the second slide base 132 reaches the retracted end, and therefore, both the four-bar linkage mechanisms 133 and 133 reach the retracted end on the indoor side.
[0028]
After the seat device 10 is returned to the ascending end, the third slide motor 152 of the third slide mechanism 140 is activated in the reverse direction, and the seat coupling base 151 slides toward the vehicle interior side with respect to the lifting base 135. As a result, the seat body 11 is returned horizontally to the vehicle interior side. When the seat device 10 is returned to the vehicle interior side by the third slide mechanism 140, the arm engaging portions 210b and 210b provided on the front side connecting members 210 and 210 on the seat device 10 side are respectively engaged with the front side engagement of the outer link arm 133b. The rear engaging portions 200 and 200 are engaged from the rear portions of the sliders 60 and 60, respectively. At this stage, as shown in FIG. 21, the state in which the engaging claws 200a of the rear engaging portions 200, 200 are engaged with the engaging holes 61, 61 provided in the slider 60 and the side frames 20L, 20R. Instead, the sliding operation by the third slide mechanism 140 is allowed. Further, when the seat body 10 is returned horizontally to the vehicle interior side by the third slide mechanism 140, the connecting convex portion 213 provided on the second slide base 132 enters the connecting concave portion 212 provided on the rear portion of the seat holder 20. It will be in the state.
Thus, when the seat device 10 is returned to the vehicle interior side by the third slide mechanism 140, the arm engaging portion 210b of the front side connecting member 210 is engaged with the front side engaging portion 201 of the outer link arm 133b, thereby the seat device. 10 mainly restricts the displacement of the front side in the lifting direction. Further, when the seat device 10 is returned to the vehicle interior side by the third slide mechanism 140, the rear engagement portions 200, 200 enter from the rear portions of the sliders 60, 60, so that the seat device 10 is mainly behind. Displacement in the side lifting direction is restricted. Thereby, for example, when a large impact load (seat belt load) is applied to the seat body 11 at the time of a frontal collision of the vehicle, the displacement in the lifting direction from the seat body 11 and the seat movement device 100 of the seated person is firmly regulated. The
As described above, after the seat device 10 is returned to the vehicle interior side, the rotation motor 123 rotates reversely, and the first slide motor 114a starts in the reverse rotation direction, so that the seat body 11 slides toward the vehicle rear side. However, the vehicle is rotated from the position facing the door opening K side to the position facing the front of the vehicle. By returning the seat body 11 to the front of the vehicle and returning to the rear end position of the sliding range in the vehicle front-rear direction, the return operation of the seat device 10 to the vehicle interior side is completed.
[0029]
According to the vehicle seat 1 of the present embodiment configured as described above, if the seat device 10 is moved into the vehicle interior by the seat moving device 100, the seat device 10 can be used as a seat in the vehicle interior. On the other hand, the seat moving device 100 can be used alone as a wheelchair by moving the seat device 10 out of the passenger compartment and separating it from the seat moving device 100.
Further, in order to return the seat device 10 used as a wheelchair outside the vehicle interior to the vehicle interior, the seat connection base 151 is moved outside the vehicle interior, while the seat device 10 is moved backward toward the seat connection base 151. As a result, the seat connection base 151 is relatively inserted between the positioning wall portions 28 and 28 on the lower surface side of the seat device 10.
When the sheet connection base 151 is inserted between the positioning wall portions 28, the sheet device 10 is positioned in the left-right direction with respect to the sheet connection base 151.
When almost the entire sheet connection base 151 enters the lower surface side of the sheet apparatus 10, the contact protrusions 157 and 157 of the sheet connection base 151 contact the inclined surfaces 23a and 23a on the sheet apparatus 10 side, thereby The sheet connection base 151 is temporarily positioned with respect to the sheet apparatus 10. When the sheet connection base 151 is raised in this temporary positioning state, the connection engagement members 155, 155, 156, and 156 are fitted into the engagement grooves 210a, 210a, 211a, and 211a on the sheet apparatus 10 side. As a result, the seat device 10 is positioned in the front-rear direction with respect to the seat connection base 151.
Further, in the process in which the sheet connection base 151 is raised, the contact protrusions 157 and 157 are maintained in contact with the inclined surfaces 23a and 23a on the sheet apparatus 10 side, and the inclined surfaces 23a and 23a are maintained in the sheet connection base 151. Therefore, a slight forward displacement caused by the ascending path of the seat coupling base 151 is generated without displacing the seat device 10 in the front-rear direction as the seat coupling base 151 is elevated. Absorbed without difficulty. For this reason, since a large resistance is not added to the ascending operation of the seat coupling base 151, the seat base 151 and, in turn, the sheet moving device 100 can be operated smoothly.
After the connection of the seat connection base 151 to the seat device 10 is completed, the seat device 10 is raised and returned to the vehicle interior side by the operation of the elevating mechanism 159, and the seat device 10 is further moved to the vehicle interior side by the third slide mechanism 140. When returned to the horizontal position, the connecting convex portion 213 enters the connecting concave portion 212, whereby the sheet device 10 is positioned in the vertical direction with respect to the sheet moving device 100.
As described above, since the seat device 10 is connected to the seat moving device 100 while being positioned in the left-right direction, the front-rear direction, and the up-down direction with respect to the seat moving device 100, each direction in the vehicle interior of the seat device 10 is concerned. Can be controlled.
[0030]
Various modifications can be made to the embodiment described above. For example, the configuration in which the pair of front and rear coupling engagement members 155 and 156 are provided on the left and right sides is illustrated, but a configuration in which one coupling engagement member that is long on the left and right is disposed on the front and rear is also possible.
Moreover, although the structure which positions the sheet | seat apparatus 10 with respect to the said sheet | seat connection base 151 by making the sheet | seat connection base 151 approach between the positioning wall parts 28 and 28 provided in the sheet | seat apparatus 10 was illustrated, for example, a sheet | seat A connecting member having an engaging groove is provided on the lower surface of the apparatus, and the connecting engaging member is attached to the upper surface of the seat connecting base 151 with its axial direction along the front-rear direction. It is good also as a structure which performs the positioning of the left-right direction with respect to the sheet | seat connection base of the sheet | seat apparatus 10 by fitting in this engagement groove.
In addition, although the configuration in which the connecting concave portion 212 is provided on the sheet apparatus 10 side and the connecting convex portion 213 is provided on the sheet moving apparatus 100 side is illustrated, the connecting concave portion is provided on the sheet moving apparatus 100 side, and the connecting convex portion is provided on the sheet apparatus 10. It is good also as a structure provided in the side.
[Brief description of the drawings]
FIG. 1 is a plan view of a vehicle including a vehicle seat according to the present invention.
FIG. 2 is a side view of the vehicle seat according to the present invention as viewed from the direction of arrow (2) in FIG. This figure has shown the state by which the sheet | seat apparatus was orient | assigned to the door opening part side.
FIG. 3 is a side view of a vehicle seat according to the present invention. This figure shows a state in which the seat device is moved to the outside of the passenger compartment by the third slide mechanism.
FIG. 4 is a side view of a vehicle seat according to the present invention. This figure shows a state in which the seat device is lowered out of the passenger compartment by the second slide mechanism.
FIG. 5 is a front view of the second slide mechanism, taken along line (5)-(5) in FIG. 3;
FIG. 6 is a side view of the vicinity of a second slide base.
FIG. 7 is a perspective view of a four-bar linkage mechanism and a guide cam on the left side when viewed from a seated person.
FIG. 8 is a side view of a four-bar linkage mechanism and a guide cam.
FIG. 9 is a side view of a third slide mechanism and a seat device.
FIG. 10 is a front view of the third slide mechanism as viewed from the direction of arrow (10) in FIG.
FIG. 11 is an overall side view of the sheet apparatus in a state separated from the sheet moving apparatus.
FIG. 12 is a perspective view of a sheet moving device.
FIG. 13 is a perspective view of a seat connection base.
FIG. 14 is a plan view of the sheet holder.
FIG. 15 is a side view of the sheet holder, and is a vertical cross-sectional view of the left side frame portion.
FIG. 16 is a side view of an operating part of the brake device.
17 is a view seen from the direction of arrow (17) in FIG. 16, and is a side view showing a connected state of the brake wire.
FIG. 18 is a side view of a lever portion of the brake device.
FIG. 19 is a side view of the brake device in the seat device.
FIG. 20 is a plan view illustrating a state in which the sheet device is coupled to the sheet coupling base.
FIG. 21 is a side view showing a state in which the sheet apparatus is coupled to the sheet coupling base.
FIG. 22 is a side view taken along line (22)-(22) in FIG. 20, and is a side view showing an engagement state of the rear connection engaging member with respect to the rear connection member.
FIG. 23 is a side view taken along line (23)-(23) in FIG. 20, and is a side view showing a state in which the connecting convex portion of the second slide base has entered the connecting concave portion of the seat holder.
[Explanation of symbols]
M ... Vehicle, F ... Floor, K ... Door opening 1 ... Vehicle seat 10 ... Seat device 11 ... Seat body, 11a ... Seat cushion, 11b ... Seat back 20 ... Seat holder 20L ... Left frame, 20R ... Right frame Part 22 ... Handle part, 22a ... Brake lever 30 ... Front wheel 32 ... Front wheel stay 34 ... Front wheel connecting arm 40 ... Rear wheel 42 ... Rear wheel stay 43 ... Rear wheel connecting arm 50 ... Folding mechanism 51 ... Slide bracket 56 ... Drive motor 60 ... Slider 70 ... Brake device 73 ... Brake lever 74 ... Operating lever 76 ... Brake levers 78, 79 ... Brake wire 100 ... Sheet moving device 110 ... First slide mechanism 120 ... Rotary mechanism 130 ... Second slide mechanism 132 ... Second slide Base 133 ... Four-bar linkage mechanism 134 ... Guide roller 135 ... Lifting base 137 ... Front Main engagement portion 139 ... guide cam 140 ... third slide mechanism 150 ... third drive device 151 ... seat connection base 155 ... front side connection engagement member 156 ... rear side connection engagement member 159 ... lifting mechanism 170 ... second drive device 200 ... rear side engaging part 201 ... front side engaging part 210 ... front side connecting member 211 ... rear side connecting member 212 ... connecting concave part 213 ... connecting convex part

Claims (1)

A seat device that can be used as a wheelchair outside the passenger compartment and can be used as a seat on which a passenger sits in the passenger compartment, and a seat moving device that is installed in the passenger compartment and moves the seat device between the passenger compartment and the exterior of the passenger compartment. With
The sheet moving device includes a sheet connection base connected to the sheet device when the sheet device is scooped up, a lift base that supports the sheet connection base so as to be slidable via an auxiliary slide mechanism, and a front end side of the lift base The base end side is supported by a vehicle width direction moving base that moves in the vehicle width direction so as to be able to tilt up and down, and moves up and down while moving in the vehicle width direction by the movement of the vehicle width direction moving base. A four-bar linkage mechanism that moves up and down while moving the base in the vehicle width direction,
The four-bar linkage mechanism is used as a wheelchair while the four-bar linkage mechanism is retracted toward the vehicle interior side by the vehicle width direction moving base, and the elevator base and the seat connection base are moved upward while being raised by the four-bar link mechanism. The seat device is scooped up with the seat connection base, and further, the four-bar linkage mechanism and the lift base are returned to the passenger compartment while the lift base, the seat connection base, and the seat device are raised and retracted. The auxiliary slide mechanism is configured to slide the seat connection base and the seat device in the backward direction with respect to the lift base and the four-bar linkage mechanism and return them to the vehicle interior, and the seat device and the seat by reverse operations. After moving the connecting base out of the passenger compartment and grounding the seat device, the seat connecting base is By tufts The vehicle seat separated from the sheet unit,
Between the seat device and the sheet moving device, by entering forward the sheet consolidated retracting the seat apparatus which is used as a wheelchair after downward of the seat device, the seat connection base And a left and right positioning mechanism for positioning the sheet device in the left and right direction with respect to the sheet connecting base , and the seat connecting base while the seat connecting base is raised and retracted by the four-bar linkage mechanism. A front-rear positioning mechanism for positioning the sheet device in the front-rear direction with respect to the sheet connection base in the front-rear, left-right, and left-right directions of the sheet connection base and the sheet device when the sheet device is mounted thereon; over said a retract into the vehicle cabin seat device relative to the seat connection base An upper displacement restriction mechanism for restricting is provided from being displaced,
The left / right positioning mechanism is provided in the seat device at a predetermined interval in the left / right direction, and the seat device used as a wheelchair is moved backward to move the seat connection base downward from the seat device to the front from the rear. It is provided with positioning wall portions facing the left and right side portions of the seat connection base by making it enter,
The front / rear positioning mechanism is provided on each of the seat device and the seat coupling base, and when the seat coupling base is moved downward with the four-bar linkage mechanism moved up and down, It has a fitting part that fits in the direction,
The upper displacement restriction mechanism is provided on each of the seat device and the vehicle width direction movement base, and when the seat device is slid in the backward direction by the auxiliary slide mechanism and returned to the vehicle interior, the upper displacement restriction mechanism fits in the slide direction. A vehicle seat provided with a fitting portion .

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