CA1163179A - Rotatable seat for an automotive vehicle - Google Patents

Abstract

ABSTRACT OF THE INVENTION
A rotatable seat for a multi-passenger automotive vehicle employs a latch mechanism releasable only by manual operation of an actuating lever. The latch mechanism includes latch-and-hook assemblies at both the front and rear of the seat to prevent inadvertent rotation of the seat. In addition, the seat rotation is governed by a cam having deep recesses at the two normal sitting positions. The cam is designed with sloping faces so that the weight of the seat drives rotation towards the normal positions. An additional safety mechanism prevents rotation of the seat unless the seat back is in a position preventing passengers from sitting thereon.

Description

- . RO'rATABLE: 51~T FOR AN AVTOMOTIVE VEEIICLE

~3AC~SG}~UND OP THE INV:13NTI ON
. _ .
The present invention relates to a rotatable seat for an automotive vehicle, such as van or micrc~bus and so forth. More specifically, the invention relates to a rotating mechanism and locking or latch mechanism in the rotatable seat.
Recently, rotatable seats to be facilitated on the automotive vehicle, particularly on van or micro-bus type vehicle, have been developed. Generally, such rotatable seat is provided with a rotation or pivot mechanism and a latch mechanism. The rotation mechanism comprises a vertical axle rotatably received within a boss formed on the vehicle floor panel. The latch mechanism usually provided adjacent the rotation mechanism and prevents the vertical axle from rotating. -The latch mechanism has a latch member engageable with the vertical axle or other appropriate section o the rotation mechanism so that it may prevent the vertical axle and thus the - rotatable seat from rotating.
Since the rotational force due to remarkable inertia caused by collision of the vehicle or abrupt deceleration is applied to the vehicle not only at the pivoted portin but also the portion apart from the pivot, the conventional latch mechanism must be provided an enough force in order to prevent the seat rom rotating. However, ~ 1631 7~

due to lacking of space below the seat, there could not be provided an appropriate mechanism having enough resistance against the rotational force applied to the portion apart from the pivot. Furthermore, according to the typical construction of the conventional rotatable seat, the latch member is urged to latching position by a spring. This bias spring provided for the latch member has insufficient bias force for completely preventing the seat from accidentally rotating. On the other hand, bet~een the bottom of the seat and the vehicle floor panel, is provided not enough clearance for providing with powerful spring for biasing the latch member to latching position. Assuming it is possible to provide a spring having enough force to prevent the seat from accidentally rotating, this may cause difficulty of releasing from latching position when the seat is to be rotated.
Preventing the seat from accidentally rotating may be accompIished by providing the l-atch mechanism at the portion aparting from the pivot, where greater rotational ~orce with respect to the pivot will be applied. This may require less biasing force than the latsh mechanism provided adjacent the pivot. Therefore/ releasing of the latch mechanism from latching position may require smaller power to permit ea~y operation of seat rotation when the seat is to be rotated.
SUMMARY OF THE;IRV~NTION
There~ore, it is an object of the present .

.

1 ~3~7~
invention to provide a rotatable seat having a lock or latch mechanism which can e~fectively prevent the rotatable seat from accidentally rotating and requires less operatîonal power for releasing the latch mechanism from 5 latching position when rotation of the seat is desired.
To accomplish the above-mentioned and other objects, there is provided a rotatable seat for an automotive vehicle which has a rotation mechanism and a latch mechanism independent of the rotational mechanism.
The rotation mechanism includes means for vertically moving the seat between a first position in which seat is prevented from rotating and a second position in which the seat is permitted to rotate about the vertical axis thereof. The latch mechanism includes means for providing latch-and-hook engagement at both the front and the rear of the seat. The latch-and-hook engagement is releasable from the engaged condition by operating a manual lever.
According to the present invention, the rotation mechanism further includes means for ca~sing rotational movement of the seat at the second position due to the seat's own weight.
Further, accordlng to another aspect of the invention, the rotatable seat is further provided with a holding mechanism to hold the seat at the second position.
The holding mechanism includes means for releasing the seat from the held position after seat rotation is completed.
According to a further aspect of the invention, .

: . . . .. . .

.the rotatable seat is provided with a saEety mechanism which prevents inadvertent release of the latch-and-hook engagement whi.~e passengers are sitting thereon.
According to the invention, as broadly claimed, there is provided a rotatable seat for an automotive vehicIe comprising a seat rotatably supported on a vehicle floor with a rotational pivot which permits the seat to rotate in the horizontal plane thereabout, a rotation mechanism for moving the seat between a first position in which the seat is prevented from rotating and a second position in which the seat is permitted to rotate.about the rotational pivot, a latch mechanim for latching the seat.
in a position facing either forward or back with respect to the vehicle, the latch mechanism having first and second . latching assemblies provlded at the front and the rear of the seat,. which first and second latching assemblies being movable between a third position in which the seat is prevented from rotating and a fourth position in which the seat is permitted to rotate about the rotational pivot and 20~ an actuating lever to operate said rotation mechanism to : ~ move the seat from the first position to second positin and said:: first and the latching assemblies from the third . position to the fourth position to permit seat rotation.
BRI~3? D335CRIPTION OF T}~E RA~INGS
: . : 25 The present invention will be understood more ~ ~ fully from the detaiIed description give herebelow and from :~ . the accompanying drawings of the preferred embodimènts of . : ' `
~ A

, .

~ . - .

1 ~3:~7g the present invention, which, however, should be taken as limitative to the invention but for elucidation and explanation only.
In the drawings:
Fig. 1 is a plane view of a micro-bus type automotive vehicle having a rotatable seat according to the present invention;
Fig. 2 is a side elevation of the micro-bus type automotive vehicle of Fig. l;
Fig. 3 is a sectional view of the first embodiment of a rotatable seat according to the present invention;
Fig. 4 is an enlarged sectional view of a rotational mechanism of the rotatable seat of Fig. 3, which is taken along line IV-IV of Fig. 3;
Fig. 5 is a perspective view of the rotation mechanism of the rotatable seat of Fig. 3;
Fig. 6 is a similar view to Fig. 3 but showing the seat in a position lifted up for rotation;
Fig. 7 is an illustration of the rotation mechanism which detalls the relative dimensions of a cam member, supporting roller and lifting roller;
Fig. 8 is a perspective view of the second embodiment of the rotatable seat according to the present invention;
Fig. 9 is a sectional view of the rotatable seat of Fig. 8 showing detail of the construction thereof;

5 _ ~.6~
. ', Fi~. 10 is a perspective view showing the relationship between the lifting lever and the holding lever~in the rotatable seat construction of Fig. 9;
Fig. ll is a perspective view showing an actuating lever of the ro~atable seat of Fig. 9;
Fig. 12 is a side elevation view of the holding lever showing movement thereof;
Fig. 13 is a side elevation view of the actuating lever showing operation thereof;
Fig. 14 is a side elevation view of the rotatable seat according to a modification of the second embodiment of Fig. 9;
Fig. 15 is a perspective view of the rotatable seat of Fig. 14;
I5 Fig. 16 is a perspective view of a blocking lever in the interlock mechanism provided in the rotatable seat of Fig. 14; and Fig. 17 is a plan view of the blocking lever showing operation thereof.
; 20 DESCRIPTION O~ T~ P~EFERRED EMBODIMENT
Referring now to the drawings, particularly to Flgs. l and 2, there is illustrated a van or micro-bus type automotive vehicle. In the passenger compartment, three or more vehicle seats, generally of the bench type, are installed parallelly with respect to one another. A
rotatable seat 20 is positioned between a driver's seat 22 and a rear seat 24. The rotatable seat 20 is rotatable about its vertical axis to alternate the direction in which the seat faces between forward and backward, as shown in Figs. 1 and 2. A pair of front and rear legs 26 and 28 are provided for the rotatable seat 20 and are mounted on a seat support 30. A rotation mechanism 32 is inter-positioned between the bottom of the rotatable seat 20 and the upper surface of ~he seat support 30. The rotation mechanism 32 permits rotation of the rotatable seat about its vertical axis for alternating seat direction. A latch mechanism 34, which is shown in Fig. 3 and is also interpositioned between the bottom of the rotatable seat and the upper surface of the seat support, holds the seat 20 in either of two positions in which the rotatable seat is directed either forward or backward.
Figs. 3 and 4 show the first embodiment of the rotatable seat strl~cture according to the present invention and detailed construction of the-rotation mechanism 32 and latch mechanism 34 o the rotatable seat. Generally, the rotatable seat comprises a seat cushion 36 and a seat back 38. A seat cushion 36 has a seat support frame 40 at the bottom thereof. A rotational axle 42 vertically extends rom the seat support frame 40 at the center of the seat.
The rotational axle 42 is fixed to the seat support frame 40 with fastening means such as fastening bolts 44.
Surrounding the rotational axle 42, an annular cam member 46 is fitted to the center of the seat support frame 40.
~he cam member 46 has cam faces 50 and 52 on the lower edge . . ~ .

1 ~3~

thereof. The cam member 46 is also formed with a pair of diametrically-opposed rounded c~t outs 54. Two support rollers 56 are each rotatably supported at one end of a corresponding shaft 58, the other end of which is secured to brackets 50 projected from the upper surface of the seat support 30. The cut outs 54 simultaneously receive the support rollers 56 when the rotatable seat 20 is latched at a position facing either forward or backward.
As shown in Fig. 5, liting rollers 62 and -64 abut the lower surfaces 66 of diametrically-opposed laterally-extending portions 68 of the cam member 46. The lifting rollers 62 and 64 are rotatable about shafts 70.
The shafts 70 are secured to the ends of lifting levers 72 and 74. The lifting lever 74 is horizontally angled and has a circular hole 76 at the other end thereof and the llfting lever 72 is horizontally and vertically angled and has a circular hole 78 at an intermediate portion thereof.
The holes 76 and 78 of the levers 74 and 72 receive either end of a rotational a~le 80. The axle 80 is rotatably supported by brackets 82 projecting from the upper`surface of the seat support 30, The axle 80 is secured to each of the holes 76 and 78 so that the levers 72 and 74 rotate with each other according to rotation of the axle 80.
The lower end of the lifting lever 72 is connected to a linking lever 84 via a connecting rod 86.
The connecting rod 86 connects the lifting lever 72 to the linking lever 84 so that the lifting lever 72 and the - `` l 1~3~79 . lifting lever 74 can be rotated about the horizontal axle 80 thereof in response to rotation of the linking lever 84. The linking lever 84 is secured to a shaft 86 which is rotatably supported by the seat support 30. A
manually~operable lift-up lever 88 is also secured to the shaft 86 for rotation with the linking lever 84. The lift-up lever 88 has at the free end thereof a handle 90 for comfortable gripping therefor. The lifting lever 72 is, in turn, biased by a spring 92 in the direction in which the lifting roller 62 is.moved downwards about the horizontal - axle 80. One end of the spring 92 is secured to the seat support 30.
The rotational axle 42 is received through a cylindrical boss 94 inserted into an bore 96 formed in the seat support 30. The seat support 30 has a recess 98 at a position housing the free end of the rotational axle 42. A
pair of bushings 100 and 102 are inserted into opposite ends of the boss 94. Each of the bushings 100 and 102 has a flange portion 104 and 106 and a cylindrical portion 108 and 110 respectively which engage with the ends of the boss. The bushings 100 and 102 serve to pre~ent rotational friction between the rotational axle 42 and the inner ~ periphery of the boss 94.
: As shown in Fig. 3, the latch mechanism 34 : : 25 generally comprises a pair of hooks 112 and 114 secured to the seat support frame 40 near the front and rear ends of : the seat cushion 36, and a pair of latches 116 and 118 _ g _ ' .. . .

~ ~ ~63179 releasably engaged with the hooks. The upper end of each latch 116 and 118 has a hook portion 121 and 123 which is engageable with the hook 112 and 114 respectively. The latches 116 and 118 are respectively secured to shafts 120 and 122 rotatably supported by the seat support 30. A
portion of the latch 116 above the shaft 120 is connected to a portion of the latch 118 below the shaft 122 via a connecting rod 124 for co-ordinated movement therewith. A
manually-operable release lever 126 is secured to the shaft 120 in order to rotate the shaft 120 and the latch 116. The latch 118 is connected to one end of a bias spring 128. Thé
other end of the bias spring l28 is engaged with the seat support 30 in order to provide a spring force biasing the latch 118 in the direction in which the hook portion 123 engages with the hook 114. Similar to the lift-up - lever 88, the release lever 126 has a handle 130 or comfortable operation thereof.
In operation, when the release lever 126 is pulled to rotate the shaft 122 clockwise as shown in Fig. 3, the latch 116 is thus rotated clockwise so that the hook portion 121 and the hook 112 disengage. At the same time, the Iatch 118 rotates counterclockwise according to the rotation of the latch 116 so that the hook portion 123 and the hook 114 disengage. In this position, when the lift-up lever 88 is pulled to rotate the shaft 86 together with linking lever 84 clockwise in Fig. 3, the rotation of the linking lever 84 is transmitted to the lifting lever 72 .
.

~ ~L63179 .
to rotate the latter with the other lifting lever 74. Due to the rotation of the lifting levers 72 and 74, the lifting rollers 62 and 64 come to contact with the lower surfaces 66 of the laterally-extending portions 68 of the cam member 46 to push the seat 20 upwards. The seat 20 is thus raised. Due to the upward movement o~ the seat 20, the support rollers 56 are released from the cut outs 54 of the cam member 46 as shown by the arrows in FigO 7.
Therefore, the seat 20 can horizontally rotate about the vertical axis of the rotational axle 42. At a position in ` which the seat is slightly rotated, the support rollers 56 come into contact with the cam faces 50, as shown in ; Fig. 7.
At this position, when the release lever lZ6 and the lift-up lever 88 are released by the user~ they return ~ to their respective initial positions. Although the - release lever 126 and lift-up lever 88 return to their respective initial positions, the seat 20 with the cam member 46 is held in the unlatched and raised position by the supporting rollers 56. The seat 20 is thus permitted to rotate about the vertical axis of the rotational axle 42 in order to alternate the seat facing. In this position, ~ the weight of the seat 20 is vertically applied to the ; ~ contact points C between the support rollers 56 and the cam face 50.- ~ince the cam face 50 is inclined with respect to the horizontal plane and the force due to gravity is ::
applied perpendicular to the cam face, i.e., in the ~ 1~3~

direction of moment, there exists a horizontal component of the reacting moment against gravity, and thus the seat 20 rotates about its vertical rotational axis by itself without requiring application of an external force. During rotation of the seat, the support rollers 56 remain in a :; position abutting the cam faces 50 and 52 so that the seat 20 and the cam member 46 are kept in the raised position.
As the seat 20 approaches the desired forward or backward position, the support rollers 56 reach the end of the appropriate cam face 50 or 52 and drop into the cut-outs 56, i.e., the seat 20 returns to the normal lowered position. At the same time, the hooks 112 and 114 are lowered over the ends 121 and 123 of the latchs 116 and 118. As the hooks pass over the hooked ends 121 and 123, the latches 116 and 118 are displaced slightly from and then returned to the initial positions thereof, now firmly engaged with the hooks 112 and 114. Due to the engagement of the support rollers 56 and the -cut outs 54 and the engagement of the latches 116 and 118 and the hooks 112 and 114, the seat 20 is prevented from rotating.
The relationship between the support roller 56, lifting roller 62 and 64, and cam member 46 will be described in further detail with reference to Fig. 7. In the initial position, the support rollers 56 are placed within the cut outs 54 with a clearance dl from the bottom of the cut out. Also, the lifting rollers 62 and 64 are placed away from the lower surface 66 of the extending .

J 1 ~3 ~ 7g portion 68 at a distance d2. These clearances aremaintained in the lowered position by the length of the front and rear legs 26 and 28. The vertical motion distance of the lifting roller 6~ and 64 is determined in correspondence with to the depth d4 of the cut-outs 54 and in correspondence with the required vertical displacement of the cam member 46 with respect to the support rollers 56. The circumferential extent of the extending portion 68 is greater than the horizontal displacement distance d5 of the lifting rollers 62 and 64, caused by operation of the lifting levers 72 and 74.
In the initial position, the horizontal axis P
of the support rollers 56 is placed at the center of the circle of the rounded bottom of the cut-outs 54. Each roller 62, 64 and 56 has diameter rl which is smaller than that r2 of the rounded bottom of the cut out 54 so that it may provide clearance dl between the upper end of the roller 56 and the circumference of the cut-outs 54. This will aid smooth engagement of the support rollers 56 and the cut-outs 54 at the end of seat rotation.
Figs. 8 to 13 show the second embodiment of the rotatable seat according to the present invention. In this embodiment, the rotation mechanism 32 and latch mechanism - 34 in the foregoing embodiment are cooperatively combined so that they can be operated with a single actuating lever.
Further, the present embodiment of the rotatable seat is provided with a holding mechanism for holding the seat at , i lB3;L79 the raised position.
Fig. 9 is a fragmentary perspective view of the - rotatable seat 140 in which the combined rotation mechanism 142 and latch mechanism 144 with the holding mechanism 146 is illustrated. As can be seen from Fig. 9, the rotational seat 140 has pivot means similar to that of the foregoing - embodiment, about which the seat rotates. As shown in Fig. 10, the pivot means comprises a rotational axle 148 received with a cylindrical boss 150. The boss 150 is inserted into a through opening formed in a seat support 152. The rotational axle 148 is rotatable about thé
vertical axis of the boss for permitting rotation of the seat 140. Likewise to the first embodiment, a cam member 154 surrounds the rotational axle 148. A pair of lifting rollers 156 and 158 are movably provided adjacent the cam member 154. The li~ting rollers 156 and 158 are rotatably mounted at one end of lifting levers 160 and 162 so that the lifting roller lift up the cam member 154 with the rotatable seat 140 by rotational movement of the lifting levers 160 and 162.
The lifting lever 160 is connected to an actuating lever 164 via a connecting rod 166. The actuating lever 164 is arranged so that it can also release latches 168 and 170 respectively engageable with hooks 172 and 174. The actuating lever 164 further operates a holding mechanism 146 which comprises a holding lever 176 pivotable between positions corresponding to latching and .
.

3~7~

unlatching in response to the movement of the actuating lever.
Now, referring to Figs. 10 to 14, the rotation mechanism 142, the latch mechanism 144 and the holding mechanism 146 will be described in detail. Similarly to - the oregoing first embodiment, the cam member 154 encircles the top of the rotational axle 148 and has cam faces 178 and 180 at the lower end thereof. Also, the cam member 148 has diametrically-opposed cut-outs 182 with rounded ends. Support rollers 184 rotatably supported by shafts 187 at the upper ends of brackets 186 are received in the cut-outs in the initial position of the seat 140.
The lifting rollers 156 and 158 oppose the lower surface of extending portions 188 laterally extending from the outer periphery of the cam member 148 along the underside of the seat 140. The lifting roller 156 is rotatable about an axle 192 projecting from one end of the lifting lever 160~
Likewise, the lifting roller 158 is rotatably mounted on an axle 194 projecting from one end of the lifting 7ever 162.
As shown in Fig. 10, the lifting lever 160 is horizontally and vertically angled and secured onto one end of a shaft 196 at its vertical corner 198. On the other hand, the li~ting lever 162 is horizontally angled and secured onto the other end of the shaf:t 196 at the end opposite the llfting roller 158. The shaft 196 is rotatably supported by a pair of brackets 200 projecting from the upper surface of the seat support 152. A bias spring 199 is connected to the lifting lever 160 to that it biases the latter to an initial position displaced from the cam member 148 as shown in Fig. 9.
Through a connecting rod 166 and a connecting lever 204, the lower end of the lifting lever 160 is connected to a fan-shaped cam lever 206 secured to a rotatable shaft 208 together with the actuating lever 164.
As particularly shown in Fig. 11, front side edge of the fan-shaped cam lever 206 opposes a contact pin 210 projecting from a contact lever 212 which is secured to a rotatable shaft 214, to which, the latch 168 is also secured. The contact lever 212 is connected with the latch 170 via a connecting rod 216. The latch 170 is biased toward an initial position, in which the latch 170 engages with the hook 172 or 174 by a bias spring 217.
The holding lever 176 is pivotably supported by a : shaft 218. The holding lever 176 is biased upwards by a sprln~ 220 so that the portion 222 thereof constantly : ~: contacts with the underside of a pin 224 projecting from the side surface of the lifting lever 160. Thus~ ~he pin : 224 limits rotation of the holding lever 176 about the shaft 2180 A roller 226 is rotatably mounted ~n a shaft 230 at:the top of a portion 228 of the holding lever 176.
The:holding lever 176 has a cut-out 232 at the end of the portion 222. The cut-out 232 is engageable with the pin ~: 224 a~t the extreme position of rotation of the holding lever 176. The roller 226 opposes a cam plate 234 with a . . .

i ~3~7~

cam face 236 so that it contacts the latter during rotation of the seat 140.
~ In the initial position where the rotatable seat 140 is directed forward or backward and locked to be prevented from rotating, the latches 168 and 170 engage the hooks 172 and 174 to maintain the seat 140 in the latched position~ At this position, the support rollers 184 are disposed within the cut-outs 182 to prevent the seat from rotating in cooperation with the latch-and-hook engagement. The pin 224 of the lifting lever 160 pushes the holding le~ver downwardly against the spring force of the spring 220 in order to displace the roller 226 from the cam face 236 of the cam plate 234. Also, the lifting rollers 156 and 158 are disposed in an initial position displaced from the lower surface of the extending portions 188 and 190 at a distance dl. In this position, front and rear legs 238 and 240 extending from the bo~tom of the rotatable seat 140 rest on the upper surface of the seat support 152.

In operation, when the actuating lever 164 is rotated about its rotation axis in the clockwise direction, the cam lever 206 coaxially secured to the shaft 208 is thus rotated clockwise to force the pin 210 of the contact ~ lever 212 clockwise. By rotation of the contact lever 212 about the axis thereof, the latch 168 is rotated clockwise to disengage from the hook 172. Corresponding to the rotation of the contact lever 212, the latch 170 rotates --17~

counterclockwise to disengage from the hook 174.
According to the rotation of the actuating lever 164, the cam lever 206 rotates clockwise in Figs. 9 and 12.
The rotational force of the cam lever 206 is transmitted to the lifting lever 160 via the connecting lever 204 and the connecting rod 166. The lifting lever 160 is thus rotated - with the lifting lever 162 to bring the lifting rollers 156 and 158 into contact with the lower surfaces of the extending portions 188 and 190 to raise the seat 140.
During lifting lever rotation, holding lever 176 rotates about the axis of the shaft 187 to engage the cut-out 232 with the pin 224. The profile of the cut-out 232 does not easily permit release of the pin 224. Thus, the holding lever 176 maintains the lifting lever 160, and therefore the seat 140~ in the raised position. In this position, due to the weight of~ the seat, the support rollers 184 moves along the cam faces 180 and 182 of the cam member to rotate the seat 140 as described with respect to the firs~
embodiment. During seat rotation, the cam face 236 of the cam plate 234 contacts the roller 226 to push the latter downward. The holding lever 176 rotates counterclockwise in response to the downward force to release ~he pin 224 from the cut-out 232. Thus, the holding lever 176 returns - to its initial position, as shown in phantom line in Fig. 12. By releasing the pin 224 from the cut out 232-, the lifting lever 160 together with the lifting lever 162 is allowed ~o return the initial position thereof.

: :

~ :~6~7~
Simultaneously, the latch 168 and 170 engage with the hooks 172 and 174 again in order to prevent the seat from rota~ing.
~eferring to Fig. 14, there is il~ustrated a modification of the second embodiment. In this modification, an interlock mechanism is provided in order to prevent passenger from subjecting themselves danger due to sitting in the rotatable seat when it is unlatched. The interlock mechanism therefore inhibits sitting while the rotatable seat is in the raised position.
The interlock mechanism 250 comprises a blocking lever 252 located immediately clockwise of the latch 168 so that one end 254 thereof abuts the back of the latch in the normal position. The blocking lever 252 is connected to a lever 256 secured on the side of the pivotable seat back 258. The Iever 256 is integral with a pivotable piece 259 of a hinge mechanism 260. The hinge mechanism 260 includes a stationary piece 262 secured to the seat cushion 264 and an outer casing 266 covering the end of the axle of the hinge mechanism 260. The outer casing 266 has a cut-out 268 on its circumference.
A locking lever 270 with an angled end 272 is pivotably supported on the side of the seat cushion 264 near the outer casing 266. A bias spring 27~ has one end secured to the stationary piece 262 of the hinge mechanism and the other end attached to the locking lever 270 so as to urge the lo~king lever 270 toward the outer casing 266.

' .

;3 ~ 79 .The end 272 of the locking lever 270 in contact with the outer casing 266 is angled toward the outer casing 266 so that -it may engage ~ith the cut-out 268 when the seat back 258 is pivoted sufficient far toward the seat cushion 264.
A coaxial inner and outer cables 276 and 278 are interposed between the blocking lever 252 and the lever 256. The outer cable 278 is secured to the bottom of the seat cushion 264 by a bracket 280. The inner cable 276 is movable through the outer cable according to the movement of the lever 256. .The blocking lever 252 is pivotably supported by a pivot 282 so that it can rotate hori~ontally thereabout. As shown in Fig. 16, the blocking lever 252 has a forked end 284.: A connector pin 286 spans the space 288 between the arms 290 and 292-of the forked end 284. The.
connector pin 286 pivotably engages the end of the inner cable 276. The inner cable 276 is movable through the outer cable 278 according to movement of the lever 256.
I~ the normal position, the end 254 of the blocking lever 252 prevents release of the latch 168.
Therefore, the actuating lever 164 cannot rotate about its rotational axisO To enable the actuating lever 164 to be operated, the seat back 258 must be held as illustrated by : : phantom lines in Fig. 14. According to the rotation of the : seat back 258 and thus the rotatable piece 259, the lever 256 pivots counterclockwise in Fig. 14. The inner cable 276 thus slides through the outer cable 278 so that the blocking lever 252 is pulled to rotate about the .

. . .

3 ~

pivot 282 to a position displaced from the latch 168 as illustrated by phantom lines in Fig. 17. Thus, the latch 168 is permitted to rotate to allow the actuating lever 164 to be operated.
During the rotation of the seat back 258 about the hinge axle, the cut out 268 of the outer casing 256 is moved into opposition with the angled end 272 of the locking lever 270 so as to engage the angled end 272. Due to the engagement of the locking lever and the outer casing, the seat back 258 is prevented from rotatiny back to the normal position. The locking lever 270 is maintained in this position by the force of the bias spriny 274. The rotatable seat 140 can rotate normally - about its rotational axis as described previously. When the seat reaches the desired position, the seat 140 is lowered to the initial position thereof. In this position, the free end of the locking lever 270 abuts against the upper surface o the seat support 152. The loclcing lever 270 is thus rotated clockwise against the biasing force of the spring 274 to disengage the angled end of locking lever 270 ~and the cut out 268 of the outer casing 266. This permits the seat back 258 to return to the normal position.
As understood hereabove, the present invention fulfills all of the objects and advantages sought therefor.

Claims (11)

WHAT IS CLAIMED IS:

1. A rotatable seat for an automotive vehicle comprising:
a seat rotatably supported on a vehicle floor with a rotational pivot which permits the seat to rotate in the horizontal plane thereabout;
a rotation mechanism for moving said seat between a first position in which the seat is prevented from rotating and a second position in which the seat is permitted to rotate about the rotational pivot;
a latch mechanism for latching the seat in a position facing either forward or back with respect to the vehicle, said latch mechanism having first and second latching assemblies provided at the front and the rear of the seat, which first and second latching assemblies being movable between a third position in which the seat is prevented from rotating and a fourth position in which the seat is permitted to rotate about the rotational pivot; and an actuating lever to operate said rotation mechanism to move the seat from said first position to second position and said first and said latching assemblies from said third position to said fourth position to permit seat rotation.

2. The seat as set forth in claim 1, wherein said rotation mechanism includes rotating means for causing seat rotation when the seat is in said second position, which rotating means provides rotational force derived from the weight of the seat.

3. The seat as set forth in claim I or 2, wherein said latch mechanism is operated independently of said rotation mechanism.

4. The seat as set forth in claim 1 or 2, wherein said latch mechanism connected to said rotation mechanism so that both can be operated by said actuating lever.

5. A seat as set forth in claim 1, which further comprises means for maintaining said seat in said second position while said seat is rotating.

6. A seat as set forth in claim 1, which further comprises interlock means which blocks movement of said latching mechanism from said third position to said fourth position unless the seat back of said seat is in a position preventing sitting on the seat.

7. A seat as set forth in claim 1 or 2, wherein said rotation mechanism comprises a circular cam member fixed onto a seat cushion, which cam member is provided with a cam face and cut-outs, a plurality of support rollers initially received within said cut-outs while said seat is placed in said first position and contacting said cam face to cause rotation of the seat by movement along said cam face in said second position, and lifting levers with lifting rollers operable by said actuating lever to raise said cam member and said seat so that said seat is moved from said first position to said second position.

8. A seat as set forth in claim 1, wherein said rotation mechanism comprises a circular cam member fixed onto a seat cushion, which cam member is provided with a cam face and cut-outs, a plurality of support rollers initially received within said cut-outs while said seat is placed in said first position and contacting said cam face to cause rotation of the seat by movement along said cam face in said second position, and lifting levers with lifting rollers operable by said actuating lever to raise said cam member and said seat so that said seat is moved from said first position to said second positions and said lifting lever are connected to said latch mechanism so that said latch mechanism can be operated by said actuating lever together with said lifting lever.

9. A seat as set forth in claim 8, further comprising a holding lever for maintaining said seat in said second position by blocking return motion of said lifting lever to the initial position thereof, said holding lever being engageable with a pin projecting from said lifting lever in said second position, the engagement between said pin and holding lever being released as said seat move from said first to said second position.

10. A seat as set forth in claim 9, further comprising a blocking mechanism for preventing movement of said latch assemblies from said third position to said fourth, said blocking mechanism comprising a blocking lever placed adjacent said latch assemblies, which blocking lever being connected to a hinge lever, provided for a hinge between the seat back and seat cushion, for securely holding the seat back near the seat cushion so that said blocking lever is moved to a position permitting said latch assemblies to move to said fourth position when the seat back is held near the seat cushion.

11. A seat as set forth in claim 10, wherein said blocking mechanism incorporates means for latching the seat back near the seat cushion while said seat rotates, said latching means releasing the seat back when the seat moves from said second position to said first.